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WO2017190360A1 - Medical detection system and control method therefor - Google Patents

Medical detection system and control method therefor Download PDF

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Publication number
WO2017190360A1
WO2017190360A1 PCT/CN2016/081338 CN2016081338W WO2017190360A1 WO 2017190360 A1 WO2017190360 A1 WO 2017190360A1 CN 2016081338 W CN2016081338 W CN 2016081338W WO 2017190360 A1 WO2017190360 A1 WO 2017190360A1
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WO
WIPO (PCT)
Prior art keywords
moving contact
continuous moving
attribute information
display screen
touch display
Prior art date
Application number
PCT/CN2016/081338
Other languages
French (fr)
Chinese (zh)
Inventor
刘智光
Original Assignee
深圳迈瑞生物医疗电子股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 深圳迈瑞生物医疗电子股份有限公司 filed Critical 深圳迈瑞生物医疗电子股份有限公司
Priority to PCT/CN2016/081338 priority Critical patent/WO2017190360A1/en
Priority to CN201680041178.8A priority patent/CN107850832B/en
Publication of WO2017190360A1 publication Critical patent/WO2017190360A1/en

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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03FPHOTOMECHANICAL PRODUCTION OF TEXTURED OR PATTERNED SURFACES, e.g. FOR PRINTING, FOR PROCESSING OF SEMICONDUCTOR DEVICES; MATERIALS THEREFOR; ORIGINALS THEREFOR; APPARATUS SPECIALLY ADAPTED THEREFOR
    • G03F3/00Colour separation; Correction of tonal value

Definitions

  • the present invention relates to a medical detection system with a touch display screen and a control method therefor.
  • an input device that is desired to be selected is sequentially selected by an input device such as a trackball or a mouse to perform multiple selection.
  • an input device such as a trackball or a mouse
  • the displayed list needs to be scrolled to display the remaining alternatives for the user to select.
  • the user's selection operation is more cumbersome.
  • the scrolling operation is typically used to scroll the list.
  • the user can only select the candidate items that are desired to be selected one by one. In this way, the user operation is very cumbersome, the workload is large, very inconvenient, and the user experience is poor.
  • a medical detection system includes:
  • a medical detecting device that detects a detection target to acquire medical detection data
  • the data processing module generating a plurality of candidate objects associated with the medical detection data or the medical detection device;
  • control module that displays the plurality of candidate objects on the touch display screen, detects a continuous moving contact of the input object with the touch display screen, and marks the associated moving contact in response to the continuous moving contact Attribute information corresponding to multiple candidate objects.
  • a method of controlling a medical detection system includes:
  • Attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact is marked in response to the continuous moving contact.
  • a method of controlling a medical detection system includes:
  • a medical detection system includes:
  • a medical detecting device that detects a detection target to acquire medical detection data
  • the data processing module generating a list of information including a plurality of candidate objects associated with the medical detection data or the medical detection device;
  • a control module that displays a first portion of the list of information on a touch display screen, detects contact of the input object with the touch display screen, determines an operational position of the contact on the touch display screen, and when When the operating position is within the selected area on the touch display screen, the plurality of devices associated with the continuous moving contact in the first portion of the list of information are marked in response to the continuous moving contact of the input object within the selected area Selecting attribute information corresponding to the object, when the operation position is located in the scroll area on the touch display screen, moving the display displayed on the touch display screen in response to the movement of the contact of the input object in the scroll area
  • the list of information to display at least a portion of the remainder of the list of information other than the first portion.
  • FIG. 1 is a schematic diagram of a system architecture of an ultrasonic testing apparatus in accordance with some embodiments
  • FIG. 2 is a schematic diagram showing the display of a graphical user interface in accordance with some embodiments
  • FIG. 3 is a schematic diagram of a gesture operation according to some embodiments.
  • FIG. 4 is a flow chart providing a method in accordance with some embodiments.
  • FIG. 5 is a schematic illustration of an operation provided in accordance with some embodiments.
  • FIG. 6 is a schematic diagram showing another operation in accordance with some embodiments.
  • Figure 7 is a schematic diagram showing still another operation in accordance with some embodiments.
  • FIG. 8 is a schematic diagram of an operation for providing another gesture input in accordance with some embodiments.
  • FIG. 9 is a schematic diagram showing a selection operation of an alternative object arrangement manner according to some embodiments.
  • FIG. 10 is a schematic diagram showing a selection operation of another alternative object arrangement manner according to some embodiments.
  • FIG. 11 is a flowchart of a method of providing partial steps in accordance with some embodiments.
  • Figure 12 is a diagram showing one of the operational diagrams in accordance with some embodiments.
  • Figure 13 is a second schematic diagram showing the operation in accordance with some embodiments.
  • FIG. 14 is a schematic diagram showing a continuous operation under one gesture input in accordance with some embodiments.
  • 15 is a schematic diagram of continuous operation based on a single gesture input in a random arrangement, in accordance with some embodiments.
  • Figure 16 (a) is a schematic diagram showing an operational position in accordance with some embodiments
  • Figure 16 (b) is a second schematic diagram showing an operational position in accordance with some embodiments
  • Figure 16 (c) is provided a third schematic diagram of the operational position in accordance with some embodiments
  • 17 is a second schematic diagram of a continuous operation under one gesture input in accordance with some embodiments.
  • 18 is a third schematic diagram of a continuous operation under one gesture input in accordance with some embodiments.
  • 19 is a fourth schematic diagram of a continuous operation under one gesture input in accordance with some embodiments.
  • 20 is a fifth schematic diagram of a continuous operation under one gesture input in accordance with some embodiments.
  • 21 is a sixth schematic diagram of a continuous operation under one gesture input in accordance with some embodiments.
  • 22 is a seventh schematic diagram of a continuous operation under one gesture input in accordance with some embodiments.
  • 23 is a flow chart of a method of providing partial steps in accordance with some embodiments.
  • the device has a touch display screen with a graphical user interface (GUI), one or more processors, memory, and one or more modules stored in the memory for performing various functions, Program or instruction set.
  • these functions may include detecting a test subject (eg, a patient's tissue) to obtain medical test data, image browsing, pathology database construction, retrieval and maintenance, patient file information construction, display, and Management, patient directory information building, display and management, and more.
  • the modules, programs, or instructions for executing these may be included in a computer program product configured for execution by one or more processors.
  • the user interacts with the graphical user interface primarily through gesture input on the touch display.
  • the gesture input herein may include any type of user gesture input that the device can detect by directly touching the touch display or proximity to the touch display.
  • the gesture input may be a finger that the user uses a right or left hand (eg, an index finger, a thumb, etc.), or an input object that can be detected by touching the display screen (eg, a stylus, a touch screen dedicated pen) on the touch display screen.
  • the actions of selecting one location, multiple locations, and/or multiple consecutive locations may include operational actions such as contact, touch release, touch tap, long contact, rotational deployment, and the like.
  • the long contact corresponds to a gesture input of moving a finger, a thumb, a stylus in a predetermined direction or a variable direction while a finger, a thumb, a stylus, or the like is kept in continuous contact with the touch display screen, for example, like a touch drag Gesture operation such as moving, flicking, wiping, sliding, sweeping, and the like.
  • the gesture input is realized by the contact of the input object with the touch display screen, and the contact state with the touch display screen may include a state in which the finger, the thumb, or the stylus pen directly contacts the touch display screen or is in direct contact with the touch display screen.
  • the gesture input that is close to the touch display screen instead of being in direct contact refers to a gesture operation action in a spatial position close to the touch display screen.
  • the above graphical user interface refers to an overall design of human-computer interaction, operation logic, and interface aesthetics of the software, which may include one or more soft keyboards and multiple image control objects.
  • a soft keyboard can include a number of icons (or soft keys). This allows the user to select one or more icons in the soft keyboard and thus select one or more corresponding symbols for input.
  • the gesture input of the touch display screen may also include an actual hardware input device (eg, trackball, keyboard, mouse) a combination of one or more of the targets and/or joysticks to perform an operation similar to the gesture input described above on the graphical user interface, for example, by controlling the movement of the cursor on the graphical user interface by a hardware input device to produce a gesture input similar to that described above
  • an actual hardware input device eg, trackball, keyboard, mouse
  • the medical detection system can include a touch display 130, a medical detection device 300, a data processing module 150 and a control module 140, and a memory 160.
  • the medical detecting device 300 can detect a detection object (for example, an organ, a tissue, a blood vessel, or the like in a human body or an animal body, not shown) to obtain medical detection data (for example, an image, a spectrum, and a physiological parameter waveform of the detection object). , physiological parameter measurements, etc.).
  • the data processing module 150 can then generate a plurality of candidate objects that are associated with the medical detection device or the medical detection data obtained by the medical detection device.
  • the control module 140 may display the candidate object generated by the data processing module 150 on the touch display screen, and detect an input object (eg, a user's finger, a stylus, a touch screen dedicated pen, etc.) on the touch display screen. The operation then operates on the alternate object displayed on the touch display in response to the operation of the input object on the touch display (described in more detail below).
  • an input object eg, a user's finger, a stylus, a touch screen dedicated pen, etc.
  • touch display 130 may be integrated into a medical detection device, ie, part of a medical detection device.
  • the touch display screen may also be a separate device included in the medical detection device that can communicate with the medical detection device in a wired or wireless manner.
  • the aforementioned data processing module and control module can be integrated into the medical detection device. In other embodiments, the aforementioned data processing module and control module can be integrated into a device separate from the medical detection device that includes the aforementioned touch display.
  • the aforementioned "association operation" with the medical detection device or the medical detection data may be any control operation performed on the medical detection device itself or the medical detection data obtained by the medical detection device, for example, selecting a medical detection device. Adjusting the operating parameters of the medical detecting device, switching the working mode of the medical detecting device, selecting the current function of the medical detecting device, adjusting parameters of the medical detecting data, selecting or editing the information of the patient corresponding to the medical detecting data, establishing or selecting the corresponding medical detecting data Output reports, view, zoom in or out, edit, browse, mark, delete, and review medical test data.
  • the aforementioned "alternative object” may be any object for performing the various associated operations described above, such as various options, controls, or any other suitable object.
  • the medical testing device in the embodiment of the present invention is further explained by taking an ultrasonic detecting device as an example in conjunction with FIG. 1 .
  • the medical detection device is an example of the ultrasonic detecting device given in the following embodiments, the present invention is not limited to the ultrasonic detecting device.
  • the ultrasonic testing apparatus 300 shown in FIG. 1 generally includes a probe 301, a transmitting circuit 303, a transmit/receive selection switch 302, a receiving circuit 304, a beam combining module 305, a signal processing module 316, and an image processing module 326.
  • the transmitting circuit 303 transmits a delayed-focused transmission pulse having a certain amplitude and polarity to the probe 301 through the transmission/reception selection switch 302.
  • the probe 301 is excited by the emission pulse, and transmits ultrasonic waves to the detection object (for example, organs, tissues, blood vessels, etc. in the human body or animals, not shown), and receives the reflection from the target area after a certain delay.
  • the detection object for example, organs, tissues, blood vessels, etc. in the human body or animals, not shown
  • the receiving circuit 304 receives the electrical signals generated by the conversion of the probe 301, obtains ultrasonic echo signals, and sends the ultrasonic echo signals to the beam combining module 305.
  • the beam synthesis module 305 performs processing such as focus delay, weighting, and channel summation on the ultrasonic echo signals, and then sends the ultrasonic echo signals to the signal processing module 316 for related signal processing.
  • the ultrasonic echo signals processed by signal processing module 316 are sent to image processing module 326.
  • the image processing module 326 performs different processing on the signals according to different imaging modes required by the user, obtains ultrasonic image data of different modes, and then forms ultrasonic images of different modes through logarithmic compression, dynamic range adjustment, digital scan conversion, and the like.
  • Such as B image, C image, D image, etc. or other types of two-dimensional ultrasound images or three-dimensional ultrasound images.
  • the aforementioned data processing module and control module can be implemented in image processing module 326.
  • the foregoing data processing module and control module may also be separate modules of the ultrasonic detecting device 300 that are separated from the image processing module 326.
  • the signal processing module 316 and the image processing module 326 may be integrated on one motherboard 306, or one or more of the modules (including the number herein above) integrated in one processor/ Implemented on the controller chip.
  • the ultrasound detection device 300 can also include a gesture detection module 203.
  • the gesture detection module 203 can detect a gesture input that interacts between the input object and the touch display screen 130.
  • the gesture detection module 203 includes various operations for performing gesture input detection, such as determining whether a contact has occurred, determining whether the gesture input is continuously input, determining whether to correspond to the predetermined gesture, determining an operation position corresponding to the gesture input, determining Whether the corresponding operation position of the gesture input moves to the edge position of the corresponding display area, determines whether the gesture input has been interrupted (eg, whether the contact has stopped), determines the movement of the gesture input, and tracks the movement trajectory of the gesture input, and the like.
  • Program module determines whether a contact has occurred, determining whether the gesture input is continuously input, determining whether to correspond to the predetermined gesture, determining an operation position corresponding to the gesture input, determining Whether the corresponding operation position of the gesture input moves to the edge position of the corresponding display area, determines whether the gesture input has been interrupted (e
  • Determining the motion of the gesture input may include determining a rate of motion (amplitude), a velocity of motion (amplitude and direction), a velocity of motion (a change in amplitude and/or direction), a motion trajectory, and the like of the operational position corresponding to the gesture input. These operations can be applied to a single operational location (eg, a gesture input implemented by one finger), or multiple simultaneous operational locations (eg, "multi-touch", ie, gesture input implemented by multiple fingers).
  • the gesture detection module 203 is configured to detect motion of one or more input objects on a surface of the touch screen display or at a spatial location proximate to the touch screen display.
  • the medical detection device can also be other types of medical detection devices, such as nuclear magnetic resonance detection devices, patient monitors, CT, X-ray imaging devices, blood analyzers, biochemical analyzers, and the like.
  • the medical test data can be any type of test data from these medical test devices.
  • FIG. 2 illustrates some embodiments of a medical detection system 100 having a touch display 130.
  • One or more graphical objects may be displayed on graphical user interface 400 of touch display 130.
  • the unlock soft key 414 is displayed, and the gesture input control function of turning on or off the touch display screen 130 is realized by clicking the unlock soft key 414, and the display is different when turned on or off.
  • An icon such as by drawing an open lock in Figure 2, indicates that the touch display 130 is currently on, and drawing a closed lock indicates that the touch display 130 is currently off.
  • a hospital icon browsing area 415 can also be provided below the graphical user interface 400, touching the graphical object 418 corresponding to "Hospital 1" by one or more fingers 417, when the finger 417 touches the corresponding hospital graphic object 418
  • the magnified display graphic object 418 is displayed while the image object of the various application function modules corresponding to the hospital 1 is displayed in the upper area 416 of the area 415 of the graphical user interface 400, for example, the graphic object 413 for characterizing the patient file display module, a graphical object 401 characterizing the healthcare communication module, a graphical object 402 for characterizing the communication client module, a graphical object 403 for characterizing the video/audio player module, a graphical object 404 for characterizing the video conferencing module, for characterization a graphical object 405 of the camera module, a graphical object 406 for characterizing the picture browsing module, a graphical object 407 for characterizing the memo module, a graphical object 408 for characterizing the calendar module, a feature map module 409 for characterizing
  • the interface setting manner for example, deleting the area 415 on the graphical user interface 400 in FIG. 2, does not display a plurality of hospital graphic objects 418, and the graphical user interface 400 directly enters the image objects of various application function modules corresponding to a single hospital when the user interface 400 is opened.
  • the graphical user interface 400 directly displays an image display and/or control interface of a medical detection device when turned on. When the graphical user interface 400 is directly displayed, the image display and/or control interface of a medical detecting device may be displayed.
  • the graphical user interface 400 displays the ultrasonic image collected by the ultrasonic detecting device, and the graphical user.
  • the interface 400 displays graphical objects such as playback, ultrasound imaging parameter adjustments, etc., to implement corresponding functions or input of relevant setting parameters through gesture input.
  • the user can use one or more fingers 417, or other input device to contact the touch display screen 130, or select a graphic by gesture input at a spatial position where the touch screen display 130 is located.
  • Graphical objects for each application module given in the user interface Thereby switching to the graphical user interface of the corresponding application module, that is, by touching the graphic object of the corresponding function module to enter the graphic user interface corresponding to the next layer function directory.
  • FIG. 2 shows one of the gesture input modes, that is, using one or more fingers 401 to contact the touch display screen 130, and determining the graphical object controlled by the gesture input by determining the position of the finger 417 in contact with the surface of the touch display screen 130.
  • the contact here includes direct contact with the surface of the touch display 130, or contact with the surface of the touch display 130 that is not in direct contact.
  • gesture input made by a finger or the like in a spatial position at a certain distance from the surface of the touch screen display, and the spatial position at which the gesture input is located is mapped to a corresponding mapping position on the touch display screen, corresponding to the detected mapping position.
  • the graphical object is used to determine the graphical object controlled by the gesture input, thereby transforming the graphical user interface through gesture input control.
  • the detection of such gesture control can be combined with the optical sensor and its controller and gesture detection module to track by acquiring images or sensitizing changes.
  • an optical sensor embedded in the front surface or the edge of the touch display screen can also be used to sense the influence of the input object on the surface effect of the touch screen display at a certain spatial position, thereby determining that the gesture input by the input object corresponds to the touch display.
  • the operation position on the screen effectively realizes the movement change of the tracking gesture input.
  • the touch proximity sensor mentioned in the above embodiment can also be combined to detect the related gesture.
  • the present invention is not limited to the manner of using only the gesture input shown in FIG. 2 above, and other alternative manners may be adopted, for example, the manner in which the gesture input modes shown in FIG. 2 are combined.
  • the gesture input modes shown in FIG. 2 are combined.
  • different functions are operated by two gesture input modes, which will be described in detail below with reference to some embodiments.
  • the medical detection system 100 can also touch the side of the housing of the display screen 130 to set an actual control button such as a power switch button 421, a volume adjustment button 420, and the like.
  • an actual control button such as a power switch button 421, a volume adjustment button 420, and the like.
  • the power of the medical detection system 100 is turned on and off by pressing the pressure state time of the power switch button 421, thereby reducing the installation space of the actual button, and the button can be released by pressing the power switch button 421 before a predetermined time interval elapses. Locking the medical detection system 100, i.e., achieving the same function as the graphical object 414 of the gesture control diagram 2.
  • the doctor The therapy detection system 100 can also input some voice commands through the microphone to open some application modules, such as a voice control to enter the pathology database search function and the like.
  • the gesture input control function of the touch display screen 130 is turned on by pressing the power switch button 421 or the gesture input to control the unlock soft key 414 shown in FIG.
  • gestures can be performed on a plurality of candidate objects displayed on the touch display screen by the list item in the manner shown in FIG. 4, thereby marking the candidate in the current list item.
  • the attribute state of the object where the candidate object includes one, some, or all of the above graphical control objects.
  • the attribute information corresponding to each candidate object includes an enabled state attribute of the optional function control, a control visibility attribute, a prompt information display attribute, and the like.
  • the attribute information mentioned herein includes two optional and opposite states. For example, an enabled state property of an alternate function control, which includes: two optional states, selected or unchecked. There are many ways to mark these two optional states on the graphical user interface.
  • two optional states, selected or unselected are distinguished by adding or not adding a mark symbol such as a selection hook in the attribute mark display area 602 corresponding to the candidate object.
  • the selected state is indicated by filling a mark symbol such as black in the attribute mark display area 602 corresponding to the candidate object, and the unselected state is indicated by the reverse.
  • two selected states are selected or unselected by highlighting the selected candidate objects.
  • the color identification information such as color, contrast, background color, etc. of the corresponding graphic object is specifically displayed by a broken line in FIG. 9 to distinguish the graphic object displayed under normal conditions
  • the selected object is marked by the mark.
  • the color identification information such as the color, contrast, background color of the selected object is used to distinguish the unselected graphic objects from the selected or unselected two optional states, and the like.
  • FIG. 4 provides a method of controlling a medical detection system, the method comprising steps S610 to S630.
  • Step S610 a step for displaying a plurality of candidate object tables on the touch display screen, wherein An alternative object is used to associate with medical test data or a medical test device.
  • a list of information may be presented on the graphical user interface 600 shown in FIG. 5, and the list includes a plurality of candidate objects.
  • the form of the information list presentation can be various.
  • the graphic objects corresponding to the respective candidate objects in the information list can be presented in a tabular form.
  • the respective regions on the graphical user interface 600 are arranged row by row from top to bottom, or column by column from left to right from corresponding regions on the graphical user interface 600.
  • each candidate object in the information list is arranged in a matrix on the graphical user interface 600 according to a predetermined rule or randomly.
  • the information list in this embodiment may be a file information list including a plurality of patient files, a contact address book including a plurality of contacts, a play information list including a plurality of video and/or audio data, and a plurality of images or pictures.
  • a list of device information including a plurality of devices or devices to be remotely controlled, and the like, any information list or root directory index table in which a plurality of alternatives are recorded, and the like.
  • the candidate object may set the graphic control object correspondingly displayed on the graphical user interface according to the content recorded in the information list. For example, as shown in FIG. 5, the step S610 of displaying the plurality of candidate objects on the touch display screen includes :
  • An attribute mark display area 602 corresponding to the candidate object for marking the selectable state is displayed.
  • the attribute mark display area 602 is used to add or fill a mark symbol characterizing the selected state, and the mark symbol may be selected. Hook, check points, fill black, and more.
  • the attribute mark display area 602 may be a border of the graphic object corresponding to the candidate object, an outer edge area, a background ground area, and the like, and then pass through the shape, color, contrast, background color, etc. of the area.
  • the color identification information is used to mark that the corresponding graphic object is selected.
  • the step S610 may further include: displaying an information display area 603 corresponding to the candidate object for recording the candidate object representation information.
  • the information display area 603 may be disposed in parallel with the attribute mark display area 602 as shown in FIGS. 5 and 6, or as shown in FIG. 10, the information display area 603 may be located at any position around the attribute mark display area 602, such as an information display area. 603 is located below the attribute mark display area 602. Of course, the information display area 603 is located in the attribute mark display. In the middle of the display area 602, or the information display area 603 and the attribute mark display area 602 may be combined into one.
  • the information display area 603 and the attribute mark display area 602 may be collectively referred to as sensitive areas of the candidate object.
  • the information display area 603 can be used for:
  • Displaying one of the plurality of corresponding time records corresponding to the calendar time in the time record information list such as a name, a number, a time, a remark information, a text information, a corresponding operation information, or the like, or a combination of two or more types of information;
  • the name, the number, the brief description, the remark information, and the like of the plurality of information items in the data information list are displayed.
  • the plurality of information items may be data item information detected by the detecting device over a period of time.
  • the information display area 603 is mainly used to conveniently locate an candidate object to be selected by the user. Therefore, the information display area 603 can display an index of an alternative object in various information lists.
  • the information may be one or a combination of two or more of a name, a number, a geographical location, a time, a comment, a function description, an effect data, a picture thumbnail, and the like.
  • the graphical object that is converted into a visualized index information is displayed on the touch display. This article is not listed here.
  • the sensitive area of each candidate object may be one, or may be the information display area 603 and the attribute mark display area 602 mentioned above, and the display manner of the plurality of candidate objects on the touch display screen may be as shown in FIG. 5 and 6 is shown in a table form from top to bottom or left to right, or a sensitive area of a plurality of candidate objects as shown in FIG. 10 is randomly or matrix presented on the touch display screen.
  • step S611 may be further included before step S610 for controlling the step of detecting, by the medical detecting device, the detection object to obtain medical detection data.
  • the detection object here may be any one or more living or non-living tissue structures.
  • a step of detecting a continuous moving contact of the input object with the touch display screen is included in step S620.
  • the contact with the touch screen may be one of direct contact with the touch display screen and an action at a spatial position proximate to the touch display screen in the present embodiment, as described in detail above.
  • the contact of the input object with the touch display screen can be tracked to determine different gesture input manners, for example, detecting gestures Inputting corresponding to an operation position on the touch display screen, determining whether a contact has occurred, determining whether the contact of the gesture input is continuously input, determining whether to correspond to the predetermined gesture, determining whether the operation position corresponding to the gesture input is in motion, determining the corresponding gesture input Whether the operating position moves to the edge position of the corresponding display area, determines whether the gesture input has been interrupted (eg, whether the contact has stopped), determines the movement of the gesture input, and tracks the movement trajectory of the gesture input, etc., the technical details can be found in the relevant existing technology.
  • step S620 is one of the types of gesture inputs mentioned in the foregoing, that is, detecting continuous contact of the input object with the touch display screen.
  • a determination may be made by the following steps to determine if a continuous moving contact has been detected. As shown in FIG. 11, step S620 may include:
  • Step S621 detecting whether the input object is in contact with the touch display screen, and if yes, proceeding to the next step Broken, if not, do not operate. In the process, it is detected whether the input object is in contact with the touch display screen, and can be realized by determining whether the operation position corresponding to the touch touch screen is detected.
  • step S622 it is judged whether the contact with the touch display screen is continued and the movement has occurred, and if so, it is determined that the contact for continuous movement is detected, otherwise the operation is not performed.
  • step S622 it is determined whether the contact with the touch display screen is moved by determining whether the corresponding operation position of the gesture input is moving, and determining whether the contact with the touch display screen is continued. It can be detected from many aspects. For example, determining whether the operation position continuously changes, determining whether contact with the touch display screen has continued for a certain period of time, determining whether the motion of the operation position crosses two sensitive areas, and determining to input within a predetermined motion displacement range of the operation position. Whether the object's contact with the touch screen is always present, etc., there are many ways to judge.
  • the continuous moving contact mentioned in this embodiment can be understood as a type of long contact gesture input in which the input object contacts the touch display screen in a continuous change, for example, a sliding operation on the touch screen, or a touch Continuous sliding operation on the display for a continuous period of time.
  • a gesture input of a long contact gesture input is obtained by touching the touch display screen with one finger on the graphical user interface.
  • a long contact gesture input is obtained by simultaneously touching the touch display screen with two fingers. Or, by touching the touch display screen with three fingers at the same time, long contact gesture input and the like are obtained.
  • more than one input object such as a finger contacts the touch display screen to obtain a long contact gesture input.
  • continuous moving contact of the input object with the touch display screen may be detected within a full screen range of the touch display screen, or continuous movement of the input object and the touch display screen may also be detected within a defined area. contact.
  • the range of the detected area can improve the accuracy of the touch control, and can also realize the function distinction of the gesture input of different control functions under the same graphical user interface.
  • step S602 continuous moving contact of the input object with the touch display screen is detected in the selection area set on the touch display screen.
  • a selection area 601 parallel to the arrangement direction of the candidate objects is set on the touch display screen, and the input object and the touch display screen are detected in the selection area 601.
  • the moving contact is continued to respond to the continuous moving contact within the selection area 601 to mark the attribute information of the candidate object.
  • the selection area 601 may be parallel to the arrangement direction from the top to the bottom as shown in FIG. 6, or parallel to the arrangement direction from left to right as shown in FIG. 7, or the selection area 601 may be disposed in any direction.
  • the selection area 601 includes the attribute mark display area 602 corresponding to the plurality of candidate objects mentioned above, or the selection area 601 spans.
  • the selection area 601 includes: an attribute mark display area 602 for displaying attribute information corresponding to each candidate object in the same graphical user interface 600, and the length extension direction of the selection area 601 and the attribute mark display The arrangement direction of the regions 602 is the same.
  • At least two selection areas 601 are included on the touch display screen, and the two selection areas 601 may partially coincide.
  • the plurality of selection areas 601 may be arranged in parallel in the arrangement direction of the rows or columns.
  • two selection areas 601 are respectively disposed along the arrangement direction of the rows and columns, and the input is detected in the selection area 601 disposed along the line arrangement direction.
  • the selected plurality of candidate objects are determined according to the number of rows and the number of columns, for comparing the observed sample values or sampling pictures and the like. Or, as shown in FIG. 13, when the sensitive areas corresponding to the candidate objects are arranged in a matrix form, two selection areas 601 are respectively disposed along the arrangement direction of the rows and columns, and the input is detected in the selection area 601 disposed along the line arrangement direction.
  • the selected state is marked by means of a prominent enlarged display for implementing batch selection of the candidate objects.
  • step S602 a continuous moving contact of the input object within a predetermined pressure range applied on the touch display screen is detected. That is, when the detected contact pressure reaches a predetermined range, such as exceeding a predetermined pressure value, the detected continuous moving contact at this time will be used to respond to the gesture input marking the optional state of the plurality of candidate objects, and vice versa. Can be set to another function controlled gesture input.
  • the pressure detection in this embodiment can be perceived by touching a pressure sensor in the display screen, or the magnitude of the contact area when the finger touches the display screen, or the pressure can be sensed by setting a pressure sensor on the touch panel.
  • the size simultaneously detects continuous moving contact on the touchpad, thereby indirectly controlling the movement or selection of the cursor on the touch display, and the like.
  • the range of the predetermined pressure is set with reference to the parameter specifications of the corresponding hardware detecting device.
  • step S602 a continuous moving contact of the input object within a predetermined pressure range applied on the touch display screen is detected in the selected area set on the touch display screen.
  • the continuous moving contact detected in step S620 may be a motion along a straight line, for example, the continuous moving contact detected in step S620 may be a linear motion along a plurality of candidate object arrangement directions. Alternatively, it can be a motion along a diagonal line, or the like along any motion trajectory.
  • step S630 the attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact is marked in response to the continuous moving contact.
  • a continuous moving contact as referred to in this embodiment may refer to a predetermined or pre-defined association or correlation with the "continuous mobile contact" operation performed on the touch screen, for example, a sensitive area of an alternate object.
  • the operation position corresponding to the continuous moving contact on the touch display screen satisfies a predetermined positional relationship, or the sensitive area of the candidate object is located within a preset range or preset distance referenced to the operation position, or an alternative object
  • the sensitive area is located within the range spanned by the continually touching trajectory, or any other suitable way of association or correlation.
  • the detected continuous moving contact may be a motion implemented on the touch display screen in any direction, and the embodiment determines the selected candidate object according to the motion, thereby implementing batch marking.
  • the optional state of the candidate object compared to the prior art by one-by-one contact/release
  • the current alternative object is more flexible and the user experience is more powerful, which improves the function of the touch screen.
  • Whether the attribute information of the corresponding candidate object in the embodiment corresponds to the mark is to detect the operation position corresponding to the current time input object contacting the touch display screen during the movement of the continuous moving contact, and to use the operation position and the standby position Select the positional relationship of the object to judge. See the description below for details.
  • the marking process of the attribute information corresponding to the plurality of candidate objects includes the following steps:
  • step S630 the current optional state flag of the attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact is responded to the continuous moving contact. Is an optional state that is the opposite of the currently selectable state.
  • distinguishing marks for the opposite states of the attribute information can also be implemented by the following embodiments.
  • step S630 performing one of the following steps:
  • an optional state opposite the one of the selectable states corresponding to the attribute information of the plurality of candidate objects associated with the continuous moving contact is marked.
  • the input object 417 in the upper left diagram inputs a continuous moving contact on the touch display screen in the first movement direction X, according to continuous movement. Touching the motion in the first moving direction X, marking the selectable state corresponding to the attribute information of the plurality of candidate objects to display the mark symbol characterizing the selected state, and displaying the box filled with black in the attribute mark display area 602 in FIG. Indicates that the corresponding candidate object is selected.
  • the corresponding candidate object is selected by means of marking a selection hook, marking a dot, and the like. in.
  • the input object 417 inputs a continuously moving contact on the touch display screen in the second moving direction Y, and according to the movement of the continuous moving contact in the second moving direction Y, the attribute information of the plurality of candidate objects is marked.
  • the selectable state is to display a mark symbol characterizing the unselected state, and a box showing no fill black in the attribute mark display area 602 in FIG. 14 indicates that the corresponding candidate object is not selected.
  • the optional state of the corresponding candidate object can be distinguished by marking or not marking the selection hook, marking the dot, and the like.
  • the candidate objects corresponding to the sensitive area spanned by the motion trajectory are selected, and the selected state is indicated by the highlighted enlarged display in the figure, and
  • the motion track when the operation is unchecked may be the reverse of the original motion track, or may be the cancellation path prompted to the user before confirming the batch selection.
  • the first moving direction and the second moving direction may be a fixed direction, or may be a combination of a plurality of variable directions, such as a tangential direction of a moving track.
  • the motion of the continuous moving contact in the first moving direction or the second moving direction may be a linear motion in a fixed direction, or a curved trajectory movement in a variable direction, or a diagonal motion in a fixed direction.
  • the motion trajectory of the above-mentioned continuous moving contact in the first moving direction and the second moving direction may be uniform or inconsistent.
  • the first moving direction and the second moving direction may be opposite directions. Therefore, as shown in FIG. 14 and FIG. 15 , only the adjustment of the motion track of the continuous moving contact, such as the direction adjustment, can realize the switching of the selected and the unselected under the same gesture input, which is convenient to use and enhance the user experience. It is also possible to increase the function of gesture input by adjusting the direction of the motion track.
  • step S630 in response to an odd number of consecutive moving contacts, an optional state of the attribute information is marked, and the attribute information corresponding to the one is marked in response to an even number of consecutive moving contacts.
  • An optional state with an opposite state of the optional state As shown in FIG. 14, the input object 417 in the upper left diagram inputs a continuous moving contact on the touch display screen in the first moving direction X, and marks the plurality of preparations according to the first input of the continuous moving contact in the first moving direction X.
  • the optional state corresponding to the attribute information of the selected object to display the marked symbol characterizing the selected state, or the mark and the current optional The attribute information of the opposite state (ie, the attribute information is inverted); and when the input object 417 inputs the same continuous moving contact of the second track in the first moving direction X on the touch display screen, the multiple candidate objects are marked.
  • the attribute information corresponds to an optional state to display a tag symbol that characterizes an unselected state, or to perform a negation flag.
  • the motion trajectory of the contact is continuously monitored, and it is determined whether the motion trajectory of the continuous moving contact deviates from the initial motion trajectory, and if so, the motion marker attribute information deviating from the motion trajectory corresponds to an optional state opposite to a state, Otherwise, an optional state of the attribute information is marked.
  • the initial motion trajectory herein refers to a trajectory of motion predicted based on the initial motion direction and the moving speed of the contact motion for a period of time from the start of detecting the continuous moving contact.
  • the initial motion trajectory that is, the motion trajectory along the initial moving direction
  • the motion of the continuous moving contact described above may be a tangential direction deviating from the initial trajectory, an expected trajectory deviating from the initial trajectory, or the like.
  • an optional state of the attribute information is marked when the continuous moving contact is outside the selected area set on the touch display screen. And marking an optional state corresponding to the one optional state corresponding to the attribute information.
  • the input object 417 in the upper left diagram inputs a continuous moving contact in the first moving direction X in the selection area 601 on the touch display screen, and marks the optional state corresponding to the attribute information of the plurality of candidate objects.
  • Marking the marked symbol characterizing the selected state or the attribute information inversion flag when detecting that the continuous moving contact of the input object 417 on the touch display screen is outside the selected area 601, marking the attribute information of the plurality of candidate objects Corresponding optional states to display tag symbols that characterize unselected states, or to perform negation tags.
  • step S630 the marked candidate objects are included and The candidate object associated with the operation position corresponding to the touch object when the input object touches the touch display screen, wherein the associated candidate object includes at least one of the following conditions:
  • the first sensitive area is located in a preset range or a preset distance within a preset distance referenced by the above operating position.
  • Each candidate object is provided with a corresponding sensitive area on the graphical user interface on the touch display screen for displaying relevant index information of each candidate object or a corresponding graphic object of the marker symbol input box on the graphical user interface. Then, according to the positional relationship between the sensitive area and the operation position corresponding to the touch display screen, it is determined whether the candidate object corresponding to the sensitive area is selected.
  • the sensitive area is an alternate object located near the above operational location. In the vicinity, it can be understood that the corresponding operation position when contacting the touch display screen is located within the sensitive area, or partially overlaps with the sensitive area, or the operating position is located at the edge position of the sensitive area.
  • a rectangular coordinate system is established for the length and width of the touch display screen for the Y and X axes, respectively, and each pixel displayed on the graphical user interface 600 can be represented by a rectangular coordinate.
  • the sensitive area 604 can be determined as a pixel point area, and the corresponding operation position 605 when contacting the touch display screen can also use one coordinate position in the Cartesian coordinate system or a coordinate position block (ie, including multiple adjacent coordinate positions). To represent.
  • the operating position 605 corresponding to the contact of the finger with the touch screen, and the sensitive area 604 located near the operating position 605 may include: the coordinate position corresponding to the operating position 605 or the coordinate position block is located in the sensitive area 604.
  • the coordinate position corresponding to the operation position 605 is located at the edge position of the pixel area corresponding to the sensitive area 604, or the coordinate position block corresponding to the operation position 605 partially overlaps the pixel area corresponding to the sensitive area 604.
  • the portion of the sensitive area 604 is located in an alternate object within a predetermined range of positions centered on the operational position described above.
  • the portion of the pixel area corresponding to the sensitive area 604 is located within a preset position range centered on the above-mentioned operation position 605, and the preset range here may be set to a range of 10 pixels with the radius of the operation position 605 as the center. .
  • the sensitive area 604 is an alternate object within a predetermined distance from the above-described operating position.
  • the preset distance can be set to 10 pixels or 5 pixels, and so on.
  • the distance between the sensitive area 604 and the above-mentioned operating position may be calculated from the edge of the sensitive area 604 to the operating position 605.
  • the candidate object is an candidate object associated with the operation position corresponding to the touch touch screen display. Need to be marked. As shown in FIG. 16(b), when the operation position 605 sequentially passes through the positions 605a, 605b, 605c, 605d, the candidate object 1 mark is selected, the candidate object 2 mark is selected, and the candidate object 3 mark is not selected. The optional object 3 tag is selected.
  • the ratio in this embodiment may be 50%.
  • the sensitive area of the candidate object may be an attribute mark display area 602 for displaying an optional object selectable state mark symbol, and when the operation position 605 sequentially passes through the position 605a, 605b, 605c, In 605d, the candidate object 1 tag is selected, the candidate object 2 tag is selected, the candidate object 3 tag is not selected, and the candidate object 3 tag is selected.
  • the center of the sensitive area of the candidate object coincides with the center of the coordinate area in which the operating position is located.
  • the sensitive area center of the candidate object includes a center point, a center line, a center spot, and the like.
  • the center of the sensitive area of the candidate object may be the center line along the X direction, and the center line along the X direction when it is in the coordinate area with the operation position (605a, 605b, 605c, 605d).
  • the optional state of the candidate object is marked. As shown in FIG.
  • the sensitive area of the above candidate object may be the attribute mark display area 602 for displaying the candidate object selectable state mark symbol, then when the center point or the center spot of the attribute mark display area 602 coincides When the center point or the center spot of the coordinate area in which the operation position (605a, 605b, 605c, 605d) is located, the optional state of the candidate object is marked.
  • the candidate object corresponding to the sensitive area spanned by the motion track of the continuous contact of the input screen may be: an alternative object corresponding to the partially sensitive area spanned, or all pairs of sensitive areas spanned Alternative object should be.
  • the sensitive area herein may be an attribute mark display area 602 for displaying an alternative object selectable state mark symbol, or an information display area 603 for displaying alternate object index information.
  • the upper figure is a method of performing an alternate object mark after continuously moving contact along the first track, and when the mark is selected, it is highlighted and enlarged.
  • the figure below is the way to uncheck the reverse trajectory along the first trajectory.
  • the unmark When the unmark is selected, it does not highlight the enlarged display and returns to the original state.
  • the candidate object corresponding to the graphic object is selected and corresponding Perform a tag operation.
  • the marking of the selectable states of the plurality of candidate objects may be completed according to the motion trajectory or direction of the continuous moving contact.
  • the attribute information corresponding to the plurality of candidate objects is continuously marked in sequence along the moving direction of the continuous moving contact.
  • the moving direction of the moving contact obtains the selected candidate objects corresponding to the operation positions of the plurality of times at a time, and then sequentially marks the attribute information of the plurality of candidate objects in chronological order.
  • the information list is displayed on the touch display screen in the form of a table, and the contact between the input object and the touch display screen is continuously moved along the arrangement direction of the candidate object, and the candidate objects in the information list are continuously marked in sequence along the moving direction of the continuous moving contact. 1 to the candidate object 7
  • the attribute information of the plurality of candidate objects is selected, and the mark symbol characterizing the selected state is displayed.
  • the information list displayed in the form of a table is provided in FIG. 17, the manner of sequentially marking is also applicable to the information list displayed in the above non-table form, such as an alternate object arranged in a random manner.
  • the attribute information of the plurality of candidate objects may be continuously marked in order to display the motion of the continuous moving contact in the first moving direction (for example, the X direction in FIG. 17). Characterizing the selected symbol of the selected state; then, when deselected, referring to FIG. 17, the motion of the continuous moving contact in the second moving direction (for example, the reverse direction of the X direction in FIG. 17) is successively marked in sequence.
  • the attribute information of the candidate object is used to display the mark symbol characterizing the unselected state, that is, the mark symbol characterizing the selected state is cancelled.
  • the corresponding candidate objects are sequentially selected one by one to perform marking in the selected or unselected state.
  • attribute information corresponding to all candidate objects spanned by the motion trajectory of the continuous moving contact is simultaneously marked.
  • this embodiment by detecting a continuous moving contact of the input object with the touch display screen, and tracking the continuous operation position corresponding to the continuous moving contact for each period of time, determining that the selected candidate object is contacted every time period, thereby The motion track of the continuous moving contact obtains the selected candidate object corresponding to the continuous operation position for a period of time, and then simultaneously marks the attribute information of the selected candidate object corresponding to the continuous operation position.
  • the selectable states of all candidate objects spanned by the motion trajectory for each successive moving contact are simultaneously marked.
  • the input object 417 continuously moves from the sensitive area of the candidate object 1 to the sensitive area of the candidate object 4 it means that the candidate object 1 to the candidate object 4 are simultaneously selected, and the candidate object is simultaneously selected. 1 to the candidate object 4 is marked to simultaneously display the marker symbol characterizing the selected state.
  • the input object 417 continuously moves from the sensitive area of the candidate object 5 to the sensitive area of the candidate object 7 it means that the candidate object 5 to the candidate object 7 are simultaneously selected, and at the same time, the candidate object is selected. 5 to the candidate object 7 is marked to simultaneously display the marker symbol characterizing the selected state.
  • FIG. 18 it may be a motion of the continuous moving contact in the first moving direction (for example, the X direction in FIG. 17) while marking the attributes of all the candidate objects spanned by the motion trajectory of the above-described continuous moving contact.
  • Information to display a mark symbol characterizing the selected state may also be made to FIG. 18 to continuously move the contact in the second moving direction (for example, the reverse direction of the X direction in FIG. 17) while marking
  • the attribute information of all candidate objects spanned by the motion trajectory of the above continuous moving contact to display the mark symbol representing the unselected state, ie cancel Displays the marker symbol that characterizes the selected state.
  • the selected multiple candidate objects may be marked in the selected or unselected state at the same time.
  • the corresponding attribute information of the plurality of candidate objects spanned by the motion track of the continuous moving contact may be skipped according to the change of the motion track of the continuous moving contact.
  • the attribute information of the plurality of candidate objects is continuously marked sequentially along the moving direction of the initial trajectory of the continuous moving contact, or the attributes of all the candidate objects spanned by the initial trajectory are simultaneously marked.
  • Information when the motion of the continuous moving contact deviates from the initial trajectory, the continuation of the moving contact after the deviation from the initial trajectory, the marking operation is performed not in response to the movement of the contact; and when the motion of the continuous moving contact returns to the initial trajectory, the response
  • the above continuous moving contact after returning to the above initial trajectory marks attribute information of a plurality of candidate objects.
  • the movement of the continuous moving contact from the initial trajectory may be a tangential direction deviating from the initial trajectory, an expected trajectory deviating from the initial trajectory, etc., for example, as shown in FIG. 19, the dotted arrow indicates continuous contact of the input object with the touch display screen.
  • the direction of motion, its initial motion trajectory may be a straight line along the direction in which the candidate objects are arranged, and a plurality of candidate objects are successively marked in sequence along the moving direction of the linear trajectory of the above continuous moving contact (alternative object 1 to Attribute information of the candidate object 4), or an optional state of all candidate objects (alternative object 1 to candidate object 4) spanned by the above-mentioned straight trajectory; when the above continuous moving contact deviates from the above straight line In the case of the trajectory, that is, the continuous moving contact deviates from the linear trajectory or the continuous moving contact deviates from the tangential direction of the linear trajectory, and the continuous moving contact after the deviation from the linear trajectory is not marked, and the continuous moving contact with the mark does not correspond to Touching the candidate object associated with the operating position of the display (alternative object) Attribute information of item 6 to candidate object 7); conversely, when the above-mentioned continuous moving contact returns to the above-mentioned linear trajectory, in response to the above-
  • the method may further be implemented by other means, for example, as shown in FIG. 20 Show.
  • the method further includes: marking the attribute information of the candidate object when the continuous moving contact is no longer detected on the touch display screen until the continuous moving contact with the last moment is corresponding to the marking Touch the last candidate object associated with the operating position on the display. Specifically, the real-time monitoring whether the contact of the input object with the touch display screen is released, and if so, the continuous moving contact is no longer detected on the touch display screen, and then the end of the gesture input is ended, that is, the continuous moving contact ends. The marker then stops the optional state of the candidate object associated with the corresponding operational position of the continuous movement contact associated with the last moment before the end of the continuous moving contact.
  • a list of information including a plurality of candidate objects is displayed on the touch display screen and the information is displayed on the graphical user interface 600 of the touch display screen, as described above.
  • Part of the list, the rest of which is not displayed on the same graphical user interface 600, can be implemented in the following manner in order to be able to mark alternative objects in the rest of the displayed information list.
  • the method in this embodiment further includes:
  • the edge display position 702 in this embodiment refers to an edge position of a display area in which part or all of the information list is displayed on the graphic user interface 600.
  • the edge position may refer to the graphical user interface 600.
  • the sensitive area corresponding to the first candidate object (such as the sensitive area corresponding to the candidate object 9 in FIG. 21).
  • the first direction here may be a direction along the alternate object, for example, may be the pointing direction of the black short arrow 703 in FIG. 21, or may be the direction perpendicular to the pointing direction of the black short arrow 703 in FIG. (such as horizontal to the left or right), or can also be the horizontal or vertical of the graphical object in Figure 7, Figure 9, and Figure 13. Straight the direction.
  • the display information list displayed on the touch display screen is moved in the first direction, the display information list is moved each time to display the information list. For the rest, multiple alternative objects are displayed.
  • the display information list is paused for each time in the first direction. a time period, for example 1-2 seconds, while only the candidate object is displayed for a predetermined time, without marking, until the predetermined time period arrives, and then responding to continuous contact with the touch screen display, marking the rest of the information list.
  • a plurality of candidate objects that are subsequently displayed may be sequentially marked, simultaneously marked, or marked according to the trajectory change according to the manner described above with reference to the previous input. For details, refer to the related descriptions shown in FIG. 12 to FIG.
  • a plurality of consecutive candidate objects may be marked in a manner of one gesture input, or a plurality of candidate objects displayed in a scrolling manner may be continuously marked.
  • a partition setting manner may also be adopted. To capture the response commands corresponding to the gesture input by collecting gesture inputs from different regions.
  • the area is one of the selection area 601 and the other is the scroll area 704.
  • the selection area is not repeatedly explained herein with reference to the previous description, and the scroll area 704 may be a display area parallel to the selection area 601, which may be used to display a list of information.
  • the display area is a display area other than the selection area 601, or may be part or all of the information display area 603 including the information for describing the candidate object.
  • a first portion of the information list displayed on the touch display screen is located in the scroll area 704 on the touch display screen, detecting movement of the input object in contact with the touch display screen 417b, in response to the movement of the contact 417b, in the second direction (Fig.
  • the black arrow 703 in 22 moves up the display information list displayed on the touch display screen to display the rest of the information list except the first portion.
  • the second direction in this embodiment may be the moving direction of the contact 417b.
  • the movement of the contact 417b in the step of detecting the movement of the contact 417b on the touch display screen, the movement of the contact 417b may be detected in the rolling area on the touch display screen in accordance with the moving direction of the contact 417b.
  • the display information list displayed on the touch display screen is moved in the second direction (black arrow 703 in FIG. 22) to display the rest of the information list except the first portion.
  • the alternate object is arranged in the same direction as the first direction described above.
  • the step of moving the display information list displayed on the touch display screen in the second direction to display the remaining portion of the information list other than the first portion in the step of displaying the information list Touching the movement in the second direction on the display screen to display the candidate objects in the rest of the information list one by one, that is, each time the display information list is moved to display the rest of the information list, the candidate objects are displayed one by one;
  • the list of information displayed on the touch display screen is scrolled in the second direction to display the second portion of the list of information, and the second portion is different from the first portion.
  • the scroll display means that the information list continuously shifts the information list at a certain speed, and at this time, the scroll display is stopped until the gesture input for stopping the scroll display is detected.
  • the scroll bar may be set in the scroll area. The input object touches and drags the scroll bar to achieve page turning of the information list.
  • each candidate object 800 is classified according to the attribute operation type.
  • the enable state function control area 801 of the candidate object 800 is included in FIG. 3, which may be located in the selection area 601.
  • the enable state function control area 801 in FIG. 3 can also be understood as an attribute mark displayed on the touch display screen. Display area.
  • FIG. 22 it provides a two-partition on the touch display screen, one is a selection area 601, and the other is a scroll area 704, respectively providing gesture input of two areas to simultaneously implement multiple candidate objects. Purpose Batch selection and page turning of information lists.
  • FIG. 23 a method for controlling a medical detection system is provided, comprising: steps S710 to S750.
  • a first portion of the list of information containing a plurality of candidate objects is displayed on the touch display.
  • a list of information including a plurality of candidate objects is displayed on the touch display screen.
  • the information list is not fully displayed in the same graphical user interface 600, but needs to be displayed in a page, then it is necessary to display other parts of the information list by turning pages or scrolling or panning.
  • the above information list is displayed in a tabular form on the touch display screen as shown in FIGS. 5 to 9.
  • a plurality of candidate objects in the information list are randomly arranged on the graphical user interface, as shown in FIG.
  • step S720 contact of the input object with the touch display screen is detected.
  • the specific detection input object is in contact with the touch display screen.
  • the related hardware and software modules are used to track the contact state of the input object with the touch display screen, thereby determining the type of gesture input of the input object on the touch display screen.
  • the contact includes at least one of direct contact with the touch display screen and an action at a spatial location proximate to the touch display screen.
  • the above-mentioned detected contact may be any of the gesture inputs mentioned in the foregoing.
  • step S730 the operational position of the above contact on the touch display screen is determined.
  • the input object has a corresponding operation position on the touch display screen, and the continuous movement contact corresponds to a sequence of operation positions that change with time.
  • the operation position refer to the above discussion about constructing a Cartesian coordinate system using the touch display screen to determine the input. The method of positioning the object contact position.
  • step S740 when the above-mentioned operating position is located in the selected area on the touch display screen, a plurality of items associated with the continuous moving contact in the first portion of the marked information list in response to the continuous moving contact of the input object within the selected area Select the attribute information corresponding to the object.
  • the movement of the contact in this embodiment is the continuous movement of the contact while maintaining the continuous input of the contact on the touch display screen, that is, the contact is a continuous moving contact.
  • the selection area includes: an attribute mark display area for displaying an optional object selectable state mark symbol corresponding to each candidate object in the same graphical user interface, and a length extension direction of the selected area and an attribute mark display area
  • an attribute mark display area for displaying an optional object selectable state mark symbol corresponding to each candidate object in the same graphical user interface
  • a length extension direction of the selected area and an attribute mark display area The arrangement is the same.
  • the selection area please refer to the relevant explanations in the previous section, which are not exhaustive.
  • detecting a motion of the input object in contact with the touch display screen detecting a motion of the contact of the input object on the touch display screen that satisfies a predetermined pressure condition; and, when the operation is When the position is within the selected area on the touch display screen, an optional state of the plurality of candidate objects is marked in response to the movement of the contact in the selected area that satisfies the predetermined pressure condition.
  • step S630 how to mark the attribute information corresponding to the plurality of candidate objects according to the continuous moving contact in the selection area, refer to the detailed description of step S630 in the foregoing, and may be combined with FIG. 14 and FIG. 15 and FIG. (c), the relevant characters in Fig. 18, Fig. 20, and Fig. 22 are explained.
  • step S750 when the operation position is located in the scroll area on the touch display screen, the display information list displayed on the touch display screen is moved in response to the movement of the contact of the input object in the scroll area to display the At least a portion of the remainder of the list of information except the first portion.
  • the step of moving the display information list displayed on the touch display screen in the second direction to display the remaining portion of the information list other than the first portion in the step of displaying the information list Touching the movement in the second direction on the display screen to display the candidate objects in the rest of the information list one by one; that is, each time the display information list is moved to display the rest of the information list, the candidate objects are displayed one by one;
  • the list of information displayed on the touch display screen is scrolled in the second direction to display the second portion of the list of information, and the second portion is different from the first portion.
  • the scroll display means that the information list continuously shifts the information list at a certain speed, and at this time, the scroll display is stopped until the gesture input for stopping the scroll display is detected.
  • the scroll bar may be set in the scroll area. The input object touches and drags the scroll bar to achieve page turning of the information list.
  • the scroll area 704 may be a display area parallel to the selection area 601, which may be used to display information.
  • the display area of the list may be a display area other than the selection area 601, or may be part or all of the information display area 603 including the information for describing the candidate object.
  • a first portion of the information list displayed on the touch display screen is located in the scroll area 704 on the touch display screen, detecting movement of the input object in contact with the touch display screen 417b, in response to the movement of the contact 417b, in the second direction (Fig.
  • the black arrow 703 in 22 moves up the display information list displayed on the touch display screen to display the rest of the information list except the first portion, thereby performing page display and scrolling of the information list based on the contact detection of the scroll area 704. Display or page turning, etc.
  • a continuous moving contact 417a of the input object and the touch display screen is detected in the selection area 601 for identifying an instruction for performing batch selection of a plurality of candidate object objects, and displaying the selected or unselected symbol symbols corresponding to the plurality of candidate objects in response to the instruction .
  • a selection area and a scroll area are respectively set on the touch display screen.
  • the user slides in the selection area the corresponding candidate object is selected, and the list does not scroll; while in the scroll area, the list scrolls and the corresponding candidate object is not selected.
  • the user's operation is very convenient and greatly improves the user experience.
  • step S711 may be further included to control the medical detecting device to detect the detected object to obtain the medical detection data.
  • the detection object here may be any one or more living or non-living tissue structures.
  • the shape, size, and position of the selection area 601 and the scroll area 704 can be flexibly set according to actual conditions (for example, the position, length, width of the list, the overall layout of each element displayed on the touch screen, etc.).
  • actual conditions for example, the position, length, width of the list, the overall layout of each element displayed on the touch screen, etc.
  • the specific details of the method steps in FIG. 23 can also be referred to the related descriptions in the foregoing, and will not be repeated here.
  • an embodiment of the present invention further provides a medical detection system, including:
  • step S611 to step S630 The above-mentioned medical detection system is used to perform step S611 to step S630 in FIG. 4, and therefore each of the modules is specifically included to perform step S611, step S610, and step S620, respectively, according to the detailed description of steps S611 to S630 in the foregoing. And the module or unit of the subdivision step or the refinement step in each specific embodiment in step S630.
  • the front is placed in “for”, and the "module or unit” is placed at the end of the step for obtaining the subdivision structure of each module of the medical detection system in this embodiment.
  • a medical detection system comprising:
  • the above control system for an electronic device with a touch display screen is used to perform steps S711 to S750 in FIG. 23, and thus each of the modules is specifically included for use according to the detailed description of steps S711 to S750 in the foregoing.
  • the modules or units of the subdivision step or the refinement step in the specific embodiments in step S711 to step S750 are respectively performed.
  • the step is preceded by "for" and placed at the end of the step "module or unit” for obtaining the subdivision structure of the various modules of the control system for the electronic device with touch display in this embodiment.
  • the technical solution of the present invention which is essential or contributes to the prior art, may be embodied in the form of a software product carried on a non-transitory computer readable storage carrier (eg ROM, disk, optical disk, server cloud space, including a number of instructions for causing a terminal device (which may be a mobile phone, a computer, a server, or a network device, etc.) to execute the system structure and method of various embodiments of the present invention.
  • a non-transitory computer readable storage carrier eg ROM, disk, optical disk, server cloud space, including a number of instructions for causing a terminal device (which may be a mobile phone, a computer, a server, or a network device, etc.) to execute the system structure and method of various embodiments of the present invention.
  • the present invention provides a use based on the above method and system.
  • a touch display such as a medical detection system
  • memory 160 stores one or more software programs, modules, and data structures similar to programs, modules, and data structures or subsets thereof.
  • the one or more processors respectively implement the method illustrated in FIG. 4 or FIG. 23 by calling a program, module, and data structure of the memory 160, modules, and data structures, or a subset thereof, for display on the touch display 130.
  • the information list displays the attribute information of the candidate object.
  • the memory 160 may also store programs, modules, and data structures or subsets thereof that are not embodied or labeled in FIG. 1 or in FIG. 4, FIG.
  • Each of the units or modules used to perform the various steps in FIG. 4 may be stored in one or more of the aforementioned memories, while the above embodiments are used to implement the touch display of FIG. 4 or FIG. 23, respectively.
  • the module or the program ie, the instruction set
  • the various sub-blocks of these modules may be combined or rearranged in various embodiments, and thus, in some embodiments of the invention, memory 160 may store a subset of modules or data structures as described above.
  • the processor may be configured to call an instruction stored in the memory, and execute displaying a plurality of candidate objects on the touch display screen, detecting continuous moving contact of the input object with the touch display screen, and responding
  • the continuously moving contact marks a step of attribute information corresponding to a plurality of candidate objects associated with the continuous moving contact, wherein the attribute information includes two selectable and opposite states.
  • the processor may be configured to invoke an instruction stored in the memory and execute a first portion of displaying a list of information including a plurality of candidate objects on the touch display screen, detecting the input object and the touch display screen Contacting, determining that the contact corresponds to an operating position on the touch display screen, and when the operating position is within the selected area on the touch display screen, marking the list of information in response to the continuous moving contact of the input object within the selected area Part of the continuous moving contact Attribute information corresponding to the plurality of candidate objects; when the operation position is located in the scroll area on the touch display screen, moving the display information list displayed on the touch display screen in response to the movement of the contact of the input object in the scroll area To display at least a portion of the remainder of the list of information other than the first portion.
  • the processor may be configured to invoke an instruction stored in the memory and execute a first portion of displaying a list of information including a plurality of candidate objects on the touch display screen, detecting the input object and the touch display screen Contacting, determining that the contact correspond
  • the embodiment of the present invention further provides a medical detection system with a touch display screen.
  • the medical detection device includes: an ultrasonic detection device that transmits ultrasonic waves to the detection object through a probe, Ultrasound echoes are received and ultrasound image data is obtained as medical test data.
  • the ultrasonic detecting device (see the foregoing detailed description) and the electronic device with a touch display screen (such as a medical detecting system) as described above, the ultrasonic detecting device 300 communicates with the electronic device via a wireless or wired signal.
  • the medical detection system can include a memory 160, a touch display screen 130, and a medical detection device, and the medical detection device can be used to acquire medical detection data, such as the ultrasonic detection device of FIG.
  • the ultrasonic image data can be obtained as the medical detection data after the ultrasonic wave is transmitted to the detection object by the probe.
  • the medical detection system may further include: a data processing module and a control module.
  • the data processing module is configured to process the medical detection data, and generate a plurality of candidate objects that are associated with the medical detection data. For example, the data processing module in FIG.
  • the ultrasonic medical test data mentioned above includes medical detection data for recording the ultrasonic detection result, which may be ultrasonic image data, parameter detection data obtained according to ultrasonic image detection (for example, size and position of a tissue such as a long diameter of a skull), Medical test data such as configuration parameters for ultrasound imaging that can be accessed or input by the user according to the requirements of access, editing, and modification.
  • the index table can be easily viewed or accessed by the user, and the index table can be established according to the patient.
  • the name, number, organization name, date, etc. by displaying the index table on the touch display screen, can select the candidate object displayed therein to enter the relevant ultrasonic medical detection data display interface, and the index table can be regarded as a primary directory list. For example, if the information list records a list of patient names, numbers, etc., then one or more patient names, numbers, etc. (each name, number, etc. corresponding to an alternate object) can be entered to enter the corresponding ultrasound medical test data reading interface. A comparison of ultrasound medical test data under, or multiple patients, is displayed under the interface.
  • the index information of the information list directly displays the relevant content of the ultrasound medical detection data so that the user can directly locate the relevant ultrasound medical detection data for which he wants to know the details.
  • the processing of the ultrasound image data mentioned in this embodiment is intended to store an ultrasound image and establish index information for retrieval or searching.
  • a control module for displaying the plurality of candidate objects on a touch display screen, detecting continuous moving contact of the input object with the touch display screen, and marking a plurality of alternatives associated with the continuous moving contact in response to the continuous moving contact
  • the attribute information corresponding to the object The control module combines the software module or hardware structure of the gesture detection module, the touch display screen and its controller provided in FIG. 1 to implement its corresponding functions.
  • the control module in this embodiment can be used to implement the control method described in FIG. 4.
  • the foregoing multiple devices may be implemented by multiple processors or a single processor, and the invention may be implemented based on the system architecture of the software layer based on the related hardware layer architecture in combination with the foregoing explanation about FIG. 1 .
  • the purpose of batch selection of multiple candidate objects is achieved by a single gesture input.
  • the data processing module is configured to process the medical detection data, and generate a list of information including a plurality of candidate objects associated with the medical detection data.
  • a control module configured to display a first portion of the information list including the plurality of candidate objects on the touch display screen, detect contact of the input object with the touch display screen, and determine that the contact corresponds to an operation position on the touch display screen
  • the first part of the marked information list is continuously moved
  • Contacting attribute information corresponding to the plurality of candidate objects
  • the operation position is within the scroll area on the touch display screen, moving the display information displayed on the touch display screen in response to the movement of the contact of the input object in the scroll area
  • the list displays at least a portion of the remainder of the list of information except the first portion.
  • the control module combines the software module or hardware structure of the gesture detection module, the touch display screen and its controller provided in FIG. 1 to implement its corresponding functions.
  • the control module in this embodiment can be used to implement the control method described in FIG. 23.
  • the foregoing multiple systems may be implemented by multiple processors or a single processor, and the invention may be implemented based on the system architecture of the software layer based on the relevant hardware layer architecture in combination with the foregoing explanation of FIG.
  • the purpose of batch selection of multiple candidate objects is achieved by a single gesture input.
  • the foregoing control module and the data processing module in the foregoing embodiments may be separately configured or may be uniformly configured.
  • the processing may be performed based on one or more processing of the processor boards on different independent devices.
  • the data processing module can be implemented by a motherboard, and the control module can be implemented by another motherboard. As another example, it can be done based on one or more processors provided on the same motherboard, respectively.
  • the touch display screen of Figure 1 can be combined with a medical detection device or can be provided separately from the medical detection device. On the independent medical detection device with a touch display screen, the main board 110 and the main board 306 in FIG. 1 can be integrated to obtain a processor integrated with multiple functions, and the data processing module and the control module can be used by the processor. to realise.
  • control module and the data processing module may be implemented based on the processor 110 in FIG. 1, and the corresponding program module, instruction set, and the like are obtained by a computer program and stored in the memory. It will not be described in detail herein, and may be combined with the detailed description in FIG. 1 above.
  • the information list in each of the foregoing embodiments may be an index table, but is not limited to only an index table, and may also be a list of information stored in other formats. And the number of rows and columns of the above index table can be freely defined according to actual conditions, such as one row or one column, or multiple rows and columns, and the like.
  • the technology of the present invention relates to an electronic device with a touch display screen, and more particularly to an ultrasonic detecting device with a touch display screen, and more particularly to realizing a list candidate object selection function on a touch display screen.
  • the prior art further relates to the implementation of a batch selection function for ultrasonic medical test data on an ultrasonic testing device with a touch display.

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Abstract

A medical detection system and a control method therefor. The method comprises: a step of displaying, on a touch display screen (130), an information list including a plurality of alternative objects (800) (S610); a step of detecting a continuous moving contact between an input object (417) and the touch display screen (130) (S620); and a step of marking, in response to the continuous moving contact, attribute information about the plurality of alternative objects (800) (S630). By means of touch control on the touch display screen (130), a user can conveniently and quickly perform batch selection on the plurality of alternative objects (800), thereby enhancing the convenience of a user operation and improving the user experience.

Description

一种医疗检测系统及其控制方法Medical detection system and control method thereof 技术领域Technical field
本发明涉及带有触摸显示屏的医疗检测系统及其控制方法。The present invention relates to a medical detection system with a touch display screen and a control method therefor.
背景技术Background technique
在医疗检测系统(例如,超声成像系统)中,在许多情况下需要对列表中列出的备选项目进行多选。例如,在编辑病人信息时,或者在选择成像参数时,等等。In medical detection systems (eg, ultrasound imaging systems), in many cases multiple selections of the items listed in the list are required. For example, when editing patient information, or when selecting imaging parameters, and so on.
现有技术中,通常用轨迹球、鼠标等输入设备依次点选期望选择的备选项目进行多选。但是,当需要选择的备选项目较多时,依次手动点选比较繁琐,工作量较大。而且,当备选项目列表中的备选项目较多时,在显示屏上当前视图中将无法一次全部显示出。此时,无法在一个视图中将所有期望的备选项目全部选择完,因此需要使显示的列表滚动将其余的备选项目显示出来供用户选择。此时,用户的选择操作更加繁琐。In the prior art, an input device that is desired to be selected is sequentially selected by an input device such as a trackball or a mouse to perform multiple selection. However, when there are many alternative items to be selected, it is cumbersome to manually click and the workload is large. Moreover, when there are more alternative items in the list of alternative items, they will not be displayed all at once in the current view on the display. At this point, all of the desired alternatives cannot be selected in one view, so the displayed list needs to be scrolled to display the remaining alternatives for the user to select. At this point, the user's selection operation is more cumbersome.
特别是,当全部用触摸屏对超声成像系统进行操控时,通常用滑动操作使列表滚动。此时,用户只能手动一个一个地点选期望选择的备选项目。这样,用户操作非常繁琐,工作量大,非常不方便,用户体验差。In particular, when the ultrasound imaging system is fully manipulated with a touch screen, the scrolling operation is typically used to scroll the list. At this time, the user can only select the candidate items that are desired to be selected one by one. In this way, the user operation is very cumbersome, the workload is large, very inconvenient, and the user experience is poor.
基于此现有技术中存在的问题,有待进一步地提高。Based on the problems existing in this prior art, further improvement is required.
发明内容Summary of the invention
基于此,有必要针对现有技术中存在的操作不便问题,提供一种用于带有触摸显示屏的电子设备的控制方法和系统及设备。Based on this, it is necessary to provide a control method and system and apparatus for an electronic device with a touch display screen in view of the problem of inconvenience existing in the prior art.
在本发明的其中一个实施例中,一种医疗检测系统,其包括:In one embodiment of the invention, a medical detection system includes:
触摸显示屏; Touch the display;
医疗检测装置,所述医疗检测装置对检测对象进行检测以获取医疗检测数据;a medical detecting device that detects a detection target to acquire medical detection data;
数据处理模块,所述数据处理模块生成与所述医疗检测数据或者所述医疗检测装置进行关联操作的多个备选对象;及a data processing module, the data processing module generating a plurality of candidate objects associated with the medical detection data or the medical detection device; and
控制模块,所述控制模块在触摸显示屏上显示所述多个备选对象、检测输入对象与触摸显示屏的持续移动接触并响应所述持续移动接触而标记与所述持续移动接触相关联的多个备选对象对应的属性信息。a control module that displays the plurality of candidate objects on the touch display screen, detects a continuous moving contact of the input object with the touch display screen, and marks the associated moving contact in response to the continuous moving contact Attribute information corresponding to multiple candidate objects.
在本发明的其中一个实施例中,一种控制医疗检测系统的方法,包括:In one embodiment of the invention, a method of controlling a medical detection system includes:
控制医疗检测装置对检测对象进行检测以获取医疗检测数据;Controlling the medical detecting device to detect the detected object to obtain medical test data;
在触摸显示屏上显示多个备选对象,所述多个备选对象用于与所述医疗检测数据或者所述医疗检测装置进行关联操作;Displaying, on the touch display screen, a plurality of candidate objects for performing an association operation with the medical detection data or the medical detection device;
检测输入对象与触摸显示屏的持续移动接触;Detecting continuous moving contact of the input object with the touch display screen;
响应所述持续移动接触而标记与所述持续移动接触相关联的多个备选对象对应的属性信息。Attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact is marked in response to the continuous moving contact.
在本发明的其中一个实施例中,一种控制医疗检测系统的方法,包括:In one embodiment of the invention, a method of controlling a medical detection system includes:
控制医疗检测装置对检测对象进行检测以获取医疗检测数据;Controlling the medical detecting device to detect the detected object to obtain medical test data;
在触摸显示屏上显示包含多个备选对象的信息列表的第一部分,所述多个备选对象用于与所述医疗检测数据或者所述医疗检测装置进行关联操作;Displaying, on a touch display screen, a first portion of a list of information comprising a plurality of candidate objects for performing an association operation with the medical detection data or the medical detection device;
检测输入对象与所述触摸显示屏的接触;Detecting contact of the input object with the touch display screen;
确定所述接触在所述触摸显示屏上的操作位置,Determining an operational position of the contact on the touch display screen,
当所述操作位置位于触摸显示屏上的选择区域内时,响应所述输入对象在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息;Marking, in the first portion of the list of information, the continuous moving contact in response to the continuous moving contact of the input object within the selection area when the operating position is within a selected area on the touch display screen Attribute information corresponding to multiple candidate objects;
当所述操作位置位于触摸显示屏上的滚动区域内时,响应所述输入对象在所述滚动区域内的所述接触的运动而移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的除第一部分之外的其余部分的至少一部分。Displaying a list of display information displayed on the touch display screen to display the information in response to movement of the contact of the input object within the scroll area when the operation position is within a scroll area on the touch display screen At least a portion of the remainder of the list except the first portion.
在本发明的其中一个实施例中,一种医疗检测系统,其包括: In one embodiment of the invention, a medical detection system includes:
触摸显示屏;Touch the display;
医疗检测装置,所述医疗检测装置对检测对象进行检测以获取医疗检测数据;a medical detecting device that detects a detection target to acquire medical detection data;
数据处理模块,所述数据处理模块生成包含与所述医疗检测数据或者所述医疗检测装置进行关联操作的多个备选对象的信息列表;及a data processing module, the data processing module generating a list of information including a plurality of candidate objects associated with the medical detection data or the medical detection device; and
控制模块,所述控制模块在触摸显示屏上显示所述信息列表的第一部分、检测输入对象与触摸显示屏的接触,确定所述接触在所述触摸显示屏上的操作位置,并且当所述操作位置位于触摸显示屏上的选择区域内时,响应所述输入对象在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息,当所述操作位置位于触摸显示屏上的滚动区域内时,响应所述输入对象在所述滚动区域内的所述接触的运动而移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的除第一部分之外的其余部分的至少一部分。a control module that displays a first portion of the list of information on a touch display screen, detects contact of the input object with the touch display screen, determines an operational position of the contact on the touch display screen, and when When the operating position is within the selected area on the touch display screen, the plurality of devices associated with the continuous moving contact in the first portion of the list of information are marked in response to the continuous moving contact of the input object within the selected area Selecting attribute information corresponding to the object, when the operation position is located in the scroll area on the touch display screen, moving the display displayed on the touch display screen in response to the movement of the contact of the input object in the scroll area The list of information to display at least a portion of the remainder of the list of information other than the first portion.
附图说明DRAWINGS
图1为提供了依照一些实施例的超声检测设备的系统架构示意图;1 is a schematic diagram of a system architecture of an ultrasonic testing apparatus in accordance with some embodiments;
图2为提供了依照一些实施例的图形用户界面的显示示意图;2 is a schematic diagram showing the display of a graphical user interface in accordance with some embodiments;
图3为提供了依照一些实施例的一种手势操作示意图;FIG. 3 is a schematic diagram of a gesture operation according to some embodiments;
图4为提供了依照一些实施例的方法流程图;4 is a flow chart providing a method in accordance with some embodiments;
图5为提供了依照一些实施例的一种操作示意图;Figure 5 is a schematic illustration of an operation provided in accordance with some embodiments;
图6为提供了依照一些实施例的另一种操作示意图;6 is a schematic diagram showing another operation in accordance with some embodiments;
图7为提供了依照一些实施例的又一种操作示意图;Figure 7 is a schematic diagram showing still another operation in accordance with some embodiments;
图8为提供了依照一些实施例的另一手势输入的操作示意图;8 is a schematic diagram of an operation for providing another gesture input in accordance with some embodiments;
图9为提供了依照一些实施例的一种备选对象排列方式的选择操作示意图;9 is a schematic diagram showing a selection operation of an alternative object arrangement manner according to some embodiments;
图10为提供了依照一些实施例的另一种备选对象排列方式的选择操作示意图; FIG. 10 is a schematic diagram showing a selection operation of another alternative object arrangement manner according to some embodiments; FIG.
图11为提供了依照一些实施例的部分步骤的方法流程图;11 is a flowchart of a method of providing partial steps in accordance with some embodiments;
图12为提供了依照一些实施例的操作示意图之一;Figure 12 is a diagram showing one of the operational diagrams in accordance with some embodiments;
图13为提供了依照一些实施例的操作示意图之二;Figure 13 is a second schematic diagram showing the operation in accordance with some embodiments;
图14为提供了依照一些实施例的一次手势输入下的连续操作示意图之一;14 is a schematic diagram showing a continuous operation under one gesture input in accordance with some embodiments;
图15为提供了依照一些实施例的基于随机排列下的一次手势输入下的连续操作示意图;15 is a schematic diagram of continuous operation based on a single gesture input in a random arrangement, in accordance with some embodiments;
图16(a)为提供了依照一些实施例的有关操作位置的示意图之一,图16(b)为提供了依照一些实施例的有关操作位置的示意图之二,图16(c)为提供了依照一些实施例的有关操作位置的示意图之三;Figure 16 (a) is a schematic diagram showing an operational position in accordance with some embodiments, Figure 16 (b) is a second schematic diagram showing an operational position in accordance with some embodiments, and Figure 16 (c) is provided a third schematic diagram of the operational position in accordance with some embodiments;
图17为提供了依照一些实施例的一次手势输入下的连续操作示意图之二;17 is a second schematic diagram of a continuous operation under one gesture input in accordance with some embodiments;
图18为提供了依照一些实施例的一次手势输入下的连续操作示意图之三;18 is a third schematic diagram of a continuous operation under one gesture input in accordance with some embodiments;
图19为提供了依照一些实施例的一次手势输入下的连续操作示意图之四;19 is a fourth schematic diagram of a continuous operation under one gesture input in accordance with some embodiments;
图20为提供了依照一些实施例的一次手势输入下的连续操作示意图之五;20 is a fifth schematic diagram of a continuous operation under one gesture input in accordance with some embodiments;
图21为提供了依照一些实施例的一次手势输入下的连续操作示意图之六;21 is a sixth schematic diagram of a continuous operation under one gesture input in accordance with some embodiments;
图22为提供了依照一些实施例的一次手势输入下的连续操作示意图之七;22 is a seventh schematic diagram of a continuous operation under one gesture input in accordance with some embodiments;
图23为提供了依照一些实施例的部分步骤的方法流程图。23 is a flow chart of a method of providing partial steps in accordance with some embodiments.
具体实施方式detailed description
本发明的实施例中公开的设备减轻或消除了与带有触摸显示屏的医疗检测设备和该设备的图形用户界面有关列表项目操作不便利的问题。在本发明 的多个实施例中,该设备具有带有图形用户界面(GUI)的触摸显示屏、一个或多个处理器、存储器、和存储在存储器中用于执行多种功能的一个或多个模块、程序或指令集。在本发明的多个实施例中,这些功能可以包括对检测对象(例如,病人的组织)进行检测以获得医疗检测数据、图像浏览、病理数据库构建、检索和维护、病人档案信息构建、显示和管理、病人目录信息构建、显示和管理、等等。用于执行这些模块、程序或指令可以包括在为供一个或多个处理器执行而配置的计算机程序产品中。The apparatus disclosed in the embodiments of the present invention alleviates or eliminates the problem that the list item operation is inconvenient with respect to the medical detection apparatus with the touch display screen and the graphical user interface of the apparatus. In the present invention In various embodiments, the device has a touch display screen with a graphical user interface (GUI), one or more processors, memory, and one or more modules stored in the memory for performing various functions, Program or instruction set. In various embodiments of the invention, these functions may include detecting a test subject (eg, a patient's tissue) to obtain medical test data, image browsing, pathology database construction, retrieval and maintenance, patient file information construction, display, and Management, patient directory information building, display and management, and more. The modules, programs, or instructions for executing these may be included in a computer program product configured for execution by one or more processors.
在本发明的其中一些实施例中,用户主要在触摸显示屏上通过手势输入与图形用户界面进行交互。这里的手势输入可以包括通过直接接触触摸显示屏或接近触摸显示屏使设备可以检测的任何类型的用户手势输入。例如,手势输入可以是用户使用右手或左手的手指(例如,食指、拇指等)、或者可以通过触摸显示屏可检测的输入对象(例如,手写笔、触摸显示屏专用笔)在触摸显示屏上选择一个位置、多个位置、和/或多个连续位置的动作,可以包括类似接触、触摸的释放、触摸的轻拍、长接触、旋转展开等操作动作。这里,长接触对应于在手指、拇指、手写笔等与触摸显示屏保持持续接触状态下沿着预定方向或可变的方向移动手指、拇指、手写笔的一种手势输入,例如,像触摸拖动、轻拂、擦过、滑动、扫掠等那样的手势操作动作。可见,手势输入通过输入对象与触摸显示屏的接触来实现,与触摸显示屏的接触状态可以包括手指、拇指、或手写笔等直接与触摸显示屏接触或非直接接触地接近触摸显示屏的状态,而非直接接触地接近触摸显示屏的手势输入是指在接近触摸显示屏的空间位置上的手势操作动作。而上述图形用户界面是指对软件的人机交互、操作逻辑、界面美观的整体设计,其可以包括一个或多个软键盘、以及多个图像控件对象。软键盘可以包括一定数量的图标(或软键)。这可以使用户可以选择软键盘中的一个或多个图标,并因此选择一个或多个相应符号进行输入。In some of these embodiments of the invention, the user interacts with the graphical user interface primarily through gesture input on the touch display. The gesture input herein may include any type of user gesture input that the device can detect by directly touching the touch display or proximity to the touch display. For example, the gesture input may be a finger that the user uses a right or left hand (eg, an index finger, a thumb, etc.), or an input object that can be detected by touching the display screen (eg, a stylus, a touch screen dedicated pen) on the touch display screen The actions of selecting one location, multiple locations, and/or multiple consecutive locations may include operational actions such as contact, touch release, touch tap, long contact, rotational deployment, and the like. Here, the long contact corresponds to a gesture input of moving a finger, a thumb, a stylus in a predetermined direction or a variable direction while a finger, a thumb, a stylus, or the like is kept in continuous contact with the touch display screen, for example, like a touch drag Gesture operation such as moving, flicking, wiping, sliding, sweeping, and the like. It can be seen that the gesture input is realized by the contact of the input object with the touch display screen, and the contact state with the touch display screen may include a state in which the finger, the thumb, or the stylus pen directly contacts the touch display screen or is in direct contact with the touch display screen. The gesture input that is close to the touch display screen instead of being in direct contact refers to a gesture operation action in a spatial position close to the touch display screen. The above graphical user interface refers to an overall design of human-computer interaction, operation logic, and interface aesthetics of the software, which may include one or more soft keyboards and multiple image control objects. A soft keyboard can include a number of icons (or soft keys). This allows the user to select one or more icons in the soft keyboard and thus select one or more corresponding symbols for input.
当然,除了利用触摸显示屏的手势输入来触发应用或功能的相关事件的方式之外,也可以包括通过实际的硬件输入设备(例如,轨迹球、键盘、鼠 标和/或操纵杆的一个或多个的组合),来在图形用户界面上执行类似上述手势输入的操作,例如,通过硬件输入设备控制图形用户界面上的光标移动而产生类似上述手势输入在图形用户界面上呈现的操作动作,亦认为是本发明所采用的手势输入方式的变形和可替换方案。Of course, in addition to the manner in which the gesture input of the touch display screen is used to trigger an event related to the application or function, it may also include an actual hardware input device (eg, trackball, keyboard, mouse) a combination of one or more of the targets and/or joysticks to perform an operation similar to the gesture input described above on the graphical user interface, for example, by controlling the movement of the cursor on the graphical user interface by a hardware input device to produce a gesture input similar to that described above The operational actions presented on the graphical user interface are also considered to be variants and alternatives to the gesture input approach employed by the present invention.
现在结合附图,详细介绍本发明的各个实施例所基于的硬件环境和软件环境。在如下的详细描述中,给出了许多具体细节,以便全面理解本发明的实施例。但是,对于本领域的普通技术人员来说,显而易见,不用这些具体细节也可以实施本发明。在其它情况下,不详细描述众所周知的方法、过程、部件、电路和网络,以免无法突出实施例的其他方面。The hardware environment and software environment on which the various embodiments of the present invention are based will now be described in detail with reference to the accompanying drawings. In the following detailed description, numerous specific details are set forth However, it will be apparent to those skilled in the art that the present invention may be practiced without these specific details. In other instances, well-known methods, procedures, components, circuits, and networks are not described in detail so as not to obscure other aspects of the embodiments.
本发明的一些实施例中,如图1所示,医疗检测系统可以包括触摸显示屏130、医疗检测装置300、数据处理模块150和控制模块140,以及存储器160。医疗检测装置300可以对检测对象(例如,人体或者动物体内的器官、组织、血管等等,图中未示出)进行检测以获得医疗检测数据(例如,检测对象的图像、频谱、生理参数波形、生理参数测量值、等等)。数据处理模块150则可以生成与医疗检测装置或者该医疗检测装置所获得的医疗检测数据进行关联操作的多个备选对象。In some embodiments of the invention, as shown in FIG. 1, the medical detection system can include a touch display 130, a medical detection device 300, a data processing module 150 and a control module 140, and a memory 160. The medical detecting device 300 can detect a detection object (for example, an organ, a tissue, a blood vessel, or the like in a human body or an animal body, not shown) to obtain medical detection data (for example, an image, a spectrum, and a physiological parameter waveform of the detection object). , physiological parameter measurements, etc.). The data processing module 150 can then generate a plurality of candidate objects that are associated with the medical detection device or the medical detection data obtained by the medical detection device.
控制模块140可以将数据处理模块150生成的备选对象显示在触摸显示屏上,并且检测输入对象(例如,用户的手指、手写笔、触摸显示屏专用笔、等等)在触摸显示屏上的操作,然后响应输入对象在触摸显示屏上的操作而对显示在触摸显示屏上的备选对象进行相应地操作(下文中详述)。The control module 140 may display the candidate object generated by the data processing module 150 on the touch display screen, and detect an input object (eg, a user's finger, a stylus, a touch screen dedicated pen, etc.) on the touch display screen. The operation then operates on the alternate object displayed on the touch display in response to the operation of the input object on the touch display (described in more detail below).
本发明的一些实施例中,触摸显示屏130可以是集成在医疗检测装置中,即是医疗检测装置的一部分。本发明的另一些实施例中,触摸显示屏也可以是包含在与医疗检测装置分离的单独的设备,该设备可以通过有线或者无线的方式与医疗检测装置进行数据通信。In some embodiments of the invention, touch display 130 may be integrated into a medical detection device, ie, part of a medical detection device. In still other embodiments of the present invention, the touch display screen may also be a separate device included in the medical detection device that can communicate with the medical detection device in a wired or wireless manner.
一些实施例中,前述的数据处理模块和控制模块可以集成在医疗检测装置中。另一些实施例中,前述的数据处理模块和控制模块可以集成在包含前述的触摸显示屏的与医疗检测装置分离的设备中。 In some embodiments, the aforementioned data processing module and control module can be integrated into the medical detection device. In other embodiments, the aforementioned data processing module and control module can be integrated into a device separate from the medical detection device that includes the aforementioned touch display.
一些实施例中,前述的与医疗检测装置或者医疗检测数据进行的“关联操作”可以是对医疗检测装置本身或者对医疗检测装置获得的医疗检测数据进行的任何控制操作,例如,选择医疗检测装置、调节医疗检测装置工作参数、切换医疗检测装置工作模式、选择医疗检测装置的当前功能、调节医疗检测数据的参数、选择或编辑医疗检测数据对应的病人的信息、建立或者选择医疗检测数据对应的输出报告、对医疗检测数据的查看、放大或缩小、编辑、浏览、标注、删除、调阅等等。相应地,前述的“备选对象”可以是用于进行前述的各种关联操作的任何对象,例如各种选项、控件或者其他任何适合的而对象。In some embodiments, the aforementioned "association operation" with the medical detection device or the medical detection data may be any control operation performed on the medical detection device itself or the medical detection data obtained by the medical detection device, for example, selecting a medical detection device. Adjusting the operating parameters of the medical detecting device, switching the working mode of the medical detecting device, selecting the current function of the medical detecting device, adjusting parameters of the medical detecting data, selecting or editing the information of the patient corresponding to the medical detecting data, establishing or selecting the corresponding medical detecting data Output reports, view, zoom in or out, edit, browse, mark, delete, and review medical test data. Accordingly, the aforementioned "alternative object" may be any object for performing the various associated operations described above, such as various options, controls, or any other suitable object.
下面结合附图1以超声检测装置为例对本发明实施例中的医疗检测设备进行进一步的解释说明。但是,虽然下面的实施例中给出的是医疗检测装置为超声检测装置的实例,但是本发明不限于超声检测装置。The medical testing device in the embodiment of the present invention is further explained by taking an ultrasonic detecting device as an example in conjunction with FIG. 1 . However, although the medical detection device is an example of the ultrasonic detecting device given in the following embodiments, the present invention is not limited to the ultrasonic detecting device.
图1所示的超声检测装置300通常包括:探头301、发射电路303、发射/接收选择开关302、接收电路304、波束合成模块305、信号处理模块316、图像处理模块326。在超声成像过程中,发射电路303将经过延迟聚焦的具有一定幅度和极性的发射脉冲通过发射/接收选择开关302发送到探头301。探头301受发射脉冲的激励,向检测对象(例如,人体或者动物体内的器官、组织、血管等等,图中未示出)发射超声波,经一定延时后接收从目标区域反射回来的带有检测对象的信息的超声回波,并将此超声回波重新转换为电信号。接收电路304接收探头301转换生成的电信号,获得超声回波信号,并将这些超声回波信号送入波束合成模块305。波束合成模块305对超声回波信号进行聚焦延时、加权和通道求和等处理,然后将超声回波信号送入信号处理模块316进行相关的信号处理。经过信号处理模块316处理的超声回波信号送入图像处理模块326。图像处理模块326根据用户所需成像模式的不同,对信号进行不同的处理,获得不同模式的超声图像数据,然后经对数压缩、动态范围调整、数字扫描变换等处理形成不同模式的超声图像,如B图像,C图像,D图像等等,或者其他类型的二维超声图像或三维超声图像。 The ultrasonic testing apparatus 300 shown in FIG. 1 generally includes a probe 301, a transmitting circuit 303, a transmit/receive selection switch 302, a receiving circuit 304, a beam combining module 305, a signal processing module 316, and an image processing module 326. In the ultrasonic imaging process, the transmitting circuit 303 transmits a delayed-focused transmission pulse having a certain amplitude and polarity to the probe 301 through the transmission/reception selection switch 302. The probe 301 is excited by the emission pulse, and transmits ultrasonic waves to the detection object (for example, organs, tissues, blood vessels, etc. in the human body or animals, not shown), and receives the reflection from the target area after a certain delay. An ultrasonic echo of the information of the object is detected, and the ultrasonic echo is reconverted into an electrical signal. The receiving circuit 304 receives the electrical signals generated by the conversion of the probe 301, obtains ultrasonic echo signals, and sends the ultrasonic echo signals to the beam combining module 305. The beam synthesis module 305 performs processing such as focus delay, weighting, and channel summation on the ultrasonic echo signals, and then sends the ultrasonic echo signals to the signal processing module 316 for related signal processing. The ultrasonic echo signals processed by signal processing module 316 are sent to image processing module 326. The image processing module 326 performs different processing on the signals according to different imaging modes required by the user, obtains ultrasonic image data of different modes, and then forms ultrasonic images of different modes through logarithmic compression, dynamic range adjustment, digital scan conversion, and the like. Such as B image, C image, D image, etc., or other types of two-dimensional ultrasound images or three-dimensional ultrasound images.
图1的实施例中,前述的数据处理模块和控制模块可以在图像处理模块326中实现。当然,在其他的实施例中,前述的数据处理模块和控制模块也可以是该超声检测装置300中与图像处理模块326分离的独立模块。In the embodiment of FIG. 1, the aforementioned data processing module and control module can be implemented in image processing module 326. Of course, in other embodiments, the foregoing data processing module and control module may also be separate modules of the ultrasonic detecting device 300 that are separated from the image processing module 326.
在本发明的其中一些实施例中,信号处理模块316和图像处理模块326可以集成在一个主板306上,或者其中的一个或两个以上(本文中以上包括本数)的模块集成在一个处理器/控制器芯片上实现。In some embodiments of the present invention, the signal processing module 316 and the image processing module 326 may be integrated on one motherboard 306, or one or more of the modules (including the number herein above) integrated in one processor/ Implemented on the controller chip.
一些实施例中,超声检测装置300还可以包括手势检测模块203。手势检测模块203可以检测输入对象与触摸显示屏130之间进行交互的手势输入。手势检测模块203包括用于执行与手势输入检测相关的各种操作,譬如,确定是否发生了接触、确定手势输入是否持续输入、确定是否与预定手势对应、确定手势输入所对应的操作位置、确定手势输入对应的操作位置是否移动到相应显示区域的边缘位置、确定手势输入是否已中断(如,接触是否已停止)、确定手势输入的移动并跟踪手势输入的移动轨迹等等各个步骤的各种程序模块。确定手势输入的运动可以包括确定手势输入所对应的操作位置的运动速率(幅度)、运动速度(幅度和方向)、和/或运动加速度(幅度和/或方向的变化)、运动轨迹等等。这些操作可以应用于单个操作位置(例如,一个手指所实现的手势输入)、或多个同时操作位置(例如,“多触摸”,即多个手指所实现的手势输入)。在本发明的一些实施例中,手势检测模块203用于检测触摸显示屏表面上或在接近触摸显示屏的空间位置上的一个或多个输入对象的运动。In some embodiments, the ultrasound detection device 300 can also include a gesture detection module 203. The gesture detection module 203 can detect a gesture input that interacts between the input object and the touch display screen 130. The gesture detection module 203 includes various operations for performing gesture input detection, such as determining whether a contact has occurred, determining whether the gesture input is continuously input, determining whether to correspond to the predetermined gesture, determining an operation position corresponding to the gesture input, determining Whether the corresponding operation position of the gesture input moves to the edge position of the corresponding display area, determines whether the gesture input has been interrupted (eg, whether the contact has stopped), determines the movement of the gesture input, and tracks the movement trajectory of the gesture input, and the like. Program module. Determining the motion of the gesture input may include determining a rate of motion (amplitude), a velocity of motion (amplitude and direction), a velocity of motion (a change in amplitude and/or direction), a motion trajectory, and the like of the operational position corresponding to the gesture input. These operations can be applied to a single operational location (eg, a gesture input implemented by one finger), or multiple simultaneous operational locations (eg, "multi-touch", ie, gesture input implemented by multiple fingers). In some embodiments of the invention, the gesture detection module 203 is configured to detect motion of one or more input objects on a surface of the touch screen display or at a spatial location proximate to the touch screen display.
在其他的实施例中,医疗检测装置也可以是其他类型的医疗检测设备,例如核磁共振检测设备、病人监护仪、CT、X线成像设备、血液分析仪、生化分析仪等等。则医疗检测数据可以是来自这些医疗检测设备的任何一种检测数据。In other embodiments, the medical detection device can also be other types of medical detection devices, such as nuclear magnetic resonance detection devices, patient monitors, CT, X-ray imaging devices, blood analyzers, biochemical analyzers, and the like. The medical test data can be any type of test data from these medical test devices.
图2示例了具有触摸显示屏130的医疗检测系统100的一些实施例。触摸显示屏130的图形用户界面400上可以显示一个或多个图形对象。FIG. 2 illustrates some embodiments of a medical detection system 100 having a touch display 130. One or more graphical objects may be displayed on graphical user interface 400 of touch display 130.
例如,图2所示,显示解锁软键414,通过点击此解锁软键414来实现开启或关闭触摸显示屏130的手势输入控制功能,开启或关闭时显示不同的 图标,例如图2中通过绘制一把开启的锁表示触摸显示屏130当前处于开启状态,而绘制一把闭合的锁表示触摸显示屏130当前处于关闭状态。For example, as shown in FIG. 2, the unlock soft key 414 is displayed, and the gesture input control function of turning on or off the touch display screen 130 is realized by clicking the unlock soft key 414, and the display is different when turned on or off. An icon, such as by drawing an open lock in Figure 2, indicates that the touch display 130 is currently on, and drawing a closed lock indicates that the touch display 130 is currently off.
此外,还可以在图形用户界面400的下方设置医院图标浏览区域415,通过一个或多个手指417触摸相应于“医院1”的图形对象418,当手指417触摸到相应的医院图形对象418时则突出放大显示图形对象418,同时在图形用户界面400的区域415的上方区域416显示医院1所对应的各种应用功能模块的图像对象,例如,用于表征病人档案展示模块的图形对象413、用于表征医护通讯模块的图形对象401、用于表征通讯客户端模块的图形对象402、用于表征视频/音频播放器模块的图形对象403、用于表征视频会议模块的图形对象404、用于表征相机模块的图形对象405、用于表征图片浏览模块的图形对象406、用于表征备忘录模块的图形对象407、用于表征日历模块的图形对象408、用于表征地图模块409、用于表征病理数据库模块的图形对象410、用于表征搜索引擎模块的图形对象411、用于表征远程控制模块的图形对象412。In addition, a hospital icon browsing area 415 can also be provided below the graphical user interface 400, touching the graphical object 418 corresponding to "Hospital 1" by one or more fingers 417, when the finger 417 touches the corresponding hospital graphic object 418 The magnified display graphic object 418 is displayed while the image object of the various application function modules corresponding to the hospital 1 is displayed in the upper area 416 of the area 415 of the graphical user interface 400, for example, the graphic object 413 for characterizing the patient file display module, a graphical object 401 characterizing the healthcare communication module, a graphical object 402 for characterizing the communication client module, a graphical object 403 for characterizing the video/audio player module, a graphical object 404 for characterizing the video conferencing module, for characterization a graphical object 405 of the camera module, a graphical object 406 for characterizing the picture browsing module, a graphical object 407 for characterizing the memo module, a graphical object 408 for characterizing the calendar module, a feature map module 409 for characterizing the pathology database a graphical object 410 of the module, a graphical object 411 for characterizing the search engine module, for Sign graphic object remote control module 412.
图2中只绘制了部分应用程序模块的图形对象,但是本发明并不限于图2所示的图形用户界面设置方式,还可以采用其他可基于图1所示的应用程序模块来实现的图形用户界面设置方式,例如删除图2中图形用户界面400上的区域415,不显示多个医院图形对象418,图形用户界面400在开启时直接进入单个医院所对应的各种应用功能模块的图像对象,或者在开启时图形用户界面400直接显示某个医疗检测装置的图像显示和/或控制界面等。在开启时图形用户界面400直接显示某个医疗检测装置的图像显示和/或控制界面可以是,开启医疗检测系统100后,图形用户界面400显示超声检测装置所采集的超声图像,以及在图形用户界面400显示诸如回放、超声成像参数调节等图形对象,以便通过手势输入实现相应功能或实现相关设置参数的输入。Only the graphical objects of some application modules are drawn in FIG. 2, but the present invention is not limited to the graphical user interface setting mode shown in FIG. 2, and other graphic users that can be implemented based on the application modules shown in FIG. 1 can also be used. The interface setting manner, for example, deleting the area 415 on the graphical user interface 400 in FIG. 2, does not display a plurality of hospital graphic objects 418, and the graphical user interface 400 directly enters the image objects of various application function modules corresponding to a single hospital when the user interface 400 is opened. Or the graphical user interface 400 directly displays an image display and/or control interface of a medical detection device when turned on. When the graphical user interface 400 is directly displayed, the image display and/or control interface of a medical detecting device may be displayed. After the medical detecting system 100 is turned on, the graphical user interface 400 displays the ultrasonic image collected by the ultrasonic detecting device, and the graphical user. The interface 400 displays graphical objects such as playback, ultrasound imaging parameter adjustments, etc., to implement corresponding functions or input of relevant setting parameters through gesture input.
在本实施例中,用户可以利用一个或多个手指417、或其他输入设备与触摸显示屏130相接触,或在接近触摸显示屏130时所处的空间位置上进行手势输入的方式来选择图形用户界面中给出的各个应用程序模块的图形对象, 从而切换到相应的应用程序模块的图形用户界面下,即通过触摸相应功能模块的图形对象进入到下一层功能目录对应的图形用户界面下。In this embodiment, the user can use one or more fingers 417, or other input device to contact the touch display screen 130, or select a graphic by gesture input at a spatial position where the touch screen display 130 is located. Graphical objects for each application module given in the user interface, Thereby switching to the graphical user interface of the corresponding application module, that is, by touching the graphic object of the corresponding function module to enter the graphic user interface corresponding to the next layer function directory.
图2给出了其中一种手势输入方式,即利用一个或多个手指401与触摸显示屏130相接触,通过确定手指417与触摸显示屏130表面接触的位置来确定手势输入所控制的图形对象,这里的接触包括直接与触摸显示屏130表面接触,或非直接接触的接近触摸显示屏130表面的接触方式。FIG. 2 shows one of the gesture input modes, that is, using one or more fingers 401 to contact the touch display screen 130, and determining the graphical object controlled by the gesture input by determining the position of the finger 417 in contact with the surface of the touch display screen 130. The contact here includes direct contact with the surface of the touch display 130, or contact with the surface of the touch display 130 that is not in direct contact.
在本发明的一些实施例中所采用的另一种手势输入的方式。手指等输入对象处于触摸显示屏表面一定距离的空间位置上所作出的手势输入,而此时手势输入所处的空间位置映射到触摸显示屏上对应有相应的映射位置,通过检测映射位置所对应的图形对象,来确定手势输入所控制的图形对象,从而通过手势输入控制进行图形用户界面的变换。此种手势控制的检测方式可以是结合光学传感器及其控制器和手势检测模块,来通过获取图像或感光变化的方式来跟踪。当然,还可以通过嵌入到触摸显示屏正面下方或边缘位置的光学传感器,用于感知输入对象在一定空间位置上对触摸显示屏表面光效的影响,从而确定输入对象所输入的手势对应于触摸显示屏上的操作位置,有效实现跟踪手势输入的运动变化。当然,还可以结合上述实施例提到的触摸接近传感器来实现相关手势的检测。Another way of gesture input employed in some embodiments of the invention. a gesture input made by a finger or the like in a spatial position at a certain distance from the surface of the touch screen display, and the spatial position at which the gesture input is located is mapped to a corresponding mapping position on the touch display screen, corresponding to the detected mapping position. The graphical object is used to determine the graphical object controlled by the gesture input, thereby transforming the graphical user interface through gesture input control. The detection of such gesture control can be combined with the optical sensor and its controller and gesture detection module to track by acquiring images or sensitizing changes. Of course, an optical sensor embedded in the front surface or the edge of the touch display screen can also be used to sense the influence of the input object on the surface effect of the touch screen display at a certain spatial position, thereby determining that the gesture input by the input object corresponds to the touch display. The operation position on the screen effectively realizes the movement change of the tracking gesture input. Of course, the touch proximity sensor mentioned in the above embodiment can also be combined to detect the related gesture.
当然,本发明不限于仅采用上述图2所示的手势输入的方式,还可以采用其他替换方式,例如,图2所示的手势输入方式相结合的方式。例如,对于同一个图形用户界面下的一些列图形对象进行连续操作时,通过两种手势输入方式实现不同功能的操作,下文将会结合一些实施例进行详细说明。Of course, the present invention is not limited to the manner of using only the gesture input shown in FIG. 2 above, and other alternative manners may be adopted, for example, the manner in which the gesture input modes shown in FIG. 2 are combined. For example, when a series of graphic objects under the same graphical user interface are continuously operated, different functions are operated by two gesture input modes, which will be described in detail below with reference to some embodiments.
在本发明的其中一个实施例中,医疗检测系统100还可以触摸显示屏130的壳体侧面设置电源开关按钮421、音量调节按钮420等实际控制按钮。例如,通过按压电源开关按钮421的压力状态时间来打开和关闭医疗检测系统100的电源,从而减少实际按键的设置空间,还可以通过按压电源开关按钮421在经过预定时间间隔之前释放所述钮来锁定医疗检测系统100,即实现与手势控制图2中图形对象414的功能是相同的。在一个可替代实施例中,医 疗检测系统100还可以通过麦克风输入一些语音指令去开启一些应用程序模块,例如通过语音控制进入病理数据库的搜索功能等等。In one embodiment of the present invention, the medical detection system 100 can also touch the side of the housing of the display screen 130 to set an actual control button such as a power switch button 421, a volume adjustment button 420, and the like. For example, the power of the medical detection system 100 is turned on and off by pressing the pressure state time of the power switch button 421, thereby reducing the installation space of the actual button, and the button can be released by pressing the power switch button 421 before a predetermined time interval elapses. Locking the medical detection system 100, i.e., achieving the same function as the graphical object 414 of the gesture control diagram 2. In an alternative embodiment, the doctor The therapy detection system 100 can also input some voice commands through the microphone to open some application modules, such as a voice control to enter the pathology database search function and the like.
以下将主要针对在上述医疗检测系统100上和/或在带有触摸显示屏130的设备上实现的图形用户界面和相关进程、以及通过手势输入进行图像对象控制的各个实施例。The following will be directed primarily to various embodiments of graphical user interfaces and related processes implemented on the above-described medical detection system 100 and/or on devices with touch display 130, as well as image object control by gesture input.
在本发明的一个实施例中,通过按压电源开关按钮421或者手势输入控制图2所示的解锁软键414来开启触摸显示屏130的手势输入控制功能。In one embodiment of the present invention, the gesture input control function of the touch display screen 130 is turned on by pressing the power switch button 421 or the gesture input to control the unlock soft key 414 shown in FIG.
在开启触摸显示屏130的手势输入控制功能之后,可以通过图4所示的方式来对有关列表项目在触摸显示屏上显示的多个备选对象进行手势控制,从而标记当前列表项目中备选对象的属性状态,这里的备选对象包括上述图形控件对象中的某一项、部分项或者全部项。而每个备选对象对应的属性信息包括备选功能控件的使能状态属性、控件可见化属性、提示信息显示属性等等。在本发明的其中一个实施例中,本文中提到的属性信息包括两种可选的且彼此相反的状态。例如,备选功能控件的使能状态属性,其包括:选中或未选中两种可选状态。针对此两种可选状态在图形用户界面上的标记方式,可以采用很多种。例如,如图5所示,通过在备选对象对应的属性标记显示区域602内添加或不添加诸如选择勾等标记符号来区分选中或未选中两种可选状态。如图6所示,通过在备选对象对应的属性标记显示区域602内填充黑色等标记符号来表示选中状态,反之表示未选中状态。如图7或图8所示,通过突出放大被选中的备选对象来区分选中或未选中两种可选状态。还比如,如图9所示(图9中通过虚线表示相应图形对象的颜色、对比度、背景色等色彩标识信息被特殊显示,以区分正常情况下显示的图形对象),通过标记被选中的备选对象的颜色、对比度、背景色等色彩标识信息用以区别于未选中的图形对象,来区分选中或未选中两种可选状态,等等。After the gesture input control function of the touch display screen 130 is turned on, gestures can be performed on a plurality of candidate objects displayed on the touch display screen by the list item in the manner shown in FIG. 4, thereby marking the candidate in the current list item. The attribute state of the object, where the candidate object includes one, some, or all of the above graphical control objects. The attribute information corresponding to each candidate object includes an enabled state attribute of the optional function control, a control visibility attribute, a prompt information display attribute, and the like. In one of the embodiments of the present invention, the attribute information mentioned herein includes two optional and opposite states. For example, an enabled state property of an alternate function control, which includes: two optional states, selected or unchecked. There are many ways to mark these two optional states on the graphical user interface. For example, as shown in FIG. 5, two optional states, selected or unselected, are distinguished by adding or not adding a mark symbol such as a selection hook in the attribute mark display area 602 corresponding to the candidate object. As shown in FIG. 6, the selected state is indicated by filling a mark symbol such as black in the attribute mark display area 602 corresponding to the candidate object, and the unselected state is indicated by the reverse. As shown in FIG. 7 or FIG. 8, two selected states are selected or unselected by highlighting the selected candidate objects. For example, as shown in FIG. 9 (the color identification information such as color, contrast, background color, etc. of the corresponding graphic object is specifically displayed by a broken line in FIG. 9 to distinguish the graphic object displayed under normal conditions), and the selected object is marked by the mark. The color identification information such as the color, contrast, background color of the selected object is used to distinguish the unselected graphic objects from the selected or unselected two optional states, and the like.
图4提供了一种控制医疗检测系统的方法,该方法包括步骤S610至步骤S630。FIG. 4 provides a method of controlling a medical detection system, the method comprising steps S610 to S630.
步骤S610,用于在触摸显示屏上显示多个备选对象表的步骤,其中,多 个备选对象用于与医疗检测数据或者医疗检测装置进行关联操作。Step S610, a step for displaying a plurality of candidate object tables on the touch display screen, wherein An alternative object is used to associate with medical test data or a medical test device.
本发明的一些实施例中,可以是在图5中显示的图形用户界面600上展现信息列表,而该列表包含多个备选对象。信息列表展现的形式可以多种多样,例如,信息列表中各个备选对象所对应的图形对象可以采用表格形式来呈现。如图5所示,从图形用户界面600上的相应区域从上到下逐行排列,或者从图形用户界面600上的相应区域从左到右逐列排列。或者还可以如图9或10所示,信息列表中各个备选对象按照预定的规则或随机在图形用户界面600上进行矩阵排列。本实施例中的信息列表可以是包括多个病人档案的档案信息列表、包括多个联系人的联系人通讯录、包括多个视频和/或音频数据的播放信息列表、包括多个图像或图片的图片信息列表、包括多条备忘信息的备忘信息列表、包括多条对应日历时间的时间记录信息列表、包括多个待选地图的地图信息列表、包括多条信息条目的数据信息列表、包括多个待远程控制的装置或设备的设备信息列表等等任何记录有多个备选项的信息列表或根目录索引表、等等。备选对象可以根据信息列表所记载的内容来设定在图形用户界面上对应显示的图形控件对象,例如,如图5所示,在触摸显示屏上显示多个备选对象的步骤S610中包括:In some embodiments of the invention, a list of information may be presented on the graphical user interface 600 shown in FIG. 5, and the list includes a plurality of candidate objects. The form of the information list presentation can be various. For example, the graphic objects corresponding to the respective candidate objects in the information list can be presented in a tabular form. As shown in FIG. 5, the respective regions on the graphical user interface 600 are arranged row by row from top to bottom, or column by column from left to right from corresponding regions on the graphical user interface 600. Alternatively, as shown in FIG. 9 or 10, each candidate object in the information list is arranged in a matrix on the graphical user interface 600 according to a predetermined rule or randomly. The information list in this embodiment may be a file information list including a plurality of patient files, a contact address book including a plurality of contacts, a play information list including a plurality of video and/or audio data, and a plurality of images or pictures. a list of picture information, a list of memo information including a plurality of memo information, a list of time record information including a plurality of corresponding calendar times, a list of map information including a plurality of to-be-selected maps, a list of data information including a plurality of pieces of information items, A list of device information including a plurality of devices or devices to be remotely controlled, and the like, any information list or root directory index table in which a plurality of alternatives are recorded, and the like. The candidate object may set the graphic control object correspondingly displayed on the graphical user interface according to the content recorded in the information list. For example, as shown in FIG. 5, the step S610 of displaying the plurality of candidate objects on the touch display screen includes :
显示备选对象对应的用于标记可选状态的属性标记显示区域602,如图5和图6中,属性标记显示区域602用于添加或填充表征选中状态的标记符号,该标记符号可以是选中勾、选中点、填充黑色等等。如图9和图10中,属性标记显示区域602可以是备选对象对应的图形对象的边框、外边缘区域、背景底色区域等等,然后通过该区域的形状、颜色、对比度、背景色等色彩标识信息用以标记对应的图形对象被选中。An attribute mark display area 602 corresponding to the candidate object for marking the selectable state is displayed. As shown in FIG. 5 and FIG. 6, the attribute mark display area 602 is used to add or fill a mark symbol characterizing the selected state, and the mark symbol may be selected. Hook, check points, fill black, and more. As shown in FIG. 9 and FIG. 10, the attribute mark display area 602 may be a border of the graphic object corresponding to the candidate object, an outer edge area, a background ground area, and the like, and then pass through the shape, color, contrast, background color, etc. of the area. The color identification information is used to mark that the corresponding graphic object is selected.
步骤S610中还可以包括:显示备选对象对应的用于记载备选对象表述信息的信息展示区域603。信息展示区域603可以如图5和图6所示,与属性标记显示区域602平行设置,或者如图10所示,信息展示区域603位于属性标记显示区域602的四周任意一个位置,例如信息展示区域603位于属性标记显示区域602的下方。当然也可以是,信息展示区域603位于属性标记显 示区域602中间,或者还可以是,信息展示区域603与属性标记显示区域602合二为一。The step S610 may further include: displaying an information display area 603 corresponding to the candidate object for recording the candidate object representation information. The information display area 603 may be disposed in parallel with the attribute mark display area 602 as shown in FIGS. 5 and 6, or as shown in FIG. 10, the information display area 603 may be located at any position around the attribute mark display area 602, such as an information display area. 603 is located below the attribute mark display area 602. Of course, the information display area 603 is located in the attribute mark display. In the middle of the display area 602, or the information display area 603 and the attribute mark display area 602 may be combined into one.
信息展示区域603与属性标记显示区域602可以统称为备选对象的敏感区域。信息展示区域603可以是用于:The information display area 603 and the attribute mark display area 602 may be collectively referred to as sensitive areas of the candidate object. The information display area 603 can be used for:
显示档案信息列表中每个病人档案对应的名称、备注信息、编号等等信息之一或两种以上信息的组合,例如图10中“A的档案”、“B的档案”等等;Display one of the name, remark information, number, and the like of each patient file in the file information list, or a combination of two or more pieces of information, such as "A file", "B file", etc. in FIG. 10;
显示联系人通讯录中每个联系人的姓名、电话、地址、备注等信息之一或两种以上信息的组合;Display one of the name, phone number, address, notes, etc. of each contact in the contact address book or a combination of two or more types of information;
显示播放信息列表中多个视频和/或音频数据分别对应的曲目、演唱者、编号、采集时间信息、备注信息、缩放图片等等信息之一或两种以上信息的组合;Displaying one or a combination of two or more pieces of information corresponding to a plurality of videos and/or audio data in the play information list, such as a track, a singer, a number, an acquisition time information, a remark information, a zoom picture, and the like;
显示图片信息列表中多个图像或图片分别对应的名称、编号、时间、备注信息、缩放内容等信息之一或两种以上信息的组合;Displaying one of a plurality of images or pictures in the picture information list, or a combination of two or more pieces of information such as a name, a number, a time, a comment information, a zoomed content, and the like;
显示备忘信息列表中多条备忘信息分别对应的名称、编号、时间、备注信息、缩放内容等信息之一或两种以上信息的组合;Display one or more combinations of information such as name, number, time, remark information, and zoom content corresponding to multiple memo information in the memo information list;
显示时间记录信息列表中多条对应日历时间的时间记录分别对应的名称、编号、时间、备注信息、文本信息、对应的操作信息等信息之一或两种以上信息的组合;Displaying one of the plurality of corresponding time records corresponding to the calendar time in the time record information list, such as a name, a number, a time, a remark information, a text information, a corresponding operation information, or the like, or a combination of two or more types of information;
显示地图信息列表中多个待选地图分别对应的地址、国家、省份、地区等地理位置标识;Displaying geographical addresses of addresses, countries, provinces, regions, and the like corresponding to multiple to-be-selected maps in the map information list;
显示设备信息列表中多个待远程控制的装置或设备分别对应的名称、位置、科室、操作提醒、备注信息、功能等等信息之一或两种以上信息的组合;Displaying, in the device information list, a combination of a name, a location, a department, an operation reminder, a remark information, a function, and the like corresponding to a plurality of devices or devices to be remotely controlled, or a combination of two or more types of information;
显示数据信息列表中多条信息条目分别对应的名称、编号、简要说明、备注信息等,比如,多条信息条目可以是某种检测设备在一段时间内检测获取的数据条目信息。The name, the number, the brief description, the remark information, and the like of the plurality of information items in the data information list are displayed. For example, the plurality of information items may be data item information detected by the detecting device over a period of time.
简单来说,信息展示区域603主要用于方便定位到用户所要选择的备选对象,因此,信息展示区域603可以显示各种信息列表中备选对象的索引信 息,该信息可以是名称、编号、地理位置、时间、备注、功能说明、效果数据、图片缩影等等中的一种或两种以上的组合。而索引信息转换成可视化的图形对象显示在触摸显示屏上。本文在此不再一一列举。In brief, the information display area 603 is mainly used to conveniently locate an candidate object to be selected by the user. Therefore, the information display area 603 can display an index of an alternative object in various information lists. The information may be one or a combination of two or more of a name, a number, a geographical location, a time, a comment, a function description, an effect data, a picture thumbnail, and the like. The graphical object that is converted into a visualized index information is displayed on the touch display. This article is not listed here.
每个备选对象的敏感区域可以是一个,也可是上述提到的信息展示区域603与属性标记显示区域602,而多个备选对象在触摸显示屏上的显示方式可以是如图5和图6所示从上到下或者从左到右的表格形式,或者如图10所示多个备选对象的敏感区域随机或矩阵呈现在触摸显示屏上。对于信息列表的展现或显示形式可以采用很多方式,不再一一列举。The sensitive area of each candidate object may be one, or may be the information display area 603 and the attribute mark display area 602 mentioned above, and the display manner of the plurality of candidate objects on the touch display screen may be as shown in FIG. 5 and 6 is shown in a table form from top to bottom or left to right, or a sensitive area of a plurality of candidate objects as shown in FIG. 10 is randomly or matrix presented on the touch display screen. There are many ways to display or display the information list, and no longer list them one by one.
当然,在步骤S610之前还可以包括步骤S611,用于控制医疗检测装置对检测对象进行检测以获取医疗检测数据的步骤。这里的检测对象可以是任意一个或多个活体或非活体的组织结构。Certainly, step S611 may be further included before step S610 for controlling the step of detecting, by the medical detecting device, the detection object to obtain medical detection data. The detection object here may be any one or more living or non-living tissue structures.
在步骤S620中包括,用于检测输入对象与触摸显示屏的持续移动接触的步骤。有关与触摸屏的接触在本实施例中可以是与触摸显示屏的直接接触、和在接近触摸显示屏的空间位置上的动作中的其中一种,前文中已详细说明。A step of detecting a continuous moving contact of the input object with the touch display screen is included in step S620. The contact with the touch screen may be one of direct contact with the touch display screen and an action at a spatial position proximate to the touch display screen in the present embodiment, as described in detail above.
根据上文中有关医疗检测系统100的说明,结合触摸显示屏、光学传感器及其控制器、手势检测模块等,可跟踪输入对象与触摸显示屏的接触来确定不同的手势输入方式,例如,检测手势输入对应于触摸显示屏上的操作位置、确定是否发生了接触、确定手势输入的接触是否持续输入、确定是否与预定手势对应、确定手势输入所对应的操作位置是否在运动、确定手势输入对应的操作位置是否运动到相应显示区域的边缘位置、确定手势输入是否已中断(如,接触是否已停止)、确定手势输入的移动并跟踪手势输入的移动轨迹等等,这些技术细节可参见相关现有技术。According to the above description of the medical detection system 100, in combination with the touch display screen, the optical sensor and its controller, the gesture detection module, etc., the contact of the input object with the touch display screen can be tracked to determine different gesture input manners, for example, detecting gestures Inputting corresponding to an operation position on the touch display screen, determining whether a contact has occurred, determining whether the contact of the gesture input is continuously input, determining whether to correspond to the predetermined gesture, determining whether the operation position corresponding to the gesture input is in motion, determining the corresponding gesture input Whether the operating position moves to the edge position of the corresponding display area, determines whether the gesture input has been interrupted (eg, whether the contact has stopped), determines the movement of the gesture input, and tracks the movement trajectory of the gesture input, etc., the technical details can be found in the relevant existing technology.
本实施例中在步骤S620中所要检测的是前文中提到的其中一类手势输入,即检测输入对象与触摸显示屏的持续移动接触。在本发明的一些实施例中可以通过以下步骤来进行判断确定是否检测到了持续移动接触。如图11所示,步骤S620可以包括:What is to be detected in step S620 in this embodiment is one of the types of gesture inputs mentioned in the foregoing, that is, detecting continuous contact of the input object with the touch display screen. In some embodiments of the invention, a determination may be made by the following steps to determine if a continuous moving contact has been detected. As shown in FIG. 11, step S620 may include:
步骤S621,检测输入对象是否与触摸显示屏接触,若是则进行下一步判 断,若否则不进行操作。该过程中检测输入对象是否与触摸显示屏接触,可以通过判断是否检测到接触触摸显示屏所对应的操作位置来实现。Step S621, detecting whether the input object is in contact with the touch display screen, and if yes, proceeding to the next step Broken, if not, do not operate. In the process, it is detected whether the input object is in contact with the touch display screen, and can be realized by determining whether the operation position corresponding to the touch touch screen is detected.
步骤S622,判断与触摸显示屏的接触是否持续并发生了移动,若是则判断为检测到了持续移动的接触,否则不进行操作。In step S622, it is judged whether the contact with the touch display screen is continued and the movement has occurred, and if so, it is determined that the contact for continuous movement is detected, otherwise the operation is not performed.
在本发明的其中一些实施例中,步骤S622中,通过判断手势输入对应的操作位置是否在运动来确定与触摸显示屏的接触是否移动,而在判断上述与触摸显示屏的接触是否持续时,可以从多个方面来检测。例如,判断上述操作位置是否连续变化、判断与触摸显示屏的接触是否持续了一定时间、判断上述操作位置的运动是否跨过了两个敏感区域、判断在上述操作位置预定的运动位移范围内输入对象与触摸显示屏的接触是否一直存在,等等,判断方式有很多。In some embodiments of the present invention, in step S622, it is determined whether the contact with the touch display screen is moved by determining whether the corresponding operation position of the gesture input is moving, and determining whether the contact with the touch display screen is continued. It can be detected from many aspects. For example, determining whether the operation position continuously changes, determining whether contact with the touch display screen has continued for a certain period of time, determining whether the motion of the operation position crosses two sensitive areas, and determining to input within a predetermined motion displacement range of the operation position. Whether the object's contact with the touch screen is always present, etc., there are many ways to judge.
可见,本实施例所提到的持续移动接触可以理解为,输入对象接触触摸显示屏所对应的操作位置在连续变化的一类长接触手势输入,例如,在触摸屏上的滑动操作,或者在触摸显示屏上连续一段时间的持续滑动操作。It can be seen that the continuous moving contact mentioned in this embodiment can be understood as a type of long contact gesture input in which the input object contacts the touch display screen in a continuous change, for example, a sliding operation on the touch screen, or a touch Continuous sliding operation on the display for a continuous period of time.
此外,如图5所示,在图形用户界面上通过一个手指接触触摸显示屏获得长接触手势输入的手势输入。或者,如图8所示,通过两个手指同时接触触摸显示屏获得长接触手势输入。又或者通过三个手指同时接触触摸显示屏获得长接触手势输入等等。本发明的实施例中包括一个以上的手指等输入对象接触触摸显示屏获得长接触手势输入。In addition, as shown in FIG. 5, a gesture input of a long contact gesture input is obtained by touching the touch display screen with one finger on the graphical user interface. Alternatively, as shown in FIG. 8, a long contact gesture input is obtained by simultaneously touching the touch display screen with two fingers. Or, by touching the touch display screen with three fingers at the same time, long contact gesture input and the like are obtained. In an embodiment of the invention, more than one input object such as a finger contacts the touch display screen to obtain a long contact gesture input.
在本发明的其中一些实施例中,可以在触摸显示屏的全屏范围内检测输入对象与触摸显示屏的持续移动接触、或者还可以在划定区域范围内检测输入对象与触摸显示屏的持续移动接触。通过检测的区域范围可以提高触摸控制的精确度,还可以在同一图形用户界面下实现不同控制功能的手势输入的功能区分。In some embodiments of the present invention, continuous moving contact of the input object with the touch display screen may be detected within a full screen range of the touch display screen, or continuous movement of the input object and the touch display screen may also be detected within a defined area. contact. The range of the detected area can improve the accuracy of the touch control, and can also realize the function distinction of the gesture input of different control functions under the same graphical user interface.
例如,在上述步骤S602中,在触摸显示屏上设定的选择区域内检测输入对象与触摸显示屏的持续移动接触。在触摸显示屏上设置平行于备选对象排列方向的选择区域601,在选择区域601内检测输入对象与触摸显示屏的持 续移动接触,用以响应选择区域601内的持续移动接触,从而标记备选对象的属性信息。选择区域601可以如图6所示平行于从上向下的排列方向,或者如图7所示平行于从左到右的排列方向,或者选择区域601还可以沿任意方向设置。For example, in the above step S602, continuous moving contact of the input object with the touch display screen is detected in the selection area set on the touch display screen. A selection area 601 parallel to the arrangement direction of the candidate objects is set on the touch display screen, and the input object and the touch display screen are detected in the selection area 601. The moving contact is continued to respond to the continuous moving contact within the selection area 601 to mark the attribute information of the candidate object. The selection area 601 may be parallel to the arrangement direction from the top to the bottom as shown in FIG. 6, or parallel to the arrangement direction from left to right as shown in FIG. 7, or the selection area 601 may be disposed in any direction.
又例如,在本发明的其中一些实施例中,如图6至图9所示,选择区域601包含上文提到的多个备选对象对应的属性标记显示区域602,或者选择区域601横跨多个备选对象对应的敏感区域。具体地,选择区域601内包括:在同一个图形用户界面600中用于显示每个备选对象所对应的属性信息的属性标记显示区域602,并且,选择区域601的长度延伸方向与属性标记显示区域602的排列方向相同。For another example, in some embodiments of the present invention, as shown in FIGS. 6-9, the selection area 601 includes the attribute mark display area 602 corresponding to the plurality of candidate objects mentioned above, or the selection area 601 spans. A sensitive area corresponding to multiple candidate objects. Specifically, the selection area 601 includes: an attribute mark display area 602 for displaying attribute information corresponding to each candidate object in the same graphical user interface 600, and the length extension direction of the selection area 601 and the attribute mark display The arrangement direction of the regions 602 is the same.
还比如,在本发明的其中一些实施例中,在触摸显示屏上包括至少两个选择区域601,此两个选择区域601可以部分重合。如图7和图9所示,在备选对象对应的敏感区域矩阵排列时,可按照行或列的排列方向平行设置多个选择区域601。或者如图12所示,在备选对象对应的敏感区域排列成表格形式,则沿行和列的排列方向分别设置两个选择区域601,而在沿行排列方向设置的选择区域601内检测输入对象与触摸显示屏的持续移动接触,以确定所选择的行数;在沿列排列方向设置的选择区域601内检测输入对象与触摸显示屏的持续移动接触,以确定所选择的列数,从而根据行数和列数确定所选择的多个备选对象,用以对比观察采样值或者采样图片等等。或者如图13所示,在备选对象对应的敏感区域排列成矩阵形式,则沿行和列的排列方向分别设置两个选择区域601,而在沿行排列方向设置的选择区域601内检测输入对象与触摸显示屏的持续移动接触,以确定所选择的行数;在沿列排列方向设置的选择区域601内检测输入对象与触摸显示屏的持续移动接触,以确定所选择的列数,从而根据行数和列数确定所选择的多个备选对象对应的图形对象,图7中采用突出放大显示的方式来标记被选中状态,用以实现批量选择备选对象。Also for example, in some of the embodiments of the present invention, at least two selection areas 601 are included on the touch display screen, and the two selection areas 601 may partially coincide. As shown in FIG. 7 and FIG. 9, when the sensitive area matrices corresponding to the candidate objects are arranged, the plurality of selection areas 601 may be arranged in parallel in the arrangement direction of the rows or columns. Or, as shown in FIG. 12, when the sensitive areas corresponding to the candidate objects are arranged in a tabular form, two selection areas 601 are respectively disposed along the arrangement direction of the rows and columns, and the input is detected in the selection area 601 disposed along the line arrangement direction. a continuous moving contact of the object with the touch display screen to determine the selected number of rows; detecting a continuous moving contact of the input object with the touch display screen in the selection area 601 disposed along the column arrangement direction to determine the selected number of columns, thereby The selected plurality of candidate objects are determined according to the number of rows and the number of columns, for comparing the observed sample values or sampling pictures and the like. Or, as shown in FIG. 13, when the sensitive areas corresponding to the candidate objects are arranged in a matrix form, two selection areas 601 are respectively disposed along the arrangement direction of the rows and columns, and the input is detected in the selection area 601 disposed along the line arrangement direction. a continuous moving contact of the object with the touch display screen to determine the selected number of rows; detecting a continuous moving contact of the input object with the touch display screen in the selection area 601 disposed along the column arrangement direction to determine the selected number of columns, thereby The graphic objects corresponding to the selected plurality of candidate objects are determined according to the number of rows and the number of columns. In FIG. 7, the selected state is marked by means of a prominent enlarged display for implementing batch selection of the candidate objects.
还比如,为了区分功能可以考虑借助触摸压力的判断来实现,例如,在 步骤S602中,检测输入对象在触摸显示屏上施加的预定压力范围内的持续移动接触。也就是当检测到的接触压力达到预定范围,比如超过一预设压力值时,此时检测到的持续移动接触将用于响应标记多个备选对象的可选状态的手势输入,反之,则可以设定为另一种功能控制的手势输入。本实施例中的压力检测可以借助触摸显示屏中的压力传感器来感知辨识,或者通过手指触摸显示屏时接触面积的大小来判断压力的大小,或者通过在触摸板设置压力传感器来感知触控压力的大小同时检测在触摸板上的持续移动接触、从而间接控制触摸显示屏上光标的移动或选择方式,等等。有关预定压力的范围参照相应硬件检测器件的参数指标来设定。For example, in order to distinguish the function, it can be considered by means of the judgment of the touch pressure, for example, In step S602, a continuous moving contact of the input object within a predetermined pressure range applied on the touch display screen is detected. That is, when the detected contact pressure reaches a predetermined range, such as exceeding a predetermined pressure value, the detected continuous moving contact at this time will be used to respond to the gesture input marking the optional state of the plurality of candidate objects, and vice versa. Can be set to another function controlled gesture input. The pressure detection in this embodiment can be perceived by touching a pressure sensor in the display screen, or the magnitude of the contact area when the finger touches the display screen, or the pressure can be sensed by setting a pressure sensor on the touch panel. The size simultaneously detects continuous moving contact on the touchpad, thereby indirectly controlling the movement or selection of the cursor on the touch display, and the like. The range of the predetermined pressure is set with reference to the parameter specifications of the corresponding hardware detecting device.
当然,上述两种方式还可以综合在一起,从而提高触控的精确度,以及保证单一手势输入可以实现更多的控制策略。例如,步骤S602中,在触摸显示屏上设定的选择区域内,检测输入对象在触摸显示屏上施加的预定压力范围内的持续移动接触。Of course, the above two methods can also be integrated to improve the accuracy of the touch and ensure that a single gesture input can implement more control strategies. For example, in step S602, a continuous moving contact of the input object within a predetermined pressure range applied on the touch display screen is detected in the selected area set on the touch display screen.
此外,对于步骤S620中所检测的持续移动接触可以是沿直线的运动,例如,步骤S620中所检测的持续移动接触可以是沿多个备选对象排列方向的直线运动。或者,还可以是沿斜线运动,等等沿任意运动轨迹的运动。Further, the continuous moving contact detected in step S620 may be a motion along a straight line, for example, the continuous moving contact detected in step S620 may be a linear motion along a plurality of candidate object arrangement directions. Alternatively, it can be a motion along a diagonal line, or the like along any motion trajectory.
在步骤S630中包括,响应所述持续移动接触而标记与持续移动接触相关联的多个备选对象对应的属性信息。本实施例中提到的与持续移动接触“相关联”可以指与在触摸屏上执行的“持续移动接触”这个操作具有预先确定或者预先定义的联系或相关性,例如,备选对象的敏感区域与在触摸显示屏上执行持续移动接触时所对应的操作位置满足预定的位置关系,或者备选对象的敏感区域位于以操作位置为参考的预设范围或预设距离之内、或者备选对象的敏感区域位于持续接触的运动轨迹所跨过的范围,或者其他任何适合方式的联系或相关性。In step S630, the attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact is marked in response to the continuous moving contact. "Associated with" a continuous moving contact as referred to in this embodiment may refer to a predetermined or pre-defined association or correlation with the "continuous mobile contact" operation performed on the touch screen, for example, a sensitive area of an alternate object. The operation position corresponding to the continuous moving contact on the touch display screen satisfies a predetermined positional relationship, or the sensitive area of the candidate object is located within a preset range or preset distance referenced to the operation position, or an alternative object The sensitive area is located within the range spanned by the continually touching trajectory, or any other suitable way of association or correlation.
如图6至图9所示,检测到的持续移动接触可以是沿任意方向在触摸显示屏上实现的运动,而本实施例依据这一运动来确定被选中的备选对象,从而实现批量标记备选对象的可选状态,相比现有技术中通过逐一接触/释放实 现的备选对象一个一个点选的方式更为灵活,用户体验效果更强,提升了触摸屏的功能使用效果。本实施例中相应备选对象的属性信息是否对应标记,是通过在上述持续移动接触的运动过程中,检测当前时刻输入对象接触触摸显示屏时所对应的操作位置,并以该操作位置与备选对象的位置关系来判断的。具体详见下文中的说明。As shown in FIG. 6 to FIG. 9, the detected continuous moving contact may be a motion implemented on the touch display screen in any direction, and the embodiment determines the selected candidate object according to the motion, thereby implementing batch marking. The optional state of the candidate object, compared to the prior art by one-by-one contact/release The current alternative object is more flexible and the user experience is more powerful, which improves the function of the touch screen. Whether the attribute information of the corresponding candidate object in the embodiment corresponds to the mark is to detect the operation position corresponding to the current time input object contacting the touch display screen during the movement of the continuous moving contact, and to use the operation position and the standby position Select the positional relationship of the object to judge. See the description below for details.
在本发明的其中一些实施例中,在上述步骤S630中,对多个备选对象对应的属性信息的标记过程包括以下步骤:In some embodiments of the present invention, in the above step S630, the marking process of the attribute information corresponding to the plurality of candidate objects includes the following steps:
响应持续移动接触生成分别对应于属性信息的标记符号,并在触摸显示屏上与持续移动接触相关联的多个备选对象的相应位置(例如属性标记显示区域)显示标记符号,用以标记与持续移动接触相关联的多个备选对象对应的属性信息。Generating a marker symbol corresponding to the attribute information in response to the continuous movement contact, and displaying a marker symbol on a touch display screen corresponding to a plurality of candidate objects associated with the continuous movement contact (eg, an attribute marker display area) for marking The attribute information corresponding to the plurality of candidate objects associated with the contact is continuously moved.
对于属性信息存在两个相反的可选状态,则在上述步骤S630中,响应所述持续移动接触,而将与持续移动接触相关联的多个备选对象对应的属性信息的当前可选状态标记为,与当前可选状态相反的可选状态。此外,还可以通过以下各个实施例中来实现对属性信息两种相反状态的区分标记。There are two opposite optional states for the attribute information, and in the above step S630, the current optional state flag of the attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact is responded to the continuous moving contact. Is an optional state that is the opposite of the currently selectable state. In addition, distinguishing marks for the opposite states of the attribute information can also be implemented by the following embodiments.
在本发明的其中一些实施例中,在上述步骤S630中,包括执行以下步骤之一:In some embodiments of the present invention, in the above step S630, performing one of the following steps:
响应在第一移动方向上的持续移动接触,标记与持续移动接触相关联的多个备选对象的属性信息的一种可选状态;和,Responding to a continuous moving contact in the first direction of movement, marking an optional state of attribute information of the plurality of candidate objects associated with the continuous moving contact; and,
响应在第二移动方向上的持续移动接触,标记与持续移动接触相关联的多个备选对象的属性信息对应的与所述一种可选状态相反的可选状态。In response to the continuous moving contact in the second direction of movement, an optional state opposite the one of the selectable states corresponding to the attribute information of the plurality of candidate objects associated with the continuous moving contact is marked.
如图14所示的依次从左上图、左下图、右下图、右上图的过程中,左上图中输入对象417在触摸显示屏上沿第一移动方向X上输入持续移动接触,按照持续移动接触在第一移动方向X上的运动,标记多个备选对象的属性信息对应的可选状态以显示表征选中状态的标记符号,图14中在属性标记显示区域602中显示填充黑色的方框表示对应的备选对象被选中。当然,本实施例中还可以通过,标记选择勾、标记圆点等方式来表示对应的备选对象被选 中。右下图中输入对象417在触摸显示屏上沿第二移动方向Y上输入持续移动的接触,按照持续移动接触在第二移动方向Y上的运动,标记多个备选对象的属性信息对应的可选状态以显示表征非选中状态的标记符号,图14中在属性标记显示区域602中显示不填充黑色的方框表示对应的备选对象未被选中。当然,本实施例中还可以通过,标记或不标记选择勾、标记圆点等方式来区分表示对应的备选对象可选状态。In the process of sequentially from the upper left diagram, the lower left diagram, the lower right diagram, and the upper right diagram as shown in FIG. 14, the input object 417 in the upper left diagram inputs a continuous moving contact on the touch display screen in the first movement direction X, according to continuous movement. Touching the motion in the first moving direction X, marking the selectable state corresponding to the attribute information of the plurality of candidate objects to display the mark symbol characterizing the selected state, and displaying the box filled with black in the attribute mark display area 602 in FIG. Indicates that the corresponding candidate object is selected. Certainly, in this embodiment, the corresponding candidate object is selected by means of marking a selection hook, marking a dot, and the like. in. In the lower right figure, the input object 417 inputs a continuously moving contact on the touch display screen in the second moving direction Y, and according to the movement of the continuous moving contact in the second moving direction Y, the attribute information of the plurality of candidate objects is marked. The selectable state is to display a mark symbol characterizing the unselected state, and a box showing no fill black in the attribute mark display area 602 in FIG. 14 indicates that the corresponding candidate object is not selected. Certainly, in this embodiment, the optional state of the corresponding candidate object can be distinguished by marking or not marking the selection hook, marking the dot, and the like.
如图15所示,左图中人的手指通过沿一运动轨迹移动时,该运动轨迹所跨过的敏感区域对应的备选对象均被选中,图中通过突出放大显示来表示选中状态,而右图中沿原运动轨迹返回时,则之前被选中的备选对象将被取消选中状态,视为未选中。当然,取消选中操作时的运动轨迹可以是原运动轨迹的反向,也可以是在确认批量选中前,提示给用户的取消路径。As shown in FIG. 15 , when the finger of the human in the left figure moves along a motion trajectory, the candidate objects corresponding to the sensitive area spanned by the motion trajectory are selected, and the selected state is indicated by the highlighted enlarged display in the figure, and When returning along the original motion track in the right picture, the previously selected candidate object will be unchecked and regarded as unchecked. Of course, the motion track when the operation is unchecked may be the reverse of the original motion track, or may be the cancellation path prompted to the user before confirming the batch selection.
在本实施例中,第一移动方向和第二移动方向可以是一固定方向,也可以是多个可变方向的组合,例如一运动轨迹的切线方向。那么上述持续移动接触在第一移动方向或第二移动方向上的运动可以是沿一固定方向的直线运动,或者是沿可变方向的曲线轨迹运动,或者是沿一固定方向的斜线运动。In this embodiment, the first moving direction and the second moving direction may be a fixed direction, or may be a combination of a plurality of variable directions, such as a tangential direction of a moving track. Then, the motion of the continuous moving contact in the first moving direction or the second moving direction may be a linear motion in a fixed direction, or a curved trajectory movement in a variable direction, or a diagonal motion in a fixed direction.
上述持续移动接触在第一移动方向和第二移动方向的运动轨迹可以是一致的,也可以是不一致的。第一移动方向和第二移动方向可以是相反方向。从而在如图14和图15所示,在同一手势输入下仅通过持续移动接触的运动轨迹的调整,例如方向调整,即可实现选中和非选中的切换,方便使用,提升用户的体验效果,且还可以通过运动轨迹方向的调整增加手势输入的功能。The motion trajectory of the above-mentioned continuous moving contact in the first moving direction and the second moving direction may be uniform or inconsistent. The first moving direction and the second moving direction may be opposite directions. Therefore, as shown in FIG. 14 and FIG. 15 , only the adjustment of the motion track of the continuous moving contact, such as the direction adjustment, can realize the switching of the selected and the unselected under the same gesture input, which is convenient to use and enhance the user experience. It is also possible to increase the function of gesture input by adjusting the direction of the motion track.
当然也可以是,第一移动方向和第二移动方向不相同,但运动轨迹相同。在本发明的其中一些实施例中,上述步骤S630中,响应奇数次持续移动接触,标记上述属性信息的一种可选状态,响应偶数次持续移动接触,标记上述属性信息对应的与所述一种可选状态相反的可选状态。如图14所示,左上图中输入对象417在触摸显示屏上沿第一移动方向X上输入持续移动接触,按照持续移动接触在第一移动方向X上的第一次输入,标记多个备选对象的属性信息对应的可选状态以显示表征选中状态的标记符号、或者标记与当前可选 状态相反的属性信息(即属性信息取反标记);而当输入对象417在触摸显示屏上沿第一移动方向X上输入第二次轨迹相同的持续移动接触时,则标记多个备选对象的属性信息对应的可选状态以显示表征未选中状态的标记符号,或者执行取反标记。Of course, the first moving direction and the second moving direction may be different, but the motion trajectory is the same. In some embodiments of the present invention, in step S630, in response to an odd number of consecutive moving contacts, an optional state of the attribute information is marked, and the attribute information corresponding to the one is marked in response to an even number of consecutive moving contacts. An optional state with an opposite state of the optional state. As shown in FIG. 14, the input object 417 in the upper left diagram inputs a continuous moving contact on the touch display screen in the first moving direction X, and marks the plurality of preparations according to the first input of the continuous moving contact in the first moving direction X. The optional state corresponding to the attribute information of the selected object to display the marked symbol characterizing the selected state, or the mark and the current optional The attribute information of the opposite state (ie, the attribute information is inverted); and when the input object 417 inputs the same continuous moving contact of the second track in the first moving direction X on the touch display screen, the multiple candidate objects are marked. The attribute information corresponds to an optional state to display a tag symbol that characterizes an unselected state, or to perform a negation flag.
此外,处理上述两种实施例提供的如何依据持续移动接触来实现标记的方案,在本发明的其他实施例中还包括以下方式:In addition, the solution for how to implement the marking according to the continuous moving contact provided by the above two embodiments is further included in the other embodiments of the present invention:
比如,响应持续移动接触的初始运动轨迹,标记上述属性信息的一种可选状态,响应持续移动接触过程中偏离所述运动轨迹的运动,标记上述属性信息对应的与所述一种可选状态相反的可选状态。在本实施例中,持续监测接触的运动轨迹,判断持续移动接触的运动轨迹是否偏离初始运动轨迹,若是,则依据偏离运动轨迹的运动标记属性信息对应的与一种状态相反的可选状态,反之则标记属性信息的一种可选状态。这里的初始运动轨迹是指,在检测到持续移动接触的开始一段时间内根据接触运动的初始运动方向、移动速度来预判的运动的轨迹。例如,根据初始一段时间内检测到持续移动接触具有固定的移动方向和移动速度,则预判初始运动轨迹即沿初始移动方向的运动轨迹。上述持续移动接触的运动偏离上述初始轨迹可以是偏离初始轨迹的切线方向、偏离初始轨迹的预期轨迹等等。For example, in response to an initial motion trajectory of the continuous moving contact, marking an optional state of the attribute information, and responding to the motion deviating from the motion trajectory during the continuous moving contact, marking the attribute information corresponding to the one optional state The opposite optional state. In this embodiment, the motion trajectory of the contact is continuously monitored, and it is determined whether the motion trajectory of the continuous moving contact deviates from the initial motion trajectory, and if so, the motion marker attribute information deviating from the motion trajectory corresponds to an optional state opposite to a state, Otherwise, an optional state of the attribute information is marked. The initial motion trajectory herein refers to a trajectory of motion predicted based on the initial motion direction and the moving speed of the contact motion for a period of time from the start of detecting the continuous moving contact. For example, based on the detection that the continuous moving contact has a fixed moving direction and moving speed within the initial period of time, the initial motion trajectory, that is, the motion trajectory along the initial moving direction, is predicted. The motion of the continuous moving contact described above may be a tangential direction deviating from the initial trajectory, an expected trajectory deviating from the initial trajectory, or the like.
又比如,当上述持续移动接触位于在触摸显示屏上设定的选择区域内时,标记上述属性信息的一种可选状态,当持续移动接触位于在触摸显示屏上设定的选择区域外时,标记上述属性信息对应的与所述一种可选状态相反的可选状态。例如,如图14所示,左上图中输入对象417在触摸显示屏上的选择区域601内沿第一移动方向X上输入持续移动接触,标记多个备选对象的属性信息对应的可选状态以显示表征选中状态的标记符号、或者属性信息取反标记;而当检测到输入对象417在触摸显示屏上的持续移动接触位于选择区域601之外时,则标记多个备选对象的属性信息对应的可选状态以显示表征未选中状态的标记符号,或者执行取反标记。For another example, when the continuous moving contact is located in the selected area set on the touch display screen, an optional state of the attribute information is marked when the continuous moving contact is outside the selected area set on the touch display screen. And marking an optional state corresponding to the one optional state corresponding to the attribute information. For example, as shown in FIG. 14, the input object 417 in the upper left diagram inputs a continuous moving contact in the first moving direction X in the selection area 601 on the touch display screen, and marks the optional state corresponding to the attribute information of the plurality of candidate objects. Marking the marked symbol characterizing the selected state or the attribute information inversion flag; and when detecting that the continuous moving contact of the input object 417 on the touch display screen is outside the selected area 601, marking the attribute information of the plurality of candidate objects Corresponding optional states to display tag symbols that characterize unselected states, or to perform negation tags.
在本发明的一些实施例中,在步骤S630中,被标记的备选对象包括与当 前时刻输入对象接触触摸显示屏时所对应的操作位置相关联的备选对象,其中相关联的备选对象至少包括以下情况中的一种:In some embodiments of the present invention, in step S630, the marked candidate objects are included and The candidate object associated with the operation position corresponding to the touch object when the input object touches the touch display screen, wherein the associated candidate object includes at least one of the following conditions:
第一、敏感区域位于以上述操作位置为参考的预设范围或预设距离之内的备选对象。每个备选对象在触摸显示屏上的图形用户界面上均设置有相应的敏感区域,用于显示每个备选对象的相关索引信息或标记符号输入框在图形用户界面上对应的图形对象,那么根据敏感区域与接触触摸显示屏时所对应的操作位置之间的位置关系来确定是否选择该敏感区域对应的备选对象。The first sensitive area is located in a preset range or a preset distance within a preset distance referenced by the above operating position. Each candidate object is provided with a corresponding sensitive area on the graphical user interface on the touch display screen for displaying relevant index information of each candidate object or a corresponding graphic object of the marker symbol input box on the graphical user interface. Then, according to the positional relationship between the sensitive area and the operation position corresponding to the touch display screen, it is determined whether the candidate object corresponding to the sensitive area is selected.
例如,敏感区域位于上述操作位置附近的备选对象。这里的附近可以理解为,接触触摸显示屏时所对应的操作位置位于敏感区域之内,或与敏感区域部分重叠,或操作位置位于敏感区域的边缘位置。For example, the sensitive area is an alternate object located near the above operational location. In the vicinity, it can be understood that the corresponding operation position when contacting the touch display screen is located within the sensitive area, or partially overlaps with the sensitive area, or the operating position is located at the edge position of the sensitive area.
假设如图16(a)至(c)所示,以触摸显示屏的长宽分别为Y和X轴建立直角坐标系,那么图形用户界面600上显示的每个像素点均可以一个直角坐标表示,而敏感区域604可以确定为一像素点区域,接触触摸显示屏时所对应的操作位置605也可以用直角坐标系中的一个坐标位置或一个坐标位置块(即包括多个邻近的坐标位置)来表示。Assume that, as shown in FIGS. 16(a) to (c), a rectangular coordinate system is established for the length and width of the touch display screen for the Y and X axes, respectively, and each pixel displayed on the graphical user interface 600 can be represented by a rectangular coordinate. The sensitive area 604 can be determined as a pixel point area, and the corresponding operation position 605 when contacting the touch display screen can also use one coordinate position in the Cartesian coordinate system or a coordinate position block (ie, including multiple adjacent coordinate positions). To represent.
于是,如图16(a)所示,手指与触摸屏接触所对应的操作位置605,敏感区域604位于上述操作位置605附近可以包括:操作位置605对应的坐标位置或坐标位置块位于敏感区域604对应的像素点区域内,或者操作位置605对应的坐标位置位于敏感区域604对应的像素点区域的边缘位置,或者操作位置605对应的坐标位置块与敏感区域604对应的像素点区域部分重叠。Therefore, as shown in FIG. 16( a ), the operating position 605 corresponding to the contact of the finger with the touch screen, and the sensitive area 604 located near the operating position 605 may include: the coordinate position corresponding to the operating position 605 or the coordinate position block is located in the sensitive area 604. In the pixel area, the coordinate position corresponding to the operation position 605 is located at the edge position of the pixel area corresponding to the sensitive area 604, or the coordinate position block corresponding to the operation position 605 partially overlaps the pixel area corresponding to the sensitive area 604.
还例如,敏感区域604的部分位于以上述操作位置为中心的预设位置范围内的备选对象。敏感区域604对应的像素点区域的部分位于以上述操作位置605为中心的预设位置范围内,这里的预设范围可以设定为以上述操作位置605为中心、半径为10个像素点的范围。Also for example, the portion of the sensitive area 604 is located in an alternate object within a predetermined range of positions centered on the operational position described above. The portion of the pixel area corresponding to the sensitive area 604 is located within a preset position range centered on the above-mentioned operation position 605, and the preset range here may be set to a range of 10 pixels with the radius of the operation position 605 as the center. .
又例如,敏感区域604与上述操作位置的距离在预设距离之内的备选对象。预设距离可以设定为10个像素点或5个像素点等等。而敏感区域604与上述操作位置的距离计算可以是,敏感区域604边缘到上述操作位置605的 坐标位置块中心位置的距离,或者敏感区域604边缘到上述操作位置605的坐标位置块边缘位置的距离,或者敏感区域604边缘与上述操作位置605的坐标位置块边缘位置之间的距离。For another example, the sensitive area 604 is an alternate object within a predetermined distance from the above-described operating position. The preset distance can be set to 10 pixels or 5 pixels, and so on. The distance between the sensitive area 604 and the above-mentioned operating position may be calculated from the edge of the sensitive area 604 to the operating position 605. The distance from the center position of the coordinate position block, or the distance from the edge of the sensitive area 604 to the edge position of the coordinate position block of the above-described operating position 605, or the distance between the edge of the sensitive area 604 and the edge position of the coordinate position block of the above-described operating position 605.
为了能够精确响应输入对象与触摸显示屏的持续移动接触,并精确获取被选择的备选对象,则在本发明的一些实施例中,如图16(b)所示,当备选对象的敏感区域604与上述操作位置605的重叠坐标区域占上述操作位置605对应的坐标区域的比例大于预设比例时,该备选对象为与接触触摸显示屏所对应的操作位置相关联的备选对象,需要被标记。如图16(b)所示,当操作位置605依次通过位置605a、605b、605c、605d时,备选对象目1标记选中、备选对象目2标记选中、备选对象目3标记未选中、备选对象目3标记选中。本实施例中的比例可以是50%。如图16(c)所示,上述备选对象的敏感区域可以是用于显示备选对象可选状态标记符号的属性标记显示区域602,而当操作位置605依次通过位置605a、605b、605c、605d时,备选对象目1标记选中、备选对象目2标记选中、备选对象目3标记未选中、备选对象目3标记选中。In order to be able to accurately respond to the continuous moving contact of the input object with the touch display screen and to accurately obtain the selected candidate object, in some embodiments of the invention, as shown in Figure 16 (b), when the candidate object is sensitive When the ratio of the overlapping coordinate area of the area 604 to the operation position 605 to the coordinate area corresponding to the operation position 605 is greater than a preset ratio, the candidate object is an candidate object associated with the operation position corresponding to the touch touch screen display. Need to be marked. As shown in FIG. 16(b), when the operation position 605 sequentially passes through the positions 605a, 605b, 605c, 605d, the candidate object 1 mark is selected, the candidate object 2 mark is selected, and the candidate object 3 mark is not selected. The optional object 3 tag is selected. The ratio in this embodiment may be 50%. As shown in FIG. 16(c), the sensitive area of the candidate object may be an attribute mark display area 602 for displaying an optional object selectable state mark symbol, and when the operation position 605 sequentially passes through the position 605a, 605b, 605c, In 605d, the candidate object 1 tag is selected, the candidate object 2 tag is selected, the candidate object 3 tag is not selected, and the candidate object 3 tag is selected.
又或者,备选对象的敏感区域的中心重合于所述操作位置所在的坐标区域的中心。备选对象的敏感区域中心包括中心点、中心线、中心斑点等等。如图16(b)所示,备选对象的敏感区域的中心可以是沿X方向的中心线,当其与操作位置(605a、605b、605c、605d)所在的坐标区域沿X方向的中心线重合时,则标记该备选对象的可选状态。如图16(c)所示,上述备选对象的敏感区域可以是用于显示备选对象可选状态标记符号的属性标记显示区域602,那么当属性标记显示区域602的中心点或中心斑点重合于操作位置(605a、605b、605c、605d)所在的坐标区域的中心点或中心斑点时,则标记该备选对象的可选状态。Still alternatively, the center of the sensitive area of the candidate object coincides with the center of the coordinate area in which the operating position is located. The sensitive area center of the candidate object includes a center point, a center line, a center spot, and the like. As shown in FIG. 16(b), the center of the sensitive area of the candidate object may be the center line along the X direction, and the center line along the X direction when it is in the coordinate area with the operation position (605a, 605b, 605c, 605d). When coincident, the optional state of the candidate object is marked. As shown in FIG. 16(c), the sensitive area of the above candidate object may be the attribute mark display area 602 for displaying the candidate object selectable state mark symbol, then when the center point or the center spot of the attribute mark display area 602 coincides When the center point or the center spot of the coordinate area in which the operation position (605a, 605b, 605c, 605d) is located, the optional state of the candidate object is marked.
第二、输入对象与触摸显示屏的持续接触的运动轨迹所跨过的敏感区域对应的备选对象。这里提到的运动轨迹所跨过的敏感区域对应的备选对象可以是包括:跨过的部分敏感区域对应的备选对象、或跨过的所有敏感区域对 应的备选对象。这里的敏感区域可以是用于显示备选对象可选状态标记符号的属性标记显示区域602,或者是用于显示备选对象索引信息的信息展示区域603。Second, the candidate object corresponding to the sensitive area spanned by the motion track of the continuous contact of the input screen. The candidate object corresponding to the sensitive area spanned by the motion track mentioned herein may be: an alternative object corresponding to the partially sensitive area spanned, or all pairs of sensitive areas spanned Alternative object should be. The sensitive area herein may be an attribute mark display area 602 for displaying an alternative object selectable state mark symbol, or an information display area 603 for displaying alternate object index information.
如图15所示,上图是沿着第一个轨迹进行持续移动接触后进行备选对象标记的方式,标记选中时是突出放大显示。下图是沿着第一个轨迹的反向轨迹进行取消选中的方式,取消标记选中时是不突出放大显示,而恢复到原始状态。本实施例中,只要是持续移动接触对应的操作位置沿着运动轨迹跨过敏感区域的边缘、中心区域等其中任意一个区域范围,则视为选择了该图形对象对应的备选对象,并对应执行标记操作。As shown in FIG. 15, the upper figure is a method of performing an alternate object mark after continuously moving contact along the first track, and when the mark is selected, it is highlighted and enlarged. The figure below is the way to uncheck the reverse trajectory along the first trajectory. When the unmark is selected, it does not highlight the enlarged display and returns to the original state. In this embodiment, as long as the corresponding operation position of the continuous moving contact crosses the edge of the sensitive area along the edge of the sensitive area, the central area, and the like, the candidate object corresponding to the graphic object is selected and corresponding Perform a tag operation.
上文中已对上述步骤S630中如何根据持续移动接触来标记属性信息的两种相反状态,那么下文中将详细介绍如何根据持续移动接触来执行标记操作。在本发明的其中一些实施例中,在上述步骤S630步骤中,可以依据上述持续移动接触的运动轨迹或者方向来完成对多个备选对象的可选状态的标记。How the two opposite states of the attribute information are marked according to the continuous moving contact in the above step S630 has been described above, and then how the marking operation is performed according to the continuous moving contact will be described in detail below. In some of the embodiments of the present invention, in the step S630 above, the marking of the selectable states of the plurality of candidate objects may be completed according to the motion trajectory or direction of the continuous moving contact.
例如,如图17所示,沿上述持续移动接触的运动方向,依序连续标记多个备选对象对应的属性信息。在本实施例中,通过检测输入对象与触摸显示屏的持续移动接触,并跟踪检测每一时刻持续移动接触对应的操作位置,来确定每一个时刻接触所选择的备选对象,从而按照上述持续移动接触的运动方向获得连续多个时刻的操作位置所对应的选择的备选对象,然后按照时间先后顺序依序标记多个备选对象的属性信息。For example, as shown in FIG. 17, the attribute information corresponding to the plurality of candidate objects is continuously marked in sequence along the moving direction of the continuous moving contact. In this embodiment, by detecting continuous contact contact between the input object and the touch display screen, and tracking and detecting the operation position corresponding to the continuous moving contact at each moment, it is determined that each selected moment contacts the selected candidate object, thereby continuing according to the above The moving direction of the moving contact obtains the selected candidate objects corresponding to the operation positions of the plurality of times at a time, and then sequentially marks the attribute information of the plurality of candidate objects in chronological order.
信息列表采用表格形式显示在触摸显示屏上,沿备选对象的排列方向持续移动输入对象与触摸显示屏的接触,沿上述持续移动接触的运动方向,依序连续标记信息列表中备选对象目1至备选对象目7多个备选对象的属性信息为选中,并显示表征选中状态的标记符号。图17中虽然提供的是表格形式显示的信息列表,但是此依序标记的方式依然也适用于上述非表格形式显示的信息列表,例如随机方式排列的备选对象。The information list is displayed on the touch display screen in the form of a table, and the contact between the input object and the touch display screen is continuously moved along the arrangement direction of the candidate object, and the candidate objects in the information list are continuously marked in sequence along the moving direction of the continuous moving contact. 1 to the candidate object 7 The attribute information of the plurality of candidate objects is selected, and the mark symbol characterizing the selected state is displayed. Although the information list displayed in the form of a table is provided in FIG. 17, the manner of sequentially marking is also applicable to the information list displayed in the above non-table form, such as an alternate object arranged in a random manner.
另外,参照图17可以是按照上述持续移动接触在第一移动方向(例如,图17中的X方向)上的运动,依序连续标记多个备选对象的属性信息以显示 表征选中状态的标记符号;然后取消选中时,也可以参照图17,按照上述持续移动接触在第二移动方向(例如,图17中X方向的反向)上的运动,依序连续标记多个备选对象的属性信息以显示表征非选中状态的标记符号,即取消显示表征选中状态的标记符号。In addition, referring to FIG. 17, the attribute information of the plurality of candidate objects may be continuously marked in order to display the motion of the continuous moving contact in the first moving direction (for example, the X direction in FIG. 17). Characterizing the selected symbol of the selected state; then, when deselected, referring to FIG. 17, the motion of the continuous moving contact in the second moving direction (for example, the reverse direction of the X direction in FIG. 17) is successively marked in sequence. The attribute information of the candidate object is used to display the mark symbol characterizing the unselected state, that is, the mark symbol characterizing the selected state is cancelled.
本实施例中可以依据上述持续移动接触的运动方向,依次逐一选中相应备选对象来进行选中或非选中状态的标记。In this embodiment, according to the moving direction of the continuous moving contact, the corresponding candidate objects are sequentially selected one by one to perform marking in the selected or unselected state.
又例如,在本发明的其中一些实施例中,如图18所示,同时标记上述持续移动接触的运动轨迹所跨过的所有备选对象对应的属性信息。在本实施例中,通过检测输入对象与触摸显示屏的持续移动接触,并跟踪检测每一段时间持续移动接触对应的连续操作位置,来确定每一段时间接触所选择的备选对象,从而按照上述持续移动接触的运动轨迹获得一段时间内连续操作位置所对应的选择的备选对象,然后同时标记此连续操作位置所对应的选择的备选对象的属性信息。For another example, in some of the embodiments of the present invention, as shown in FIG. 18, attribute information corresponding to all candidate objects spanned by the motion trajectory of the continuous moving contact is simultaneously marked. In this embodiment, by detecting a continuous moving contact of the input object with the touch display screen, and tracking the continuous operation position corresponding to the continuous moving contact for each period of time, determining that the selected candidate object is contacted every time period, thereby The motion track of the continuous moving contact obtains the selected candidate object corresponding to the continuous operation position for a period of time, and then simultaneously marks the attribute information of the selected candidate object corresponding to the continuous operation position.
在图18中,每一次的持续移动接触时运动轨迹所跨过的所有备选对象的可选状态,被同时进行标记。当输入对象417从备选对象目1的敏感区域持续运动到备选对象目4的敏感区域时,则表示同时选择了备选对象目1至备选对象目4,并同时对备选对象目1至备选对象目4进行标记,以同时显示表征选中状态的标记符号。当输入对象417从备选对象目5的敏感区域持续运动到备选对象目7的敏感区域时,则表示同时选择了备选对象目5至备选对象目7,并同时对备选对象目5至备选对象目7进行标记,以同时显示表征选中状态的标记符号。In Figure 18, the selectable states of all candidate objects spanned by the motion trajectory for each successive moving contact are simultaneously marked. When the input object 417 continuously moves from the sensitive area of the candidate object 1 to the sensitive area of the candidate object 4, it means that the candidate object 1 to the candidate object 4 are simultaneously selected, and the candidate object is simultaneously selected. 1 to the candidate object 4 is marked to simultaneously display the marker symbol characterizing the selected state. When the input object 417 continuously moves from the sensitive area of the candidate object 5 to the sensitive area of the candidate object 7, it means that the candidate object 5 to the candidate object 7 are simultaneously selected, and at the same time, the candidate object is selected. 5 to the candidate object 7 is marked to simultaneously display the marker symbol characterizing the selected state.
反之,参照图18可以是按照上述持续移动接触在第一移动方向(例如,图17中的X方向)上的运动,同时标记上述持续移动接触的运动轨迹所跨过的所有备选对象的属性信息,以显示表征选中状态的标记符号;然后取消选中时,也可以参照图18,按照上述持续移动接触在第二移动方向(例如,图17中X方向的反向)上的运动,同时标记上述持续移动接触的运动轨迹所跨过的所有备选对象的属性信息,以显示表征非选中状态的标记符号,即取消 显示表征选中状态的标记符号。Conversely, referring to FIG. 18, it may be a motion of the continuous moving contact in the first moving direction (for example, the X direction in FIG. 17) while marking the attributes of all the candidate objects spanned by the motion trajectory of the above-described continuous moving contact. Information to display a mark symbol characterizing the selected state; then, when unchecked, reference may also be made to FIG. 18 to continuously move the contact in the second moving direction (for example, the reverse direction of the X direction in FIG. 17) while marking The attribute information of all candidate objects spanned by the motion trajectory of the above continuous moving contact to display the mark symbol representing the unselected state, ie cancel Displays the marker symbol that characterizes the selected state.
本实施例中可以依据上述持续移动接触的运动轨迹,可同时对选中的多个备选对象来进行选中或非选中状态的标记。In this embodiment, according to the motion track of the continuous moving contact, the selected multiple candidate objects may be marked in the selected or unselected state at the same time.
再例如,在本发明的其中一些实施例中,还可以按照上述持续移动接触的运动轨迹变化,跳跃标记上述持续移动接触的运动轨迹所跨过的多个备选对象中对应的属性信息。For example, in some embodiments of the present invention, the corresponding attribute information of the plurality of candidate objects spanned by the motion track of the continuous moving contact may be skipped according to the change of the motion track of the continuous moving contact.
在本实施例中,可以通过检测输入对象与触摸显示屏的持续移动接触,跟踪检测每一时刻持续移动接触所对应的连续操作位置,形成运动轨迹,分析该运动轨迹的变化,判断持续移动接触是否偏离初始轨迹,若是则不标记偏离运动轨迹下与持续移动接触对应的操作位置相关联的备选对象的选中状态,若否则标记偏离运动轨迹下与持续移动接触对应的操作位置相关联的备选对象的选中状态。具体地,如图19所示,沿上述持续移动接触的初始轨迹的移动方向、依序连续标记多个备选对象的属性信息,或者同时标记上述初始轨迹所跨过的所有备选对象的属性信息;当上述持续移动接触的运动偏离上述初始轨迹时,响应偏离上述初始轨迹后的持续移动接触,不响应接触的运动执行标记操作;而当上述持续移动接触的运动回归上述初始轨迹时,响应回归上述初始轨迹后的上述持续移动接触,标记多个备选对象的属性信息。In this embodiment, by detecting the continuous moving contact between the input object and the touch display screen, tracking and detecting the continuous operation position corresponding to the continuous moving contact at each moment, forming a motion trajectory, analyzing the change of the motion trajectory, and determining the continuous moving contact Whether it deviates from the initial trajectory, and if so, does not mark the selected state of the candidate object associated with the operating position corresponding to the continuous moving contact under the motion trajectory, if otherwise the marker deviates from the trajectory associated with the operating position corresponding to the continuous moving contact under the motion trajectory Select the selected state of the object. Specifically, as shown in FIG. 19, the attribute information of the plurality of candidate objects is continuously marked sequentially along the moving direction of the initial trajectory of the continuous moving contact, or the attributes of all the candidate objects spanned by the initial trajectory are simultaneously marked. Information; when the motion of the continuous moving contact deviates from the initial trajectory, the continuation of the moving contact after the deviation from the initial trajectory, the marking operation is performed not in response to the movement of the contact; and when the motion of the continuous moving contact returns to the initial trajectory, the response The above continuous moving contact after returning to the above initial trajectory marks attribute information of a plurality of candidate objects.
上述持续移动接触的运动偏离上述初始轨迹可以是偏离初始轨迹的切线方向、偏离初始轨迹的预期轨迹等等,例如,如图19所示,虚线箭头表示输入对象与触摸显示屏的持续移动接触的运动方向,它的初始运动轨迹可以是沿着备选对象排列方向的一条直线,当沿上述持续移动接触的直线轨迹的移动方向、依序连续标记多个备选对象(备选对象目1至备选对象目4)的属性信息,或者同时标记上述直线轨迹所跨过的所有备选对象(备选对象目1至备选对象目4)的可选状态;当上述持续移动接触偏离上述直线轨迹时,即上述持续移动接触脱离了直线轨迹或者上述持续移动接触偏离了上述直线轨迹的切线方向,则响应偏离上述直线轨迹后的上述持续移动接触,不标记与此时的持续移动接触对应于触摸显示屏的操作位置相关联的备选对象(备选对象 目6至备选对象目7)的属性信息;反之,当上述持续移动接触回归上述直线轨迹时,响应回归上述初始轨迹后的上述持续移动接触运动,标记与此时的持续移动接触对应于触摸显示屏的操作位置相关联的备选对象(备选对象目8至备选对象目9)的属性信息。The movement of the continuous moving contact from the initial trajectory may be a tangential direction deviating from the initial trajectory, an expected trajectory deviating from the initial trajectory, etc., for example, as shown in FIG. 19, the dotted arrow indicates continuous contact of the input object with the touch display screen. The direction of motion, its initial motion trajectory may be a straight line along the direction in which the candidate objects are arranged, and a plurality of candidate objects are successively marked in sequence along the moving direction of the linear trajectory of the above continuous moving contact (alternative object 1 to Attribute information of the candidate object 4), or an optional state of all candidate objects (alternative object 1 to candidate object 4) spanned by the above-mentioned straight trajectory; when the above continuous moving contact deviates from the above straight line In the case of the trajectory, that is, the continuous moving contact deviates from the linear trajectory or the continuous moving contact deviates from the tangential direction of the linear trajectory, and the continuous moving contact after the deviation from the linear trajectory is not marked, and the continuous moving contact with the mark does not correspond to Touching the candidate object associated with the operating position of the display (alternative object) Attribute information of item 6 to candidate object 7); conversely, when the above-mentioned continuous moving contact returns to the above-mentioned linear trajectory, in response to the above-mentioned continuous moving contact motion after returning to the above initial trajectory, the mark and the continuous moving contact at this time correspond to the touch The attribute information of the candidate objects (alternative object 8 to candidate object 9) associated with the operational position of the display screen.
此外,在依据持续移动接触的运动轨迹变化、跳跃标记上述持续移动接触的运动轨迹所跨过的多个备选对象对应的属性信息步骤中,还可以通过其他方式来实现,例如如图20所示。通过检测输入对象与触摸显示屏的持续接触是否一直位于在触摸显示屏上设定的选择区域601内(有关选择区域601的定义可参见前文所述,在此不再累述),当持续移动接触位于选择区域601之外,则响应选择区域601外的持续移动接触,不标记与此时的持续移动接触对应于触摸显示屏的操作位置相关联的备选对象(备选对象6至备选对象7)的可选状态,以显示表征未选中状态的标记符号;当持续移动接触位于选择区域601之内,则响应选择区域601内的上述持续移动接触,标记与此时的持续移动接触对应于触摸显示屏的操作位置相关联的备选对象(备选对象1至备选对象5、备选对象8至备选对象9)的可选状态,以显示表征选中状态的标记符号。通过判断持续移动接触是否超过设定的选择区域,来对运动估计的变化进行判断,并在一次手势输入中对多个备选对象目(备选对象1至备选对象9)进行选中和非选中的同时标记,方便用户操作,提升用户体验。In addition, in the step of attribute information corresponding to the plurality of candidate objects that the trajectory of the continuous moving contact is traversed according to the change of the motion trajectory of the continuous moving contact, the method may further be implemented by other means, for example, as shown in FIG. 20 Show. By detecting whether the continuous contact of the input object with the touch display screen is always located in the selection area 601 set on the touch display screen (for the definition of the selection area 601, see the foregoing description, which will not be described here), when moving continuously The contact is located outside of the selection area 601, then in response to the continuous moving contact outside the selection area 601, does not mark an alternate object associated with the continuous moving contact at this time corresponding to the operational position of the touch display screen (alternative object 6 to alternative An optional state of the object 7) to display a mark symbol characterizing the unselected state; when the continuous moving contact is located within the selected area 601, responding to the above-described continuous moving contact in the selected area 601, the mark corresponds to the continuous moving contact at this time An optional state of the candidate objects (alternate object 1 to candidate object 5, candidate object 8 to candidate object 9) associated with the operational position of the touch screen display to display the marker symbol characterizing the selected state. Judging the change of the motion estimation by judging whether the continuous moving contact exceeds the set selection area, and selecting and selecting a plurality of candidate object objects (alternative object 1 to candidate object 9) in one gesture input Marked at the same time, it is convenient for users to operate and enhance the user experience.
在本发明的其中一些实施例中,上述方法还包括:在触摸显示屏上不再检测到上述持续移动接触时,标记备选对象的属性信息,直到标记完与最后时刻的持续移动接触对应于触摸显示屏上的操作位置相关联的最后一个备选对象。具体地,实时监控输入对象与触摸显示屏的接触是否被释放,若是,则在触摸显示屏上将不再检测到上述持续移动接触,那么视为一次手势输入结束,即上述持续移动接触结束,那么标记就停止在上述持续移动接触结束前,对关联于最后时刻的持续移动接触对应的操作位置的备选对象的可选状态。 In some embodiments of the present invention, the method further includes: marking the attribute information of the candidate object when the continuous moving contact is no longer detected on the touch display screen until the continuous moving contact with the last moment is corresponding to the marking Touch the last candidate object associated with the operating position on the display. Specifically, the real-time monitoring whether the contact of the input object with the touch display screen is released, and if so, the continuous moving contact is no longer detected on the touch display screen, and then the end of the gesture input is ended, that is, the continuous moving contact ends. The marker then stops the optional state of the candidate object associated with the corresponding operational position of the continuous movement contact associated with the last moment before the end of the continuous moving contact.
在本发明的其中一些实施例中,如图21所示,在执行上述步骤S610在触摸显示屏上显示包含多个备选对象的信息列表,并在触摸显示屏的图形用户界面600上显示信息列表的一部分,其余部分未显示在同一图形用户界面600上,则为了能对显示信息列表中其余部分中的备选对象进行标记,则还可通过以下方式实现。在本实施例的方法中还包括:In some embodiments of the present invention, as shown in FIG. 21, a list of information including a plurality of candidate objects is displayed on the touch display screen and the information is displayed on the graphical user interface 600 of the touch display screen, as described above. Part of the list, the rest of which is not displayed on the same graphical user interface 600, can be implemented in the following manner in order to be able to mark alternative objects in the rest of the displayed information list. The method in this embodiment further includes:
监测上述持续移动接触是否移动到上述信息列表的边缘显示位置处,其中,当上述持续移动接触停止在上述信息列表的边缘显示位置处、并保持与触摸显示屏持续接触时,在第一方向上移动显示在触摸显示屏上的显示信息列表以显示上述信息列表的其余部分,并标记上述其余部分中的备选对象的对应的属性信息。Monitoring whether the continuous moving contact moves to an edge display position of the information list, wherein when the continuous moving contact stops at an edge display position of the information list and remains in continuous contact with the touch display screen, in the first direction The display information list displayed on the touch display screen is moved to display the remaining portion of the above information list, and the corresponding attribute information of the candidate objects in the remaining portions is marked.
如图21所示,本实施例中的边缘显示位置702是指信息列表的部分或全部在图形用户界面600上进行显示的显示区域的边缘位置,例如,边缘位置可以是指图形用户界面600上用于显示信息列表的部分或全部的显示区域(图21中的701)的边界附近,或者,还可以是指图形用户界面600上用于显示信息列表的部分或全部的显示区域中最后一个或者第一个备选对象对应的敏感区域(如图21中的备选对象目9对应的敏感区域)。图21中的左上图中,输入对象417沿着虚线箭头下移时并通过轨迹变化选中备选对象目1至备选对象目5和备选对象目8至备选对象目9时,实时监控输入对象与触摸显示屏的持续移动接触是否移动到上述信息列表的边缘显示位置702处。图21中的左下图中,当上述持续移动接触停止在上述信息列表的边缘显示位置702处、并保持与触摸显示屏持续接触时,在第一方向(图21中黑色短箭头703)上移动显示在触摸显示屏上的显示信息列表,以显示上述信息列表的其余部分,并响应与触摸显示屏持续接触,标记依次显示的上述其余部分中的备选对象(备选对象目10到备选对象目12)的属性信息。这里的第一方向可以是沿备选对象目排列的方向,例如,可以是图21中的黑色短箭头703的指向方向,也可以是与图21中黑色短箭头703的指向方向相垂直的方向(如水平向左或向右),或者还可以是图7、图9和图13中图形对象的水平或垂 直排列方向。As shown in FIG. 21, the edge display position 702 in this embodiment refers to an edge position of a display area in which part or all of the information list is displayed on the graphic user interface 600. For example, the edge position may refer to the graphical user interface 600. The vicinity of the boundary of the display area (701 in FIG. 21) for displaying part or all of the information list, or may also refer to the last one of the display areas on the graphical user interface 600 for displaying part or all of the information list or The sensitive area corresponding to the first candidate object (such as the sensitive area corresponding to the candidate object 9 in FIG. 21). In the upper left diagram of FIG. 21, when the input object 417 is moved down the dotted arrow and the candidate object 1 to the candidate object 5 and the candidate object 8 to the candidate object 9 are selected by the trajectory change, real-time monitoring is performed. Whether the continuous moving contact of the input object with the touch display screen moves to the edge display position 702 of the above information list. In the lower left diagram of FIG. 21, when the above-described continuous moving contact stops at the edge display position 702 of the above-described information list and remains in continuous contact with the touch display screen, it moves in the first direction (black short arrow 703 in FIG. 21). A list of display information displayed on the touch display screen to display the remaining portion of the above information list, and in response to continuous contact with the touch display screen, the candidate objects in the remaining portions of the above-described display are sequentially displayed (alternative object 10 to candidate) Attribute information of object 12). The first direction here may be a direction along the alternate object, for example, may be the pointing direction of the black short arrow 703 in FIG. 21, or may be the direction perpendicular to the pointing direction of the black short arrow 703 in FIG. (such as horizontal to the left or right), or can also be the horizontal or vertical of the graphical object in Figure 7, Figure 9, and Figure 13. Straight the direction.
此外,如图21中,在第一方向上移动上述显示信息列表以显示上述信息列表的其余部分的步骤中,在第一方向上移动显示在触摸显示屏上的显示信息列表,并逐一显示上述信息列表的其余部分中的备选对象。从图21中的左下图至右上图中,当上述持续移动接触停止在上述信息列表的边缘显示位置702处、并保持与触摸显示屏持续接触时,在第一方向上移动显示在触摸显示屏上的显示信息列表,并逐一显示上述信息列表的其余部分中的备选对象(备选对象目10到备选对象目12),逐一标记备选对象目10到备选对象目12对应的属性信息为选中,并显示用以表征选中状态的标识符号。Further, as shown in FIG. 21, in the step of moving the display information list in the first direction to display the remaining portion of the information list, moving the display information list displayed on the touch display screen in the first direction, and displaying the above one by one An alternate object in the rest of the information list. From the lower left diagram to the upper right diagram in FIG. 21, when the above-mentioned continuous moving contact is stopped at the edge display position 702 of the above information list and kept in constant contact with the touch display screen, the movement is displayed on the touch display screen in the first direction. Displaying a list of information on the display, and displaying the candidate objects (alternative object 10 to candidate object 12) in the remaining part of the above information list one by one, and marking the attributes corresponding to the candidate object 10 to the candidate object 12 one by one The information is selected and displays the identification symbol used to characterize the selected state.
除了图21中逐一显示其余部分中的备选对象的方式外,还可以在第一方向上移动显示在触摸显示屏上的显示信息列表时,每次移动显示信息列表以显示所述信息列表的其余部分时,显示多个备选对象。In addition to the manner in which the candidate objects in the remaining portions are displayed one by one in FIG. 21, when the display information list displayed on the touch display screen is moved in the first direction, the display information list is moved each time to display the information list. For the rest, multiple alternative objects are displayed.
当然,本实施例中,在第一方向上移动显示在触摸显示屏上的显示信息列表的步骤中,每次移动显示信息列表以显示所述信息列表的其余部分的一个或多个备选对象时,为了能够让用户能清晰的辨识到移动显示出来的备选对象目对应的索引信息,则在本发明的其中一个实施例中,在第一方向上每次移动显示信息列表时停留一段预定时间段,例如1-2秒,而在预定时间内仅显示备选对象,而不做标记,直到预定时间段到达时再响应与触摸显示屏持续接触,标记所述信息列表的其余部分中的备选对象对应的属性信息。本实施例中在滚动显示信息列表的同时,在一次手势输入下可依据参照前文所示的方式来对后续显示出的多个备选对象目进行依序标记、同时标记或依照轨迹变化来标记,具体可参照图12至图20所示的相关说明。Of course, in this embodiment, in the step of moving the display information list displayed on the touch display screen in the first direction, each time the display information list is moved to display one or more candidate objects of the rest of the information list In order to enable the user to clearly recognize the index information corresponding to the alternate object displayed by the mobile, in one embodiment of the present invention, the display information list is paused for each time in the first direction. a time period, for example 1-2 seconds, while only the candidate object is displayed for a predetermined time, without marking, until the predetermined time period arrives, and then responding to continuous contact with the touch screen display, marking the rest of the information list The attribute information corresponding to the candidate object. In this embodiment, while scrolling through the list of information, a plurality of candidate objects that are subsequently displayed may be sequentially marked, simultaneously marked, or marked according to the trajectory change according to the manner described above with reference to the previous input. For details, refer to the related descriptions shown in FIG. 12 to FIG.
上述实施例中,可以采用一次手势输入的方式,标记多个连续的备选对象,或者连续标记滚动显示的多个备选对象,当然,本发明的其他实施例中还可以采用分区设置的方式来通过采集不同区域的手势输入,从而区分手势输入对应的响应指令。In the foregoing embodiment, a plurality of consecutive candidate objects may be marked in a manner of one gesture input, or a plurality of candidate objects displayed in a scrolling manner may be continuously marked. Of course, in other embodiments of the present invention, a partition setting manner may also be adopted. To capture the response commands corresponding to the gesture input by collecting gesture inputs from different regions.
如图22所示,在本发明的一些实施例中,在触摸显示屏上设置有两个分 区,一个是选择区域601,另一个是滚动区域704,选择区域参照前文相关说明在此不重复解释,而滚动区域704可以是平行于选择区域601的显示区域,可以是用以显示信息列表的显示区域除选择区域601之外的显示区域,或者可以是包括用于记载备选对象表述信息的信息展示区域603的部分或全部。图22中,在触摸显示屏上显示信息列表的第一部分,位于触摸显示屏上滚动区域704内,检测输入对象与触摸显示屏接触417b的运动,响应接触417b的运动,在第二方向(图22中的黑色箭头703)上移动显示在触摸显示屏上的显示信息列表以显示信息列表的除第一部分之外的其余部分。As shown in FIG. 22, in some embodiments of the present invention, two points are set on the touch display screen. The area is one of the selection area 601 and the other is the scroll area 704. The selection area is not repeatedly explained herein with reference to the previous description, and the scroll area 704 may be a display area parallel to the selection area 601, which may be used to display a list of information. The display area is a display area other than the selection area 601, or may be part or all of the information display area 603 including the information for describing the candidate object. In FIG. 22, a first portion of the information list displayed on the touch display screen is located in the scroll area 704 on the touch display screen, detecting movement of the input object in contact with the touch display screen 417b, in response to the movement of the contact 417b, in the second direction (Fig. The black arrow 703 in 22 moves up the display information list displayed on the touch display screen to display the rest of the information list except the first portion.
本实施例中的第二方向可以是接触417b的移动方向。例如,在本发明的其中一些实施例中,在检测在触摸显示屏上接触417b的移动的步骤中,可以在位于触摸显示屏上的滚动区域内检测接触417b的移动,按照接触417b的移动方向,在第二方向(图22中的黑色箭头703)上移动显示在触摸显示屏上的显示信息列表以显示信息列表的除第一部分之外的其余部分。也可是,备选对象目的排列方向,同上述第一方向。The second direction in this embodiment may be the moving direction of the contact 417b. For example, in some of the embodiments of the present invention, in the step of detecting the movement of the contact 417b on the touch display screen, the movement of the contact 417b may be detected in the rolling area on the touch display screen in accordance with the moving direction of the contact 417b. The display information list displayed on the touch display screen is moved in the second direction (black arrow 703 in FIG. 22) to display the rest of the information list except the first portion. Alternatively, the alternate object is arranged in the same direction as the first direction described above.
在本发明的其中一些实施例中,上述在第二方向上移动显示在触摸显示屏上的显示信息列表以显示上述信息列表的除第一部分之外的其余部分的步骤中,随显示信息列表在触摸显示屏上在第二方向上的移动,逐一显示上述信息列表的其余部分中的备选对象,即每次移动显示信息列表以显示所述信息列表的其余部分时,逐一显示备选对象;或者,在本发明的另一些实施例中,在第二方向上滚动显示在触摸显示屏上显示的信息列表以显示上述信息列表的第二部分,且上述第二部分与第一部分不同。滚动显示是指信息列表以一定的速度持续平移信息列表,此时,直到检测到用以停止滚动显示的手势输入时,停止滚动显示。同样的,上述在第二方向上移动显示在触摸显示屏上的显示信息列表以显示上述信息列表的除第一部分之外的其余部分的步骤中,还可以是在滚动区域内设置滚动条,通过输入对象触控拖动滚动条,来实现对信息列表的翻页。In some embodiments of the present invention, the step of moving the display information list displayed on the touch display screen in the second direction to display the remaining portion of the information list other than the first portion, in the step of displaying the information list Touching the movement in the second direction on the display screen to display the candidate objects in the rest of the information list one by one, that is, each time the display information list is moved to display the rest of the information list, the candidate objects are displayed one by one; Alternatively, in still other embodiments of the present invention, the list of information displayed on the touch display screen is scrolled in the second direction to display the second portion of the list of information, and the second portion is different from the first portion. The scroll display means that the information list continuously shifts the information list at a certain speed, and at this time, the scroll display is stopped until the gesture input for stopping the scroll display is detected. Similarly, in the step of moving the display information list displayed on the touch display screen in the second direction to display the rest of the information list except the first portion, the scroll bar may be set in the scroll area. The input object touches and drags the scroll bar to achieve page turning of the information list.
如图3所示,在触摸显示屏上,每个备选对象800按照属性操作类型分 别对应设置有多个功能控件区域;响应依序通过多个备选对象800分别对应的多个功能控件区域之一所获得的持续移动接触,并标记多个备选对象的相应属性操作类型的属性信息。图3中包括备选对象800的使能状态功能控件区域801,其可以位于选择区域601内,当然图3中的使能状态功能控件区域801也可以理解为在触摸显示屏上显示的属性标记显示区域。当输入对象(如人的手指)依序通过多个使能状态功能控件区域801时则对多个备选对象有关使能状态的属性进行标记,例如将ON调整为OFF档位。As shown in FIG. 3, on the touch display screen, each candidate object 800 is classified according to the attribute operation type. There is a plurality of function control areas correspondingly set; the response sequentially passes the continuous moving contact obtained by one of the plurality of function control areas corresponding to the plurality of candidate objects 800, and marks the corresponding attribute operation type of the plurality of candidate objects. Attribute information. The enable state function control area 801 of the candidate object 800 is included in FIG. 3, which may be located in the selection area 601. Of course, the enable state function control area 801 in FIG. 3 can also be understood as an attribute mark displayed on the touch display screen. Display area. When an input object (such as a human finger) sequentially passes through the plurality of enabled state function control areas 801, the attributes of the plurality of candidate objects regarding the enabled state are marked, for example, the ON is adjusted to the OFF position.
图22所示,其提供了一种在触摸显示屏上设置有两个分区,一个是选择区域601,另一个是滚动区域704,分别提供两个区域的手势输入来同时实现多个备选对象目的批量选择和信息列表的翻页问题。在本发明的其中一个实施例中,如图23所示,提供的一种控制医疗检测系统的方法,包括:步骤S710至步骤S750。As shown in FIG. 22, it provides a two-partition on the touch display screen, one is a selection area 601, and the other is a scroll area 704, respectively providing gesture input of two areas to simultaneously implement multiple candidate objects. Purpose Batch selection and page turning of information lists. In one embodiment of the present invention, as shown in FIG. 23, a method for controlling a medical detection system is provided, comprising: steps S710 to S750.
在步骤S710,在触摸显示屏上显示包含多个备选对象的信息列表的第一部分。具体可参见前文中有关步骤S610的描述来理解在触摸显示屏上显示包含多个备选对象的信息列表。而通常情况下,信息列表并非能完整显示在同一个图形用户界面600中,而需要分页显示,那么就需要通过翻页或者滚动或者平移来显示信息列表的其他部分。在本发明的其中一个实施例中,上述信息列表采用表格形式显示在触摸显示屏上,如图5至图9所示。或者,还可以是信息列表中的多个备选对象随机排列在图形用户界面上,如图10所示。At step S710, a first portion of the list of information containing a plurality of candidate objects is displayed on the touch display. For details, refer to the description of step S610 in the foregoing to understand that a list of information including a plurality of candidate objects is displayed on the touch display screen. Normally, the information list is not fully displayed in the same graphical user interface 600, but needs to be displayed in a page, then it is necessary to display other parts of the information list by turning pages or scrolling or panning. In one of the embodiments of the present invention, the above information list is displayed in a tabular form on the touch display screen as shown in FIGS. 5 to 9. Alternatively, it is also possible that a plurality of candidate objects in the information list are randomly arranged on the graphical user interface, as shown in FIG.
在步骤S720中,检测输入对象与触摸显示屏的接触。具体的检测输入对象与触摸显示屏接触可参见前文中所述,利用相关硬件和软件模块来跟踪输入对象与触摸显示屏接触情况,从而判断输入对象在触摸显示屏上的手势输入类型。上述接触至少包括与触摸显示屏的直接接触、和在接近触摸显示屏的空间位置上的动作中的其中一种。上述有关检测到的接触可以是前文中提到的任何一种手势输入。In step S720, contact of the input object with the touch display screen is detected. The specific detection input object is in contact with the touch display screen. Referring to the foregoing, the related hardware and software modules are used to track the contact state of the input object with the touch display screen, thereby determining the type of gesture input of the input object on the touch display screen. The contact includes at least one of direct contact with the touch display screen and an action at a spatial location proximate to the touch display screen. The above-mentioned detected contact may be any of the gesture inputs mentioned in the foregoing.
在步骤S730中,确定上述接触在触摸显示屏上的操作位置。利用相关硬件和软件模块来跟踪输入对象与触摸显示屏接触位置,从而确定上述接触对 应于触摸显示屏上的操作位置。输入对象在触摸显示屏上接触对应有相应的操作位置,而持续移动接触对应一随时间变化的操作位置序列,有关操作位置的确定可参见前文中有关利用触摸显示屏构建直角坐标系来确定输入对象接触位置的定位方法。In step S730, the operational position of the above contact on the touch display screen is determined. Using the relevant hardware and software modules to track the contact position of the input object with the touch display screen to determine the above contact pair Should touch the operating position on the display. The input object has a corresponding operation position on the touch display screen, and the continuous movement contact corresponds to a sequence of operation positions that change with time. For the determination of the operation position, refer to the above discussion about constructing a Cartesian coordinate system using the touch display screen to determine the input. The method of positioning the object contact position.
然而在步骤S740中,当上述操作位置位于触摸显示屏上的选择区域内时,响应输入对象在选择区域内的持续移动接触而标记信息列表的第一部分中与持续移动接触相关联的多个备选对象对应的属性信息。本实施例中的接触的运动为在触摸显示屏上保持上述接触的持续输入的同时上述接触的持续移动,即上述接触为持续移动接触,具体可参见前文中的相关解释说明。However, in step S740, when the above-mentioned operating position is located in the selected area on the touch display screen, a plurality of items associated with the continuous moving contact in the first portion of the marked information list in response to the continuous moving contact of the input object within the selected area Select the attribute information corresponding to the object. The movement of the contact in this embodiment is the continuous movement of the contact while maintaining the continuous input of the contact on the touch display screen, that is, the contact is a continuous moving contact. For details, refer to the related explanation in the foregoing.
上述选择区域内包括:在同一个图形用户界面中每个备选对象所对应的用于显示备选对象可选状态标记符号的属性标记显示区域,上述选择区域的长度延伸方向与属性标记显示区域的排列方向相同。具体有关选择区域的解释可参见前文的相关解释说明,在此不累述。The selection area includes: an attribute mark display area for displaying an optional object selectable state mark symbol corresponding to each candidate object in the same graphical user interface, and a length extension direction of the selected area and an attribute mark display area The arrangement is the same. For the explanation of the selection area, please refer to the relevant explanations in the previous section, which are not exhaustive.
在本发明的其中一个实施例中,用于检测输入对象与触摸显示屏接触的运动的步骤中,检测输入对象在触摸显示屏上施加的满足预定压力条件的接触的运动;并且,当上述操作位置位于触摸显示屏上的选择区域内时,响应上述选择区域内上述满足预定压力条件的接触的运动,标记多个备选对象的可选状态。通过检测满足预设压力条件的接触来区分,根据普通压力范围内的单点接触来选择单个备选对象,和根据满足预设压力条件的接触来进入多个备选对象目批量选择功能。In one of the embodiments of the present invention, in the step of detecting a motion of the input object in contact with the touch display screen, detecting a motion of the contact of the input object on the touch display screen that satisfies a predetermined pressure condition; and, when the operation is When the position is within the selected area on the touch display screen, an optional state of the plurality of candidate objects is marked in response to the movement of the contact in the selected area that satisfies the predetermined pressure condition. By distinguishing the contacts that satisfy the preset pressure conditions, a single candidate object is selected according to a single point contact within the normal pressure range, and a plurality of candidate object batch selection functions are entered according to the contact that satisfies the preset pressure condition.
同样的,有关如何根据响应上述选择区域内的持续移动接触,来标记多个备选对象对应的属性信息,可参见前文中有关步骤S630的详细说明,并可以结合图14和图15、图16(c)、图18、图20、图22的相关文字说明。Similarly, how to mark the attribute information corresponding to the plurality of candidate objects according to the continuous moving contact in the selection area, refer to the detailed description of step S630 in the foregoing, and may be combined with FIG. 14 and FIG. 15 and FIG. (c), the relevant characters in Fig. 18, Fig. 20, and Fig. 22 are explained.
另外,在步骤S750中,当上述操作位置位于触摸显示屏上的滚动区域内时,响应输入对象在所述滚动区域内的接触的运动而移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的除第一部分之外的其余部分的至少一部分。 In addition, in step S750, when the operation position is located in the scroll area on the touch display screen, the display information list displayed on the touch display screen is moved in response to the movement of the contact of the input object in the scroll area to display the At least a portion of the remainder of the list of information except the first portion.
在本发明的其中一些实施例中,上述在第二方向上移动显示在触摸显示屏上的显示信息列表以显示上述信息列表的除第一部分之外的其余部分的步骤中,随显示信息列表在触摸显示屏上在第二方向上的移动,逐一显示上述信息列表的其余部分中的备选对象;即每次移动显示信息列表以显示所述信息列表的其余部分时,逐一显示备选对象;或者,在本发明的另一些实施例中,在第二方向上滚动显示在触摸显示屏上显示的信息列表以显示上述信息列表的第二部分,且上述第二部分与第一部分不同。滚动显示是指信息列表以一定的速度持续平移信息列表,此时,直到检测到用以停止滚动显示的手势输入时,停止滚动显示。同样的,上述在第二方向上移动显示在触摸显示屏上的显示信息列表以显示上述信息列表的除第一部分之外的其余部分的步骤中,还可以是在滚动区域内设置滚动条,通过输入对象触控拖动滚动条,来实现对信息列表的翻页。In some embodiments of the present invention, the step of moving the display information list displayed on the touch display screen in the second direction to display the remaining portion of the information list other than the first portion, in the step of displaying the information list Touching the movement in the second direction on the display screen to display the candidate objects in the rest of the information list one by one; that is, each time the display information list is moved to display the rest of the information list, the candidate objects are displayed one by one; Alternatively, in still other embodiments of the present invention, the list of information displayed on the touch display screen is scrolled in the second direction to display the second portion of the list of information, and the second portion is different from the first portion. The scroll display means that the information list continuously shifts the information list at a certain speed, and at this time, the scroll display is stopped until the gesture input for stopping the scroll display is detected. Similarly, in the step of moving the display information list displayed on the touch display screen in the second direction to display the rest of the information list except the first portion, the scroll bar may be set in the scroll area. The input object touches and drags the scroll bar to achieve page turning of the information list.
如图22所示,在触摸显示屏上设置有两个分区,一个是选择区域601,另一个是滚动区域704,滚动区域704可以是平行于选择区域601的显示区域,可以是用以显示信息列表的显示区域除选择区域601之外的显示区域,或者可以是包括用于记载备选对象表述信息的信息展示区域603的部分或全部。图22中,在触摸显示屏上显示信息列表的第一部分,位于触摸显示屏上滚动区域704内,检测输入对象与触摸显示屏接触417b的运动,响应接触417b的运动,在第二方向(图22中的黑色箭头703)上移动显示在触摸显示屏上的显示信息列表以显示信息列表的除第一部分之外的其余部分,从而基于滚动区域704的接触检测来进行信息列表的分页显示、滚动显示或翻页等等操作。在选择区域601检测输入对象与触摸显示屏的持续移动接触417a,用来识别进行多个备选对象目的批量选择的指令,响应该指令显示多个备选对象目对应的选中或非选中标记符号。As shown in FIG. 22, two partitions are disposed on the touch display screen, one is a selection area 601, and the other is a scroll area 704. The scroll area 704 may be a display area parallel to the selection area 601, which may be used to display information. The display area of the list may be a display area other than the selection area 601, or may be part or all of the information display area 603 including the information for describing the candidate object. In FIG. 22, a first portion of the information list displayed on the touch display screen is located in the scroll area 704 on the touch display screen, detecting movement of the input object in contact with the touch display screen 417b, in response to the movement of the contact 417b, in the second direction (Fig. The black arrow 703 in 22 moves up the display information list displayed on the touch display screen to display the rest of the information list except the first portion, thereby performing page display and scrolling of the information list based on the contact detection of the scroll area 704. Display or page turning, etc. A continuous moving contact 417a of the input object and the touch display screen is detected in the selection area 601 for identifying an instruction for performing batch selection of a plurality of candidate object objects, and displaying the selected or unselected symbol symbols corresponding to the plurality of candidate objects in response to the instruction .
本发明的方法中,当需要多选时,在触摸显示屏上分别设置选择区和滚动区。用户在选择区滑动时,选中相应的备选对象目,并且列表不滚动;而在滚动区滑动时,列表滚动,并且不会选中相应的备选对象目。这样,通过 触摸屏,用户可以既能够方便地实现备选对象目的选择,也能够方便地实现列表的滚动。用户的操作非常方便,极大地提高了用户体验。In the method of the present invention, when multiple selection is required, a selection area and a scroll area are respectively set on the touch display screen. When the user slides in the selection area, the corresponding candidate object is selected, and the list does not scroll; while in the scroll area, the list scrolls and the corresponding candidate object is not selected. In this way, through With the touch screen, the user can conveniently implement the selection of the candidate object and conveniently scroll the list. The user's operation is very convenient and greatly improves the user experience.
当然,在步骤S710之前还可以包括步骤S711,控制医疗检测装置对检测对象进行检测以获取医疗检测数据。这里的检测对象可以是任意一个或多个活体或非活体的组织结构。Of course, before step S710, step S711 may be further included to control the medical detecting device to detect the detected object to obtain the medical detection data. The detection object here may be any one or more living or non-living tissue structures.
选择区域601和滚动区域704的形状、大小、位置均可以根据实际情况(例如,列表的位置、长度、宽度、触摸屏上显示的各个元素的整体布局等等)灵活设置。另外图23中的方法步骤的具体细节也可参见前文的相关说明,在此不再累述。The shape, size, and position of the selection area 601 and the scroll area 704 can be flexibly set according to actual conditions (for example, the position, length, width of the list, the overall layout of each element displayed on the touch screen, etc.). In addition, the specific details of the method steps in FIG. 23 can also be referred to the related descriptions in the foregoing, and will not be repeated here.
基于上述方法,本发明的实施例中还提供了一种医疗检测系统,包括:Based on the above method, an embodiment of the present invention further provides a medical detection system, including:
用于控制医疗检测装置对检测对象进行检测以获取医疗检测数据的模块;a module for controlling a medical detecting device to detect a detection object to obtain medical detection data;
用于在触摸显示屏上显示多个备选对象的模块,其中,多个备选对象用于与医疗检测数据或者医疗检测装置进行关联操作;a module for displaying a plurality of candidate objects on a touch display screen, wherein the plurality of candidate objects are for performing an association operation with medical detection data or a medical detection device;
用于检测输入对象与触摸显示屏的持续移动接触的模块;a module for detecting continuous moving contact of an input object with a touch display screen;
用于响应所述持续移动接触而标记与所述持续移动接触相关联的多个备选对象对应的属性信息的模块,其中所述属性信息包括两种可选的且彼此相反的状态。Means for tagging attribute information corresponding to a plurality of candidate objects associated with the continuous moving contact in response to the continuous moving contact, wherein the attribute information includes two selectable and opposite states.
上述医疗检测系统用于执行图4中的步骤S611至步骤S630,因此其中的各个模块根据前文中有关步骤S611至步骤S630的详细说明,将具体包括用于分别执行步骤S611、步骤S610、步骤S620和步骤S630中各个具体实施例中的细分步骤或细化步骤的模块或单元,为简化说明,请具体参见前文中有关步骤S610、步骤S620和步骤S630中的说明,并以此在各个步骤前置于“用于”,在步骤尾置于“的模块或单元”,用于获得本实施例中医疗检测系统的各个模块的细分结构。The above-mentioned medical detection system is used to perform step S611 to step S630 in FIG. 4, and therefore each of the modules is specifically included to perform step S611, step S610, and step S620, respectively, according to the detailed description of steps S611 to S630 in the foregoing. And the module or unit of the subdivision step or the refinement step in each specific embodiment in step S630. For simplification of the description, please refer to the descriptions in the foregoing steps S610, S620 and S630 in detail, and in each step. The front is placed in "for", and the "module or unit" is placed at the end of the step for obtaining the subdivision structure of each module of the medical detection system in this embodiment.
此外,在本发明的其中一个实施例中还提供了一种医疗检测系统,其包括:Furthermore, in one of the embodiments of the present invention, there is also provided a medical detection system comprising:
用于控制医疗检测装置对检测对象进行检测以获取医疗检测数据的模块; a module for controlling a medical detecting device to detect a detection object to obtain medical detection data;
用于在触摸显示屏上显示包含多个备选对象的信息列表的第一部分的模块,多个备选对象用于与医疗检测数据或者医疗检测装置进行关联操作;a module for displaying a first portion of a list of information comprising a plurality of candidate objects on a touch display screen, the plurality of candidate objects being for performing an association operation with the medical detection data or the medical detection device;
用于检测输入对象与所述触摸显示屏的接触的模块;a module for detecting contact of an input object with the touch display screen;
用于确定所述接触在所述触摸显示屏上的操作位置的模块,a module for determining an operational position of the contact on the touch display screen,
用于当所述操作位置位于触摸显示屏上的选择区域内时,响应所述输入对象在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息的模块;And for indicating that the first portion of the information list is associated with the continuous moving contact in response to the continuous moving contact of the input object within the selected area when the operating position is within a selected area on the touch display screen a module of attribute information corresponding to a plurality of candidate objects;
用于当所述操作位置位于触摸显示屏上的滚动区域内时,响应所述输入对象在所述滚动区域内的所述接触的运动而移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的除第一部分之外的其余部分的至少一部分的模块。For moving the display information list displayed on the touch display screen to display the display in response to the movement of the contact of the input object within the scroll area when the operation position is within a scroll area on the touch display screen A module of at least a portion of the remainder of the list of information except the first portion.
上述用于带有触摸显示屏的电子设备的控制系统用于执行图23中的步骤S711至步骤S750,因此其中的各个模块根据前文中有关步骤S711至步骤S750的详细说明,将具体包括用于分别执行步骤S711至步骤S750中各个具体实施例中的细分步骤或细化步骤的模块或单元,为简化说明,请具体参见前文中有关步骤S711至步骤S750中的说明,并以此在各个步骤前置于“用于”,在步骤尾置于“的模块或单元”,用于获得本实施例中用于带有触摸显示屏的电子设备的控制系统的各个模块的细分结构。The above control system for an electronic device with a touch display screen is used to perform steps S711 to S750 in FIG. 23, and thus each of the modules is specifically included for use according to the detailed description of steps S711 to S750 in the foregoing. The modules or units of the subdivision step or the refinement step in the specific embodiments in step S711 to step S750 are respectively performed. For the sake of simplicity, please refer to the descriptions in the foregoing steps S711 to S750, and The step is preceded by "for" and placed at the end of the step "module or unit" for obtaining the subdivision structure of the various modules of the control system for the electronic device with touch display in this embodiment.
通过以上的实施方式的描述,本领域的技术人员可以清楚地了解到上述实施例方法可借助软件加必需的通用硬件平台的方式来实现,当然也可以通过硬件,但很多情况下前者是更佳的实施方式。基于这样的理解,本发明的技术方案本质上或者说对现有技术做出贡献的部分可以以软件产品的形式体现出来,该计算机软件产品承载在一个非易失性计算机可读存储载体(如ROM、磁碟、光盘、服务器云空间)中,包括若干指令用以使得一台终端设备(可以是手机,计算机,服务器,或者网络设备等)执行本发明各个实施例的系统结构和方法。Through the description of the above embodiments, those skilled in the art can clearly understand that the foregoing embodiment method can be implemented by means of software plus a necessary general hardware platform, and of course, can also be through hardware, but in many cases, the former is better. Implementation. Based on this understanding, the technical solution of the present invention, which is essential or contributes to the prior art, may be embodied in the form of a software product carried on a non-transitory computer readable storage carrier (eg ROM, disk, optical disk, server cloud space, including a number of instructions for causing a terminal device (which may be a mobile phone, a computer, a server, or a network device, etc.) to execute the system structure and method of various embodiments of the present invention.
基于图1所示的硬件架构,本发明基于上述方法和系统还提供了一种用 于带有触摸显示屏的电子设备(如医疗检测系统),包括:触摸显示屏130;存储器200;一个或多个处理器,等等硬件,它们之间的连接关系和通讯方式参见前文所述。存储器160存储了一个或多个软件程序、模块和数据结构类似的程序、模块和数据结构或者它们的子集。一个或多个处理器通过调用存储器160的软件程序、模块和数据结构类似的程序、模块和数据结构或者它们的子集来分别实现图4或图23所示的方法,在触摸显示屏130显示信息列表并显示备选对象的属性信息。当然存储器160还可以存储未在图1中或者图4、图23中体现的或标记的软件程序、模块和数据结构类似的程序、模块和数据结构或者它们的子集。Based on the hardware architecture shown in FIG. 1, the present invention provides a use based on the above method and system. For an electronic device with a touch display (such as a medical detection system), including: touch display 130; memory 200; one or more processors, and the like, the connection relationship and communication manner between them are as described above. . Memory 160 stores one or more software programs, modules, and data structures similar to programs, modules, and data structures or subsets thereof. The one or more processors respectively implement the method illustrated in FIG. 4 or FIG. 23 by calling a program, module, and data structure of the memory 160, modules, and data structures, or a subset thereof, for display on the touch display 130. The information list displays the attribute information of the candidate object. Of course, the memory 160 may also store programs, modules, and data structures or subsets thereof that are not embodied or labeled in FIG. 1 or in FIG. 4, FIG.
图4中用于执行各个步骤的各个单元或模块中的每一个可以存储在一个或多个前述存储器中,而上述实施例中分别用于实现图4或图23的用于带有触摸显示屏的电子设备的控制系统中,其中各个功能模块中包括每一个用于执行上述方法中相应步骤的指令集,上述模块或程序(即指令集)不需要时限为分立软件程序、过程或模块,因此,在各个实施例中可以组合或重新安排这些模块的各个子块,因此,在本发明的一些实施例中存储器160可以存储如上所述的模块或数据结构的子集。Each of the units or modules used to perform the various steps in FIG. 4 may be stored in one or more of the aforementioned memories, while the above embodiments are used to implement the touch display of FIG. 4 or FIG. 23, respectively. In the control system of the electronic device, wherein each function module includes a set of instructions for performing the corresponding steps in the above method, the module or the program (ie, the instruction set) does not need to be a discrete software program, process or module. The various sub-blocks of these modules may be combined or rearranged in various embodiments, and thus, in some embodiments of the invention, memory 160 may store a subset of modules or data structures as described above.
为实现图4所述的控制方法,上述处理器可用于调用存储器中存储的指令,并执行在触摸显示屏上显示多个备选对象,检测输入对象与触摸显示屏的持续移动接触,并响应所述持续移动接触而标记与持续移动接触相关联的多个备选对象对应的属性信息的步骤,其中所述属性信息包括两种可选的且彼此相反的状态。有关处理器的具体实现方法可参见前文中相关图4中各个步骤的相关解释说明。To implement the control method described in FIG. 4, the processor may be configured to call an instruction stored in the memory, and execute displaying a plurality of candidate objects on the touch display screen, detecting continuous moving contact of the input object with the touch display screen, and responding The continuously moving contact marks a step of attribute information corresponding to a plurality of candidate objects associated with the continuous moving contact, wherein the attribute information includes two selectable and opposite states. For a specific implementation method of the processor, refer to the related explanations of the respective steps in FIG. 4 in the foregoing.
为实现图23所述的控制方法,上述处理器可用于调用存储器中存储的指令,并执行在触摸显示屏上显示包含多个备选对象的信息列表的第一部分,检测输入对象与触摸显示屏的接触,确定所述接触对应于触摸显示屏上的操作位置,当所述操作位置位于触摸显示屏上的选择区域内时,响应输入对象在选择区域内的持续移动接触而标记信息列表的第一部分中与持续移动接触 相关联的多个备选对象对应的属性信息;当操作位置位于触摸显示屏上的滚动区域内时,响应输入对象在滚动区域内的接触的运动而移动显示在触摸显示屏上的显示信息列表以显示信息列表的除第一部分之外的其余部分的至少一部分。有关处理器的具体实现方法可参见前文中相关图23中各个步骤的相关解释说明。To implement the control method described in FIG. 23, the processor may be configured to invoke an instruction stored in the memory and execute a first portion of displaying a list of information including a plurality of candidate objects on the touch display screen, detecting the input object and the touch display screen Contacting, determining that the contact corresponds to an operating position on the touch display screen, and when the operating position is within the selected area on the touch display screen, marking the list of information in response to the continuous moving contact of the input object within the selected area Part of the continuous moving contact Attribute information corresponding to the plurality of candidate objects; when the operation position is located in the scroll area on the touch display screen, moving the display information list displayed on the touch display screen in response to the movement of the contact of the input object in the scroll area To display at least a portion of the remainder of the list of information other than the first portion. For a specific implementation method of the processor, refer to the related explanations of the respective steps in FIG. 23 in the foregoing.
此外,本发明的实施例中还提供了一种带触摸显示屏的医疗检测系统,例如图1所示,医疗检测装置包括:超声检测装置,超声检测装置通过探头向所述检测对象发射超声波、接收超声回波并获得超声图像数据作为医疗检测数据。超声检测装置(参见前文的详细说明)和前文所述的带触摸显示屏的电子设备(如医疗检测系统),超声检测装置300与电子设备通过无线或有线信号通讯。In addition, the embodiment of the present invention further provides a medical detection system with a touch display screen. For example, as shown in FIG. 1 , the medical detection device includes: an ultrasonic detection device that transmits ultrasonic waves to the detection object through a probe, Ultrasound echoes are received and ultrasound image data is obtained as medical test data. The ultrasonic detecting device (see the foregoing detailed description) and the electronic device with a touch display screen (such as a medical detecting system) as described above, the ultrasonic detecting device 300 communicates with the electronic device via a wireless or wired signal.
因此,在本发明的其中一个实施例中,医疗检测系统可以包括:存储器160、触摸显示屏130和医疗检测装置,和医疗检测装置可以用于获取医疗检测数据,例如图1中的超声检测装置可以用于通过探头向检测对象发射超声波后获得超声图像数据作为上述医疗检测数据,有关超声检测装置、存储器160、触摸显示屏130的具体实现方式可参见前文的相关说明。此外,在该医疗检测系统还可以包括:数据处理模块和控制模块。数据处理模块用于处理所述医疗检测数据,生成与所述医疗检测数据进行关联操作的多个备选对象,例如,图1中数据处理模块可以处理所述超声图像数据,生成与超声图像数据进行关联操作的多个备选对象,多个备选对象可以与用于记载或关联所述超声医疗数据的索引表对应设置,并在触摸显示屏上显示可操作控制的索引表控件对象,所述索引表中包含多个备选对象,每个备选对象对应一条超声医疗检测数据。上述提到的超声医疗检测数据包括用于记录超声检测结果的医疗检测数据,其可以是超声图像数据、依据超声图像检测获得的参数检测数据(例如,颅骨长径等组织结构大小、位置)、有关超声成像的配置参数等可供用户按照调阅、编辑、修改等需求进行调阅或输入的医疗检测数据。可以通过建立索引表方便用户查看或调阅,索引表的建立方式可以是依据病人 名字、编号、组织名称、日期等等信息,通过在触摸显示屏上显示索引表,可以通过选择其中显示的备选对象进入相关超声医疗检测数据显示界面,索引表可以视为一级目录列表,例如,信息列表记录病人名字、编号等清单,那么可以通过选择一个或多个病人名字、编号等(每个名字、编号等对应一个备选对象),进入到相对应的超声医疗检测数据阅读界面下,或多个病人的超声医疗检测数据的对比显示界面下。还比如,信息列表的索引信息直接显示超声医疗检测数据的相关内容,以便用户能直接定位到其想了解细节的相关超声医疗检测数据中。本实施例中提到的处理所述超声图像数据旨在对超声图像进行存储,建立检索或搜索用的索引信息。当然,此处也需要基于图1所示的电子设备系统架构,通过从触摸显示屏上输入相关病人名字、病人编号、组织名称、日期等等来获得索引信息,建立索引表。Accordingly, in one embodiment of the present invention, the medical detection system can include a memory 160, a touch display screen 130, and a medical detection device, and the medical detection device can be used to acquire medical detection data, such as the ultrasonic detection device of FIG. The ultrasonic image data can be obtained as the medical detection data after the ultrasonic wave is transmitted to the detection object by the probe. For the specific implementation of the ultrasonic detection device, the memory 160, and the touch display screen 130, refer to the related description. In addition, the medical detection system may further include: a data processing module and a control module. The data processing module is configured to process the medical detection data, and generate a plurality of candidate objects that are associated with the medical detection data. For example, the data processing module in FIG. 1 may process the ultrasound image data to generate ultrasound image data. Performing a plurality of candidate objects of the association operation, the plurality of candidate objects may be set corresponding to an index table for recording or associating the ultrasound medical data, and displaying an operably controlled index table control object on the touch display screen, The index table contains a plurality of candidate objects, each of which corresponds to one ultrasound medical test data. The ultrasonic medical test data mentioned above includes medical detection data for recording the ultrasonic detection result, which may be ultrasonic image data, parameter detection data obtained according to ultrasonic image detection (for example, size and position of a tissue such as a long diameter of a skull), Medical test data such as configuration parameters for ultrasound imaging that can be accessed or input by the user according to the requirements of access, editing, and modification. The index table can be easily viewed or accessed by the user, and the index table can be established according to the patient. The name, number, organization name, date, etc., by displaying the index table on the touch display screen, can select the candidate object displayed therein to enter the relevant ultrasonic medical detection data display interface, and the index table can be regarded as a primary directory list. For example, if the information list records a list of patient names, numbers, etc., then one or more patient names, numbers, etc. (each name, number, etc. corresponding to an alternate object) can be entered to enter the corresponding ultrasound medical test data reading interface. A comparison of ultrasound medical test data under, or multiple patients, is displayed under the interface. For example, the index information of the information list directly displays the relevant content of the ultrasound medical detection data so that the user can directly locate the relevant ultrasound medical detection data for which he wants to know the details. The processing of the ultrasound image data mentioned in this embodiment is intended to store an ultrasound image and establish index information for retrieval or searching. Of course, it is also necessary to obtain an index table based on the electronic device system architecture shown in FIG. 1 by inputting relevant patient names, patient numbers, organization names, dates, and the like from the touch display screen.
控制模块用于在触摸显示屏上显示所述多个备选对象,检测输入对象与触摸显示屏的持续移动接触,并响应所述持续移动接触而标记与持续移动接触相关联的多个备选对象对应的属性信息。控制模块中结合图1中提供的手势检测模块、触摸显示屏及其控制器等软件模块或硬件结构来实现其相应功能。A control module for displaying the plurality of candidate objects on a touch display screen, detecting continuous moving contact of the input object with the touch display screen, and marking a plurality of alternatives associated with the continuous moving contact in response to the continuous moving contact The attribute information corresponding to the object. The control module combines the software module or hardware structure of the gesture detection module, the touch display screen and its controller provided in FIG. 1 to implement its corresponding functions.
本实施例中的控制模块可以用于实现图4所述的控制方法,其具体实现方法可参见前文中相关图4中各个步骤的相关解释说明。上述多个装置中可以是多个处理器或单个处理器来完成,并结合前文中有关图1的解释说明,在相关硬件层架构的基础上基于上述软件层的系统架构,即可实现本发明中通过单次手势输入实现多个备选对象批量选择的目的。The control module in this embodiment can be used to implement the control method described in FIG. 4. For the specific implementation method, refer to the related explanations of the steps in FIG. 4 in the foregoing. The foregoing multiple devices may be implemented by multiple processors or a single processor, and the invention may be implemented based on the system architecture of the software layer based on the related hardware layer architecture in combination with the foregoing explanation about FIG. 1 . The purpose of batch selection of multiple candidate objects is achieved by a single gesture input.
而在本发明的另一个实施例中,数据处理模块用于处理所述医疗检测数据,生成包含与所述医疗检测数据进行关联操作的多个备选对象的信息列表。控制模块,用于在触摸显示屏上显示包含多个备选对象的信息列表的第一部分,检测输入对象与触摸显示屏的接触,确定所述接触对应于触摸显示屏上的操作位置,当所述操作位置位于触摸显示屏上的选择区域内时,响应输入对象在选择区域内的持续移动接触而标记信息列表的第一部分中与持续移动 接触相关联的多个备选对象对应的属性信息;当操作位置位于触摸显示屏上的滚动区域内时,响应输入对象在滚动区域内的接触的运动而移动显示在触摸显示屏上的显示信息列表以显示信息列表的除第一部分之外的其余部分的至少一部分。In still another embodiment of the present invention, the data processing module is configured to process the medical detection data, and generate a list of information including a plurality of candidate objects associated with the medical detection data. a control module, configured to display a first portion of the information list including the plurality of candidate objects on the touch display screen, detect contact of the input object with the touch display screen, and determine that the contact corresponds to an operation position on the touch display screen When the operating position is located in the selected area on the touch display screen, in response to the continuous moving contact of the input object in the selected area, the first part of the marked information list is continuously moved Contacting attribute information corresponding to the plurality of candidate objects; when the operation position is within the scroll area on the touch display screen, moving the display information displayed on the touch display screen in response to the movement of the contact of the input object in the scroll area The list displays at least a portion of the remainder of the list of information except the first portion.
控制模块中结合图1中提供的手势检测模块、触摸显示屏及其控制器等软件模块或硬件结构来实现其相应功能。本实施例中的控制模块可以用于实现图23所述的控制方法,其具体实现方法可参见前文中相关图23中各个步骤的相关解释说明。上述多个系统中可以是多个处理器或单个处理器来完成,并结合前文中有关图1的解释说明,在相关硬件层架构的基础上基于上述软件层的系统架构,即可实现本发明中通过单次手势输入实现多个备选对象批量选择的目的。The control module combines the software module or hardware structure of the gesture detection module, the touch display screen and its controller provided in FIG. 1 to implement its corresponding functions. The control module in this embodiment can be used to implement the control method described in FIG. 23. For the specific implementation method, refer to the related explanations of the steps in FIG. 23 in the foregoing. The foregoing multiple systems may be implemented by multiple processors or a single processor, and the invention may be implemented based on the system architecture of the software layer based on the relevant hardware layer architecture in combination with the foregoing explanation of FIG. The purpose of batch selection of multiple candidate objects is achieved by a single gesture input.
上述实施例中的上述控制模块和数据处理模块,可以分别设置,也可以统一设置,例如,如图1所示,可以分别基于不同独立设备上处理器主板的一个或多个处理起来完成。数据处理模块可以由一主板来实现,控制模块可以由另一主板来实现。又比如,可以分别基于同一主板上设置的一个或多个处理器来完成。图1中触摸显示屏可以和医疗检测装置合并,也可以和医疗检测装置分离设置。在独立的自带触摸显示屏的医疗检测装置上,图1中的主板110和主板306可以集成在一起获得一个集成多个功能执行的处理器,那么数据处理模块和控制模块可以由该处理器来实现。The foregoing control module and the data processing module in the foregoing embodiments may be separately configured or may be uniformly configured. For example, as shown in FIG. 1, the processing may be performed based on one or more processing of the processor boards on different independent devices. The data processing module can be implemented by a motherboard, and the control module can be implemented by another motherboard. As another example, it can be done based on one or more processors provided on the same motherboard, respectively. The touch display screen of Figure 1 can be combined with a medical detection device or can be provided separately from the medical detection device. On the independent medical detection device with a touch display screen, the main board 110 and the main board 306 in FIG. 1 can be integrated to obtain a processor integrated with multiple functions, and the data processing module and the control module can be used by the processor. to realise.
在上述各个实施中控制模块和数据处理模块可以基于图1中的处理器110来实现,并通过计算机程序获得相应的程序模块、指令集等,存储在存储器中。在此不再详细描述,可结合前文中有关图1中的具体描述。In the above various implementations, the control module and the data processing module may be implemented based on the processor 110 in FIG. 1, and the corresponding program module, instruction set, and the like are obtained by a computer program and stored in the memory. It will not be described in detail herein, and may be combined with the detailed description in FIG. 1 above.
上述各个实施例中的信息列表可以是索引表,但不限定只是索引表,还可以是其他格式存储的信息列表。并且上述索引表的行列数可根据实际情况自由定义,比如可以是一行一列,或者是多行多列等等形式。The information list in each of the foregoing embodiments may be an index table, but is not limited to only an index table, and may also be a list of information stored in other formats. And the number of rows and columns of the above index table can be freely defined according to actual conditions, such as one row or one column, or multiple rows and columns, and the like.
本发明的技术涉及带有触摸显示屏的电子设备,特别涉及带有触摸显示屏的超声检测设备,尤其涉及在触摸显示屏实现列表备选对象选择功能的实 现技术,更进一步的涉及在带有触摸显示屏的超声检测设备上实现有关超声医疗检测数据的批量选择功能的实现。The technology of the present invention relates to an electronic device with a touch display screen, and more particularly to an ultrasonic detecting device with a touch display screen, and more particularly to realizing a list candidate object selection function on a touch display screen. The prior art further relates to the implementation of a batch selection function for ultrasonic medical test data on an ultrasonic testing device with a touch display.
以上实施例仅表达了几种实施方式,其描述较为具体和详细,但并不能因此而理解为对本发明专利范围的限制。应当指出的是,对于本领域的普通技术人员来说,在不脱离本发明构思的前提下,还可以做出若干变形和改进,这些都属于本发明的保护范围。因此,本发明专利的保护范围应以所附权利要求为准。 The above embodiments are merely illustrative of several embodiments, and the description thereof is more specific and detailed, but is not to be construed as limiting the scope of the invention. It should be noted that a number of variations and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention. Therefore, the scope of the invention should be determined by the appended claims.

Claims (48)

  1. 一种医疗检测系统,其特征在于,所述系统包括:A medical detection system, characterized in that the system comprises:
    触摸显示屏;Touch the display;
    医疗检测装置,所述医疗检测装置对检测对象进行检测以获取医疗检测数据;a medical detecting device that detects a detection target to acquire medical detection data;
    数据处理模块,所述数据处理模块生成与所述医疗检测数据或者所述医疗检测装置进行关联操作的多个备选对象;及a data processing module, the data processing module generating a plurality of candidate objects associated with the medical detection data or the medical detection device; and
    控制模块,所述控制模块在触摸显示屏上显示所述多个备选对象,检测输入对象与触摸显示屏的持续移动接触,并响应所述持续移动接触而标记与所述持续移动接触相关联的多个备选对象对应的属性信息。a control module that displays the plurality of candidate objects on a touch display screen, detects a continuous moving contact of the input object with the touch display screen, and is associated with the continuous moving contact in response to the continuous moving contact Attribute information corresponding to multiple candidate objects.
  2. 根据权利要求1所述的医疗检测系统,其特征在于,所述属性信息包括两种可选的且彼此相反的状态。The medical detection system of claim 1 wherein said attribute information comprises two selectable and opposite states.
  3. 根据权利要求1所述的医疗检测系统,其特征在于,所述医疗检测装置包括:超声检测装置,所述超声检测装置通过探头向所述检测对象发射超声波、接收超声回波并获得超声图像数据作为所述医疗检测数据。The medical detecting system according to claim 1, wherein said medical detecting means comprises: ultrasonic detecting means for transmitting ultrasonic waves to said detecting object by a probe, receiving ultrasonic echoes, and obtaining ultrasonic image data As the medical test data.
  4. 根据权利要求1所述的医疗检测系统,其特征在于,所述多个备选对象采用表格形式或矩阵排列方式显示在触摸显示屏上。The medical detection system of claim 1 wherein said plurality of candidate objects are displayed on a touch display in a tabular or matrix arrangement.
  5. 根据权利要求1所述的医疗检测系统,其特征在于,所述控制模块通过以下方式之一来检测输入对象与触摸显示屏的持续移动接触:The medical detection system according to claim 1, wherein the control module detects continuous moving contact of the input object with the touch display screen by one of the following methods:
    在触摸显示屏上设定的选择区域内检测输入对象与触摸显示屏的持续移动接触;Detecting continuous moving contact of the input object with the touch display screen in a selection area set on the touch display screen;
    检测输入对象在触摸显示屏上施加的预定压力范围内的持续移动接触;和,Detecting a continuous moving contact of the input object within a predetermined pressure range applied on the touch display screen; and,
    在触摸显示屏上设定的选择区域内,检测输入对象在触摸显示屏上施加的预定压力范围内的持续移动接触。In the selected area set on the touch display screen, a continuous moving contact of the input object within a predetermined pressure range applied on the touch display screen is detected.
  6. 根据权利要求1所述的医疗检测系统,其特征在于,所述控制模块响应所述持续移动接触生成对应于所述属性信息的标记符号,并在所述触摸显 示屏上与所述持续移动接触相关联的多个备选对象的相应位置显示所述标记符号,用以标记与所述持续移动接触相关联的多个备选对象对应的属性信息。The medical detection system according to claim 1, wherein said control module generates a mark symbol corresponding to said attribute information in response to said continuous moving contact, and said touch display A respective location of the plurality of candidate objects associated with the continuous moving contact on the screen displays the marker symbol to mark attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact.
  7. 根据权利要求2所述的医疗检测系统,其特征在于,所述控制模块响应所述持续移动接触将与所述持续移动接触相关联的多个备选对象对应的所述属性信息的当前可选状态标记为与所述当前可选状态相反的可选状态。The medical detection system of claim 2 wherein said control module is responsive to said continuous moving contact to select said current attribute of said plurality of candidate objects associated with said continuous moving contact The status is marked as an alternative status to the current optional status.
  8. 根据权利要求1所述的医疗检测系统,其特征在于,所述控制模块通过以下方式之一来响应所述持续移动接触而标记与所述持续移动接触相关联的多个备选对象对应的属性信息:The medical detection system of claim 1 wherein said control module marks attributes corresponding to said plurality of candidate objects associated with said continuous moving contact in response to said continuous moving contact in one of: information:
    响应在第一移动方向上的持续移动接触,标记所述属性信息的一种可选状态,响应在第二移动方向上的持续移动接触,标记所述属性信息对应的与所述一种可选状态相反的可选状态;Responding to a continuous moving contact in the first moving direction, marking an optional state of the attribute information, in response to a continuous moving contact in the second moving direction, marking the attribute information corresponding to the one of the selectable An optional state with the opposite state;
    响应奇数次所述持续移动接触,标记所述属性信息的一种可选状态,响应偶数次所述持续移动接触,标记所述属性信息对应的与所述一种可选状态相反的可选状态;Responding to the continual moving contact for an odd number of times, marking an optional state of the attribute information, in response to the even number of consecutive moving contacts, marking an optional state corresponding to the one optional state corresponding to the attribute information ;
    响应所述持续移动接触的初始运动轨迹,标记所述属性信息的一种可选状态,响应所述持续移动接触过程中偏离所述运动轨迹的运动,标记所述属性信息对应的与所述一种可选状态相反的可选状态;和,Responding to an initial motion trajectory of the continuous moving contact, marking an optional state of the attribute information, in response to the motion deviating from the motion trajectory during the continuous moving contact, marking the attribute information corresponding to the one An optional state with an opposite state of choice; and,
    当所述持续移动接触位于在触摸显示屏上设定的选择区域内时,标记所述属性信息的一种可选状态,当所述持续移动接触位于在触摸显示屏上设定的选择区域外时,标记所述属性信息对应的与所述一种可选状态相反的可选状态。Marking an optional state of the attribute information when the continuous moving contact is located within a selection area set on the touch display screen, when the continuous moving contact is outside a selected area set on the touch display screen And marking the optional state corresponding to the one optional state corresponding to the attribute information.
  9. 根据权利要求8所述的医疗检测系统,其特征在于,所述第一移动方向与所述第二移动方向相反。The medical detection system of claim 8 wherein said first direction of movement is opposite said second direction of movement.
  10. 根据权利要求1所述的医疗检测系统,其特征在于,所述与所述持续移动接触相关联的多个备选对象至少包括以下之一:The medical detection system of claim 1 wherein said plurality of candidate objects associated with said continuous moving contact comprises at least one of:
    敏感区域位于以所述持续移动接触的操作位置为参考的预设范围或预设距离之内的备选对象;和 The sensitive area is located in a preset range or a preset distance within a preset distance referenced to the operating position of the continuous moving contact; and
    所述持续接触的运动轨迹所跨过的敏感区域对应的备选对象。The candidate object corresponding to the sensitive area spanned by the continuous contact motion track.
  11. 根据权利要求1所述的医疗检测系统,其特征在于,所述控制模块通过以下方式之一来响应所述持续移动接触而标记与所述持续移动接触相关联的多个备选对象对应的属性信息:The medical detection system of claim 1 wherein said control module marks attributes corresponding to said plurality of candidate objects associated with said continuous moving contact in response to said continuous moving contact in one of: information:
    沿所述持续移动接触的运动方向,依序连续标记多个备选对象对应的属性信息;Attribute information corresponding to the plurality of candidate objects is continuously marked in sequence along the moving direction of the continuous moving contact;
    同时标记所述持续移动接触的运动轨迹所跨过的所有备选对象对应的属性信息;和,Simultaneously marking attribute information corresponding to all candidate objects spanned by the motion trajectory of the continuous moving contact; and,
    按照所述持续移动接触的运动轨迹变化,跳跃标记所述持续移动接触的运动轨迹所跨过的所述多个备选对象中部分备选对象对应的属性信息。And according to the change of the motion track of the continuous moving contact, the jump marks the attribute information corresponding to the part of the plurality of candidate objects that the moving track of the continuous moving contact crosses.
  12. 根据权利要求11所述的医疗检测系统,其特征在于,所述控制模块通过以下方式实现所述按照所述持续移动接触的运动轨迹变化,跳跃标记所述持续移动接触的运动轨迹所跨过的多个备选对象中部分备选对象对应的属性信息:The medical detection system according to claim 11, wherein the control module realizes the change of the motion trajectory according to the continuous moving contact by jumping the flag that crosses the motion track of the continuous moving contact Attribute information corresponding to some candidate objects in multiple candidate objects:
    沿所述持续移动接触的初始轨迹的移动方向,依序连续标记多个备选对象对应的属性信息,或者同时标记所述初始轨迹所跨过的所有备选对象对应的属性信息;And along the moving direction of the initial trajectory of the continuous moving contact, continuously marking the attribute information corresponding to the plurality of candidate objects in sequence, or simultaneously marking the attribute information corresponding to all the candidate objects spanned by the initial trajectory;
    当所述持续移动接触偏离所述初始轨迹后再次回归所述初始轨迹时,响应回归所述初始轨迹后的持续移动接触,标记多个备选对象对应的属性信息。When the continuous moving contact returns to the initial trajectory after deviating from the initial trajectory, the attribute information corresponding to the plurality of candidate objects is marked in response to the continuous moving contact after the initial trajectory is returned.
  13. 根据权利要求1所述的医疗检测系统,其特征在于,所述多个备选对象位于一信息列表内,所述触摸显示屏上显示所述信息列表的一部分;且,所述控制模块还用于监测所述持续移动接触是否移动到所述信息列表边缘的显示位置处,当所述持续移动接触停止在所述信息列表的边缘显示位置处、并保持与触摸显示屏持续接触时,在第一方向上移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的其余部分,并标记所述其余部分中的备选对象对应的属性信息。The medical detection system according to claim 1, wherein the plurality of candidate objects are located in a list of information, and the touch display screen displays a part of the information list; and the control module further uses In monitoring whether the continuous moving contact moves to a display position of an edge of the information list, when the continuous moving contact stops at an edge display position of the information list and remains in constant contact with the touch display screen, The display information list displayed on the touch display screen is moved in one direction to display the remaining portion of the information list, and the attribute information corresponding to the candidate object in the remaining portion is marked.
  14. 根据权利要求13所述的医疗检测系统,其特征在于,所述在第一方 向上移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的其余部分还包括:在第一方向上每次移动显示信息列表时停留一段预定时间段,当预定时间段达到时再响应所述与触摸显示屏持续接触,标记所述其余部分中的备选对象对应的属性信息。The medical detection system of claim 13 wherein said first party Moving up the display information list displayed on the touch display screen to display the rest of the information list further includes: staying for a predetermined period of time each time the display information list is moved in the first direction, and responding when the predetermined time period is reached The continuous contact with the touch display screen marks attribute information corresponding to the candidate object in the remaining portion.
  15. 根据权利要求1所述的医疗检测系统,其特征在于,所述触摸显示屏上还包括设定的滚动区域,所述多个备选对象位于一信息列表内,所述数据处理模块在所述触摸显示屏上显示信息列表的第一部分;所述控制模块还:The medical detection system according to claim 1, wherein the touch display screen further comprises a set scroll area, the plurality of candidate objects are located in a list of information, and the data processing module is The first part of the information list is displayed on the touch display; the control module further:
    检测输入对象与触摸显示屏的接触在所述滚动区域内的移动,Detecting movement of the contact of the input object with the touch display screen within the scrolling area,
    响应所述接触在所述滚动区域内的移动,移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的除第一部分之外的其余部分的至少一部分。In response to movement of the contact within the scrolling region, a list of display information displayed on the touch display screen is moved to display at least a portion of the remainder of the list of information other than the first portion.
  16. 根据权利要求1所述的医疗检测系统,其特征在于,在所述触摸显示屏上,每个备选对象按照属性操作类型分别对应设置有多个功能控件区域;所述控制模块响应依序通过所述多个备选对象分别对应的多个功能控件区域之一所获得的持续移动接触,并标记所述多个备选对象的相应属性操作类型的属性信息。The medical detection system according to claim 1, wherein each candidate object is correspondingly provided with a plurality of function control regions according to the attribute operation type on the touch display screen; The continuous moving contact obtained by one of the plurality of functional control regions corresponding to the plurality of candidate objects respectively, and marking the attribute information of the corresponding attribute operation type of the plurality of candidate objects.
  17. 一种控制医疗检测系统的方法,所述医疗检测系统包括医疗检测装置,所述方法包括:A method of controlling a medical detection system, the medical detection system comprising a medical detection device, the method comprising:
    控制医疗检测装置对检测对象进行检测以获取医疗检测数据;Controlling the medical detecting device to detect the detected object to obtain medical test data;
    在触摸显示屏上显示多个备选对象,所述多个备选对象用于与所述医疗检测数据或者所述医疗检测装置进行关联操作;Displaying, on the touch display screen, a plurality of candidate objects for performing an association operation with the medical detection data or the medical detection device;
    检测输入对象与触摸显示屏的持续移动接触;Detecting continuous moving contact of the input object with the touch display screen;
    响应所述持续移动接触而标记与所述持续移动接触相关联的多个备选对象对应的属性信息。Attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact is marked in response to the continuous moving contact.
  18. 根据权利要求17所述的方法,其特征在于,所述多个备选对象采用表格形式或矩阵排列方式显示在触摸显示屏上。The method of claim 17, wherein the plurality of candidate objects are displayed on the touch display screen in a tabular or matrix arrangement.
  19. 根据权利要求17所述的方法,其特征在于,检测输入对象与触摸显 示屏的持续移动接触包括以下步骤之一:The method according to claim 17, wherein the input object and the touch display are detected The continuous moving contact of the screen includes one of the following steps:
    在触摸显示屏上设定的选择区域内检测输入对象与触摸显示屏的持续移动接触;Detecting continuous moving contact of the input object with the touch display screen in a selection area set on the touch display screen;
    检测输入对象在触摸显示屏上施加的预定压力范围内的持续移动接触;和,Detecting a continuous moving contact of the input object within a predetermined pressure range applied on the touch display screen; and,
    在触摸显示屏上设定的选择区域内,检测输入对象在触摸显示屏上施加的预定压力范围内的持续移动接触。In the selected area set on the touch display screen, a continuous moving contact of the input object within a predetermined pressure range applied on the touch display screen is detected.
  20. 根据权利要求17所述的方法,其特征在于,所述响应所述持续移动接触而标记与所述持续移动接触相关联的多个备选对象对应的属性信息包括:The method of claim 17, wherein the tagging the attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact in response to the continuous moving contact comprises:
    响应所述持续移动接触生成对应于所述属性信息的标记符号,并在所述触摸显示屏上与所述持续移动接触相关联的多个备选对象的相应位置显示所述标记符号,用以标记与所述持续移动接触相关联的多个备选对象对应的属性信息。Generating a marker symbol corresponding to the attribute information in response to the continuous moving contact, and displaying the marker symbol on a corresponding position of the plurality of candidate objects associated with the continuous moving contact on the touch display screen for Attribute information corresponding to a plurality of candidate objects associated with the continuous moving contact is marked.
  21. 根据权利要求17所述的方法,其特征在于,所述响应所述持续移动接触而标记与所述持续移动接触相关联的多个备选对象对应的属性信息包括:响应所述持续移动接触,而将与所述持续移动接触相关联的多个备选对象对应的所述属性信息的当前可选状态标记为与所述当前可选状态相反的可选状态。The method of claim 17, wherein the flagging the attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact in response to the continuous moving contact comprises: responsive to the continuous moving contact, And the current selectable state of the attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact is marked as an optional state opposite the current selectable state.
  22. 根据权利要求17所述的方法,其特征在于,所述响应所述持续移动接触而标记与所述持续移动接触相关联的多个备选对象对应的属性信息至少包括以下步骤之一:The method according to claim 17, wherein said attribute information corresponding to said plurality of candidate objects associated with said continuous moving contact in response to said continuous moving contact comprises at least one of the following steps:
    响应在第一移动方向上的所述持续移动接触,标记所述属性信息的一种可选状态,响应在第二移动方向上的所述持续移动接触,标记所述属性信息对应的与所述一种可选状态相反的可选状态;Responding to the continuous moving contact in the first moving direction, marking an optional state of the attribute information, in response to the continuous moving contact in the second moving direction, marking the attribute information corresponding to the An optional state with an opposite state of choice;
    响应奇数次所述持续移动接触,标记所述属性信息的一种可选状态,响应偶数次所述持续移动接触,标记所述属性信息对应的与所述一种可选状态相反的可选状态; Responding to the continual moving contact for an odd number of times, marking an optional state of the attribute information, in response to the even number of consecutive moving contacts, marking an optional state corresponding to the one optional state corresponding to the attribute information ;
    响应所述持续移动接触的初始运动轨迹,标记所述属性信息的一种可选状态,响应所述持续移动接触过程中偏离所述运动轨迹的运动,标记所述属性信息对应的与所述一种可选状态相反的可选状态;和,Responding to an initial motion trajectory of the continuous moving contact, marking an optional state of the attribute information, in response to the motion deviating from the motion trajectory during the continuous moving contact, marking the attribute information corresponding to the one An optional state with an opposite state of choice; and,
    当所述持续移动接触位于在触摸显示屏上设定的选择区域内时,标记所述属性信息的一种可选状态,当所述持续移动接触位于在触摸显示屏上设定的选择区域外时,标记所述属性信息对应的与所述一种可选状态相反的可选状态。Marking an optional state of the attribute information when the continuous moving contact is located within a selection area set on the touch display screen, when the continuous moving contact is outside a selected area set on the touch display screen And marking the optional state corresponding to the one optional state corresponding to the attribute information.
  23. 根据权利要求22所述的方法,其特征在于,所述第一移动方向与所述第二移动方向相反。The method of claim 22 wherein said first direction of movement is opposite said second direction of movement.
  24. 根据权利要求17所述的方法,其特征在于,所述与所述持续移动接触相关联的多个备选对象至少包括以下之一:The method of claim 17 wherein said plurality of candidate objects associated with said continuous moving contact comprises at least one of:
    敏感区域位于以所述持续移动接触的操作位置为参考的预设范围或预设距离之内的备选对象;和The sensitive area is located in a preset range or a preset distance within a preset distance referenced to the operating position of the continuous moving contact; and
    所述持续接触的运动轨迹所跨过的敏感区域对应的备选对象。The candidate object corresponding to the sensitive area spanned by the continuous contact motion track.
  25. 根据权利要求17所述的方法,其特征在于,所述响应所述持续移动接触以标记与所述持续移动接触相关联的多个备选对象对应的属性信息至少包括以下步骤之一:The method of claim 17, wherein the responding to the continuous moving contact to mark attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact comprises at least one of the following steps:
    沿所述持续移动接触的运动方向,依序连续标记多个备选对象对应的属性信息;Attribute information corresponding to the plurality of candidate objects is continuously marked in sequence along the moving direction of the continuous moving contact;
    同时标记所述持续移动接触的运动轨迹所跨过的所有备选对象对应的属性信息;和,Simultaneously marking attribute information corresponding to all candidate objects spanned by the motion trajectory of the continuous moving contact; and,
    按照所述持续移动接触的运动轨迹变化,跳跃标记所述持续移动接触的运动轨迹所跨过的所述多个备选对象对应的属性信息。According to the change of the motion track of the continuous moving contact, the jump marks the attribute information corresponding to the plurality of candidate objects that the moving track of the continuous moving contact crosses.
  26. 根据权利要求25所述的方法,其特征在于,按照所述持续移动接触的运动轨迹变化,跳跃标记所述持续移动接触的运动轨迹所跨过的多个备选对象中部分备选对象对应的属性信息的步骤中,包括:The method according to claim 25, wherein, according to the change of the motion trajectory of the continuous moving contact, the jump marks a portion of the plurality of candidate objects that are crossed by the motion trajectory of the continuous moving contact The steps of the attribute information include:
    沿所述持续移动接触的初始轨迹的移动方向,依序连续标记多个备选对 象对应的属性信息,或者同时标记所述初始轨迹所跨过的所有备选对象对应的属性信息;Marking a plurality of candidate pairs in sequence along the moving direction of the initial trajectory of the continuous moving contact Corresponding attribute information, or at the same time marking attribute information corresponding to all candidate objects spanned by the initial trajectory;
    当所述持续移动接触偏离所述初始轨迹后再次回归所述初始轨迹时,响应回归所述初始轨迹后的持续移动接触,标记多个备选对象对应的属性信息。When the continuous moving contact returns to the initial trajectory after deviating from the initial trajectory, the attribute information corresponding to the plurality of candidate objects is marked in response to the continuous moving contact after the initial trajectory is returned.
  27. 根据权利要求17所述的方法,其特征在于,所述多个备选对象位于一信息列表内,所述在触摸显示屏上显示多个备选对象的步骤中,在所述触摸显示屏上显示所述信息列表的一部分;且,所述方法中还包括:The method according to claim 17, wherein said plurality of candidate objects are located in a list of information, said step of displaying a plurality of candidate objects on the touch display screen on said touch display screen Displaying a part of the information list; and the method further includes:
    监测所述持续移动接触是否移动到所述信息列表边缘的显示位置处,其中,Monitoring whether the continuous moving contact moves to a display position at an edge of the information list, wherein
    当所述持续移动接触停止在所述信息列表的边缘显示位置处、并保持与触摸显示屏持续接触时,在第一方向上移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的其余部分,并标记所述其余部分中的备选对象对应的属性信息。Moving the display information list displayed on the touch display screen to display the information list in the first direction when the continuous moving contact stops at the edge display position of the information list and remains in continuous contact with the touch display screen The rest of the section, and tag the attribute information corresponding to the candidate object in the remaining part.
  28. 根据权利要求27所述的方法,其特征在于,所述在第一方向上移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的其余部分还包括:在第一方向上每次移动显示信息列表时停留一段预定时间段,当预定时间段达到时再响应所述与触摸显示屏持续接触,标记所述其余部分中的备选对象对应的属性信息。The method according to claim 27, wherein said moving the display information list displayed on the touch display screen in the first direction to display the remaining portion of the information list further comprises: each time in the first direction The display information list is moved for a predetermined period of time, and when the predetermined time period is reached, the attribute information corresponding to the candidate object in the remaining portion is marked in response to the continuous contact with the touch display screen.
  29. 根据权利要求17所述的方法,其特征在于,所述触摸显示屏上还包括设定的滚动区域,所述多个备选对象位于一信息列表内,所述在触摸显示屏上显示多个备选对象的步骤中,在所述触摸显示屏上显示信息列表的第一部分;所述方法还包括:The method according to claim 17, wherein the touch display screen further comprises a set scrolling area, the plurality of candidate objects are located in a list of information, and the displaying is displayed on the touch display screen. In the step of selecting an object, displaying a first portion of the information list on the touch display screen; the method further comprising:
    检测输入对象与触摸显示屏的接触在所述滚动区域内的移动,Detecting movement of the contact of the input object with the touch display screen within the scrolling area,
    响应所述接触在所述滚动区域内的移动,移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的除第一部分之外的其余部分的至少一部分。In response to movement of the contact within the scrolling region, a list of display information displayed on the touch display screen is moved to display at least a portion of the remainder of the list of information other than the first portion.
  30. 根据权利要求17所述的方法,其特征在于,在所述触摸显示屏上,每个备选对象按照属性操作类型分别对应设置有多个功能控件区域;所述方 法中,响应依序通过所述多个备选对象分别对应的多个功能控件区域之一所获得的持续移动接触,并标记所述多个备选对象的相应属性操作类型的属性信息。The method according to claim 17, wherein each of the candidate objects is respectively provided with a plurality of function control regions according to the attribute operation type on the touch display screen; The method sequentially responds to the continuous moving contact obtained by one of the plurality of functional control regions respectively corresponding to the plurality of candidate objects, and marks the attribute information of the corresponding attribute operation type of the plurality of candidate objects.
  31. 一种控制医疗检测系统的方法,所述医疗检测系统包括触摸显示屏和医疗检测装置,所述触摸显示屏包括选择区域和滚动区域,所述方法包括:A method of controlling a medical detection system, the medical detection system comprising a touch display screen and a medical detection device, the touch display screen comprising a selection area and a scroll area, the method comprising:
    控制医疗检测装置对检测对象进行检测以获取医疗检测数据;Controlling the medical detecting device to detect the detected object to obtain medical test data;
    在触摸显示屏上显示包含多个备选对象的信息列表的第一部分,所述多个备选对象用于与所述医疗检测数据或者所述医疗检测装置进行关联操作;Displaying, on a touch display screen, a first portion of a list of information comprising a plurality of candidate objects for performing an association operation with the medical detection data or the medical detection device;
    检测输入对象与所述触摸显示屏的接触;Detecting contact of the input object with the touch display screen;
    确定所述接触在所述触摸显示屏上的操作位置,Determining an operational position of the contact on the touch display screen,
    当所述操作位置位于触摸显示屏上的选择区域内时,响应所述输入对象在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息;Marking, in the first portion of the list of information, the continuous moving contact in response to the continuous moving contact of the input object within the selection area when the operating position is within a selected area on the touch display screen Attribute information corresponding to multiple candidate objects;
    当所述操作位置位于触摸显示屏上的滚动区域内时,响应所述输入对象在所述滚动区域内的所述接触的运动而移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的除第一部分之外的其余部分的至少一部分。Displaying a list of display information displayed on the touch display screen to display the information in response to movement of the contact of the input object within the scroll area when the operation position is within a scroll area on the touch display screen At least a portion of the remainder of the list except the first portion.
  32. 根据权利要求31所述的方法,其特征在于,所述信息列表中的多个备选对象采用表格形式或矩阵形式显示在触摸显示屏上。The method according to claim 31, wherein the plurality of candidate objects in the information list are displayed on the touch display screen in a tabular form or a matrix form.
  33. 根据权利要求31所述的方法,其特征在于,所述响应所述输入对象在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息包括:The method of claim 31 wherein said responsive to said continuous moving contact of said input object within said selection area marks a plurality of associated portions of said list of information associated with said continuous moving contact The attribute information corresponding to the candidate objects includes:
    响应所述持续移动接触生成对应于所述属性信息的标记符号,并在所述触摸显示屏上所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象的相应位置显示所述标记符号,用以标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息。Generating, in response to the continuous moving contact, a marker symbol corresponding to the attribute information, and corresponding positions of the plurality of candidate objects associated with the continuous moving contact in the first portion of the information list on the touch display screen The mark symbol is displayed to mark attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact in the first portion of the information list.
  34. 根据权利要求31所述的方法,其特征在于,所述响应所述输入对象 在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息包括:响应所述持续移动接触而将所述属性信息的当前可选状态标记为与所述当前可选状态相反的可选状态。The method of claim 31 wherein said responding to said input object Attribute information corresponding to the plurality of candidate objects associated with the continuous moving contact in the first portion of the list of information in the continuous movement contact within the selection area comprises: responsive to the continuous moving contact The current selectable state of the attribute information is marked as an optional state that is opposite to the current selectable state.
  35. 根据权利要求31所述的方法,其特征在于,所述响应所述输入对象在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息至少包括以下步骤之一:The method of claim 31 wherein said responsive to said continuous moving contact of said input object within said selection area marks a plurality of associated portions of said list of information associated with said continuous moving contact The attribute information corresponding to the candidate objects includes at least one of the following steps:
    响应在第一移动方向上的所述持续移动接触,标记所述属性信息的一种可选状态,响应在第二移动方向上的所述持续移动接触,标记所述属性信息对应的与所述一种可选状态相反的可选状态;Responding to the continuous moving contact in the first moving direction, marking an optional state of the attribute information, in response to the continuous moving contact in the second moving direction, marking the attribute information corresponding to the An optional state with an opposite state of choice;
    响应奇数次所述持续移动接触,标记所述属性信息的一种可选状态,响应偶数次所述持续移动接触,标记所述属性信息对应的与所述一种可选状态相反的可选状态;Responding to the continual moving contact for an odd number of times, marking an optional state of the attribute information, in response to the even number of consecutive moving contacts, marking an optional state corresponding to the one optional state corresponding to the attribute information ;
    响应所述持续移动接触的初始运动轨迹,标记所述属性信息的一种可选状态,响应所述持续移动接触过程中偏离所述运动轨迹的运动,标记所述属性信息对应的与所述一种可选状态相反的可选状态;和,Responding to an initial motion trajectory of the continuous moving contact, marking an optional state of the attribute information, in response to the motion deviating from the motion trajectory during the continuous moving contact, marking the attribute information corresponding to the one An optional state with an opposite state of choice; and,
    当所述持续移动接触位于在触摸显示屏上设定的选择区域内时,标记所述属性信息的一种可选状态,当所述持续移动接触位于在触摸显示屏上设定的选择区域外时,标记所述属性信息对应的与所述一种可选状态相反的可选状态。Marking an optional state of the attribute information when the continuous moving contact is located within a selection area set on the touch display screen, when the continuous moving contact is outside a selected area set on the touch display screen And marking the optional state corresponding to the one optional state corresponding to the attribute information.
  36. 根据权利要求35所述的方法,其特征在于,所述第一移动方向与所述第二移动方向相反。The method of claim 35 wherein said first direction of movement is opposite said second direction of movement.
  37. 根据权利要求31所述的方法,其特征在于,所述与所述持续移动接触相关联的多个备选对象至少包括以下之一:The method of claim 31 wherein said plurality of candidate objects associated with said continuous moving contact comprises at least one of:
    敏感区域位于以所述持续移动接触的操作位置为参考的预设范围或预设距离之内的备选对象;或者,The sensitive area is located in a preset range or a preset distance within a preset distance referenced to the operating position of the continuous moving contact; or
    所述持续接触的运动轨迹所跨过的敏感区域对应的备选对象。 The candidate object corresponding to the sensitive area spanned by the continuous contact motion track.
  38. 根据权利要求31所述的方法,其特征在于,所述响应所述输入对象在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息至少包括以下步骤之一:The method of claim 31 wherein said responsive to said continuous moving contact of said input object within said selection area marks a plurality of associated portions of said list of information associated with said continuous moving contact The attribute information corresponding to the candidate objects includes at least one of the following steps:
    沿所述持续移动接触的运动方向,依序连续标记多个备选对象对应的属性信息;Attribute information corresponding to the plurality of candidate objects is continuously marked in sequence along the moving direction of the continuous moving contact;
    同时标记所述持续移动接触的运动轨迹所跨过的所有备选对象对应的属性信息;和,Simultaneously marking attribute information corresponding to all candidate objects spanned by the motion trajectory of the continuous moving contact; and,
    按照所述持续移动接触的运动轨迹变化,跳跃标记所述持续移动接触的运动轨迹所跨过的多个备选对象中部分备选对象对应的属性信息。According to the change of the motion track of the continuous moving contact, the jump marks the attribute information corresponding to a part of the candidate objects of the plurality of candidate objects that the moving track of the continuous moving contact crosses.
  39. 根据权利要求38所述的方法,其特征在于,按照所述持续移动接触的运动轨迹变化,跳跃标记所述持续移动接触的运动轨迹所跨过的多个备选对象中部分备选对象对应的属性信息的步骤中,包括:The method according to claim 38, wherein, according to the change of the motion trajectory of the continuous moving contact, the jump marks a portion of the plurality of candidate objects that are crossed by the motion trajectory of the continuous moving contact The steps of the attribute information include:
    沿所述持续移动接触的初始轨迹的移动方向,依序连续标记多个备选对象对应的属性信息,或者同时标记所述初始轨迹所跨过的所有备选对象对应的属性信息;And along the moving direction of the initial trajectory of the continuous moving contact, continuously marking the attribute information corresponding to the plurality of candidate objects in sequence, or simultaneously marking the attribute information corresponding to all the candidate objects spanned by the initial trajectory;
    当所述持续移动接触偏离所述初始轨迹后再次回归所述初始轨迹时,响应回归所述初始轨迹后的持续移动接触,标记与回归所述初始轨迹后的所述持续移动接触相关联的多个备选对象对应的属性信息。When the continuous moving contact returns to the initial trajectory after deviating from the initial trajectory, in response to the continuous moving contact after returning the initial trajectory, marking the associated with the continuous moving contact after returning the initial trajectory Attribute information corresponding to the candidate object.
  40. 一种医疗检测系统,其特征在于,所述系统包括:A medical detection system, characterized in that the system comprises:
    触摸显示屏;Touch the display;
    医疗检测装置,所述医疗检测装置对检测对象进行检测以获取医疗检测数据;a medical detecting device that detects a detection target to acquire medical detection data;
    数据处理模块,所述数据处理模块生成包含与所述医疗检测数据或者所述医疗检测装置进行关联操作的多个备选对象的信息列表;及a data processing module, the data processing module generating a list of information including a plurality of candidate objects associated with the medical detection data or the medical detection device; and
    控制模块,所述控制模块在触摸显示屏上显示所述信息列表的第一部分,检测输入对象与触摸显示屏的接触,确定所述接触在所述触摸显示屏上的操 作位置,并且当所述操作位置位于触摸显示屏上的选择区域内时,响应所述输入对象在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息,当所述操作位置位于触摸显示屏上的滚动区域内时,响应所述输入对象在所述滚动区域内的所述接触的运动而移动显示在触摸显示屏上的显示信息列表以显示所述信息列表的除第一部分之外的其余部分的至少一部分。a control module, the control module displays a first portion of the information list on a touch display screen, detects contact of the input object with the touch display screen, and determines operation of the contact on the touch display screen Positioning, and when the operating position is within a selected area on the touch display screen, marking the continuous movement in the first portion of the list of information in response to a continuous moving contact of the input object within the selected area Contacting attribute information corresponding to the plurality of candidate objects, when the operation position is located in a scroll area on the touch display screen, moving display in response to movement of the contact of the input object in the scroll area A list of displayed information on the touch display screen is displayed to display at least a portion of the remainder of the list of information other than the first portion.
  41. 根据权利要求40所述的医疗检测系统,其特征在于,所述医疗检测装置包括:超声检测装置,所述超声检测装置通过探头向所述检测对象发射超声波、接收超声回波并后获得超声图像数据作为所述医疗检测数据。The medical detecting system according to claim 40, wherein said medical detecting means comprises: ultrasonic detecting means for transmitting ultrasonic waves to said detecting object by a probe, receiving ultrasonic echoes, and obtaining ultrasonic images Data is used as the medical test data.
  42. 根据权利要求40所述的医疗检测系统,其特征在于,所述控制模块响应所述持续移动接触生成对应于所述属性信息的标记符号,并在所述触摸显示屏上所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象的相应位置显示所述标记符号,用以标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息。The medical detection system according to claim 40, wherein said control module generates a marker symbol corresponding to said attribute information in response to said continuous moving contact, and said number of said information list on said touch display screen Corresponding locations of the plurality of candidate objects associated with the continuous moving contact in a portion display the marker symbols to mark a plurality of candidate objects associated with the continuous moving contact in the first portion of the information list Corresponding attribute information.
  43. 根据权利要求40所述的医疗检测系统,其特征在于,所述控制模块响应所述输入对象在所述选择区域内的所述持续移动接触而将所述属性信息的当前可选状态标记为与所述当前可选状态相反的可选状态。A medical detection system according to claim 40, wherein said control module marks the current selectable state of said attribute information as being in response to said continuous moving contact of said input object within said selection area The optional state in which the current selectable state is reversed.
  44. 根据权利要求40所述的医疗检测系统,其特征在于,所述控制模块通过以下方式之一响应所述输入对象在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息:A medical detection system according to claim 40, wherein said control module marks in said first portion of said list of information in response to a continuous moving contact of said input object within said selection area by one of: The continuous moving contacts contact attribute information corresponding to the plurality of candidate objects:
    响应在第一移动方向上的所述持续移动接触,标记所述属性信息的一种可选状态,响应在第二移动方向上的所述持续移动接触,标记所述属性信息对应的与所述一种可选状态相反的可选状态;Responding to the continuous moving contact in the first moving direction, marking an optional state of the attribute information, in response to the continuous moving contact in the second moving direction, marking the attribute information corresponding to the An optional state with an opposite state of choice;
    响应奇数次所述持续移动接触,标记所述属性信息的一种可选状态,响应偶数次所述持续移动接触,标记所述属性信息对应的与所述一种可选状态相反的可选状态; Responding to the continual moving contact for an odd number of times, marking an optional state of the attribute information, in response to the even number of consecutive moving contacts, marking an optional state corresponding to the one optional state corresponding to the attribute information ;
    响应所述持续移动接触的初始运动轨迹,标记所述属性信息的一种可选状态,响应所述持续移动接触过程中偏离所述运动轨迹的运动,标记所述属性信息对应的与所述一种可选状态相反的可选状态;和,Responding to an initial motion trajectory of the continuous moving contact, marking an optional state of the attribute information, in response to the motion deviating from the motion trajectory during the continuous moving contact, marking the attribute information corresponding to the one An optional state with an opposite state of choice; and,
    当所述持续移动接触位于在触摸显示屏上设定的选择区域内时,标记所述属性信息的一种可选状态,当所述持续移动接触位于在触摸显示屏上设定的选择区域外时,标记所述属性信息对应的与所述一种可选状态相反的可选状态。Marking an optional state of the attribute information when the continuous moving contact is located within a selection area set on the touch display screen, when the continuous moving contact is outside a selected area set on the touch display screen And marking the optional state corresponding to the one optional state corresponding to the attribute information.
  45. 根据权利要求44所述的医疗检测系统,其特征在于,所述第一移动方向与所述第二移动方向相反。The medical detection system of claim 44 wherein said first direction of movement is opposite said second direction of movement.
  46. 根据权利要求40所述的医疗检测系统,其特征在于,所述与所述持续移动接触相关联的多个备选对象至少包括以下之一:The medical detection system of claim 40 wherein said plurality of candidate objects associated with said continuous moving contact comprises at least one of:
    敏感区域位于以所述持续移动接触的操作位置为参考的预设范围或预设距离之内的备选对象;或者,The sensitive area is located in a preset range or a preset distance within a preset distance referenced to the operating position of the continuous moving contact; or
    所述持续接触的运动轨迹所跨过的敏感区域对应的备选对象。The candidate object corresponding to the sensitive area spanned by the continuous contact motion track.
  47. 根据权利要求40所述的医疗检测系统,其特征在于,所述控制模块通过以下方式之一响应所述输入对象在所述选择区域内的持续移动接触而标记所述信息列表的第一部分中与所述持续移动接触相关联的多个备选对象对应的属性信息:A medical detection system according to claim 40, wherein said control module marks in said first portion of said list of information in response to a continuous moving contact of said input object within said selection area by one of: The continuous moving contacts contact attribute information corresponding to the plurality of candidate objects:
    沿所述持续移动接触的运动方向,依序连续标记多个备选对象对应的属性信息;Attribute information corresponding to the plurality of candidate objects is continuously marked in sequence along the moving direction of the continuous moving contact;
    同时标记所述持续移动接触的运动轨迹所跨过的所有备选对象对应的属性信息;和,Simultaneously marking attribute information corresponding to all candidate objects spanned by the motion trajectory of the continuous moving contact; and,
    按照所述持续移动接触的运动轨迹变化,跳跃标记所述持续移动接触的运动轨迹所跨过的多个备选对象中部分备选对象对应的属性信息。According to the change of the motion track of the continuous moving contact, the jump marks the attribute information corresponding to a part of the candidate objects of the plurality of candidate objects that the moving track of the continuous moving contact crosses.
  48. 根据权利要求47所述的医疗检测系统,其特征在于,所述控制模块沿所述持续移动接触的初始轨迹的移动方向依序连续标记多个备选对象对应的属性信息,或者同时标记所述初始轨迹所跨过的所有备选对象对应的属性 信息;并且当所述持续移动接触偏离所述初始轨迹后再次回归所述初始轨迹时,响应回归所述初始轨迹后的持续移动接触,标记与回归所述初始轨迹后的所述持续移动接触相关联的多个备选对象对应的属性信息。 The medical detection system according to claim 47, wherein the control module continuously marks the attribute information corresponding to the plurality of candidate objects sequentially along the moving direction of the initial trajectory of the continuous moving contact, or simultaneously marks the The attribute corresponding to all candidate objects spanned by the initial trajectory Information; and when the continuous moving contact returns to the initial trajectory after deviating from the initial trajectory, the continuous moving contact after returning to the initial trajectory is correlated with the continuous moving contact after regressing the initial trajectory Attribute information corresponding to multiple candidate objects.
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