CN113050867B

CN113050867B - Control method and interaction equipment

Info

Publication number: CN113050867B
Application number: CN202110351989.0A
Authority: CN
Inventors: 覃辉军
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2021-03-31
Filing date: 2021-03-31
Publication date: 2022-10-25
Anticipated expiration: 2041-03-31
Also published as: CN113050867A

Abstract

The application discloses a control method and interaction equipment, wherein the method comprises the following steps: under the condition that the interactive equipment is connected with the electronic equipment, obtaining system parameters representing an operating system configured by the electronic equipment; after touch operation is received on the interactive equipment, processing the touch operation according to the system type of the operating system represented by the system parameters to obtain a touch instruction; and transmitting the touch instruction to the electronic equipment on the interactive equipment so as to trigger the electronic equipment to execute corresponding operation at least according to the touch instruction.

Description

Control method and interaction equipment

Technical Field

The present application relates to the field of device control technologies, and in particular, to a control method and an interaction device.

Background

At present, in order to expand the display, a display is usually connected to an external device such as a notebook or a mobile phone.

However, when a touch display screen is connected to a device at present, the touch function of the touch display screen can be used or even cannot be used only when the connected device is configured with a specific operating system.

Disclosure of Invention

In view of the above, the present application provides a control method and an interaction device, as follows:

a control method, comprising:

under the condition that the interactive equipment is connected with the electronic equipment, obtaining system parameters representing an operating system configured by the electronic equipment;

after receiving touch operation on the interactive equipment, processing the touch operation according to the system type of the operating system represented by the system parameters to obtain a touch instruction;

and transmitting the touch instruction to the electronic equipment on the interactive equipment so as to trigger the electronic equipment to execute corresponding operation at least according to the touch instruction.

Preferably, the method for processing the touch operation according to the system type of the operating system represented by the system parameter to obtain the touch instruction includes:

processing the touch operation according to a first processing mode to obtain a touch instruction under the condition that the system parameter represents that an operating system configured by the electronic equipment is of a first system type; the first processing mode corresponds to the first system type, so that the touch instruction can be identified by an electronic device which configures an operating system of the first system type;

processing the touch operation according to a second processing mode under the condition that the system parameter represents that the operating system configured by the electronic equipment is of a second system type, so as to obtain a touch instruction; the second processing manner corresponds to the second system type, so that the touch instruction can be identified by the electronic device configuring the operating system of the second system type.

In the above method, preferably, when the touch operation is of the first touch type, the touch operation includes at least one operation position parameter; under the condition that the touch operation is of a second touch type, the touch operation comprises an operation position parameter;

the processing the touch operation according to a first processing mode to obtain a touch instruction includes:

under the condition that the touch operation is of a first touch type, converting at least one operation position parameter in the touch operation according to a first conversion rule to obtain a touch instruction;

under the condition that the touch operation is of a second touch type, converting an operation position parameter in the touch operation according to a second conversion rule to obtain a touch instruction;

the first conversion rule corresponds to the first touch type, and the second conversion rule corresponds to the second touch type.

wherein, processing the touch operation according to a second processing mode to obtain a touch instruction includes:

under the condition that the touch operation is of a second touch type, converting the touch operation into the touch operation of the first touch type, and converting an operation position parameter in the touch operation according to a third conversion rule to obtain a touch instruction;

the first conversion rule corresponds to the first touch type, and the third conversion rule is the first conversion rule, or the third conversion rule is a conversion rule having the same conversion mode as the first conversion rule.

The method preferably obtains system parameters characterizing an operating system configured for the electronic device, and includes:

acquiring equipment parameters of the electronic equipment according to a connection interface between the interactive equipment and the electronic equipment;

obtaining, from the device parameters, system parameters characterizing an operating system configured for the electronic device.

outputting a parameter configuration interface, wherein the parameter configuration interface at least comprises a parameter configuration control;

under the condition that configuration operation aiming at the parameter configuration control is received, obtaining system parameters representing an operating system configured by the electronic equipment according to the configuration operation;

the interactive device can be used for outputting first content transmitted by the electronic device and outputting second content generated by the interactive device, when the second content and the first content are output simultaneously, the second content and the first content are output in a stacked mode, the second content covers the first content, and the second content at least comprises the parameter configuration interface.

In the method, preferably, the parameter configuration interface is output when the interactive device monitors that the electronic device is connected to the interactive device, or the parameter configuration interface is output when the interactive device receives an interface triggering operation.

In the above method, preferably, the touch area of the touch operation on the interactive device is related to the gesture of the interactive device;

and under the condition that the interaction equipment rotates, the touch area changes along with the change of the rotation angle of the interaction equipment.

An interaction device, comprising:

the connection interface is used for connecting electronic equipment;

the input device is used for receiving touch operation;

the processor is used for acquiring system parameters for representing an operating system configured by the electronic equipment under the condition that the electronic equipment is connected to the connection interface; after touch operation is received on the input device, processing the touch operation according to the system type of the operating system represented by the system parameters to obtain a touch instruction; and transmitting the touch instruction to the electronic equipment so as to trigger the electronic equipment to execute corresponding operation at least according to the touch instruction.

The above-mentioned interactive device, preferably:

an output device;

wherein the processor is specifically configured to: triggering the output device to output a parameter configuration interface, wherein the parameter configuration interface at least comprises a parameter configuration control; under the condition that the configuration operation aiming at the parameter configuration control is received on the input device, obtaining system parameters representing an operating system configured by the electronic equipment according to the configuration operation;

the output device can be used for outputting first content transmitted by the electronic device and also outputting second content generated by the interactive device, when the second content and the first content are output simultaneously, the second content and the first content are output in a stacked manner, and the second content covers the first content, and the second content at least comprises the parameter configuration interface.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a flowchart of a control method according to an embodiment of the present disclosure;

fig. 2 is a partial flowchart of a control method according to an embodiment of the present application;

FIGS. 3-5 are diagrams illustrating examples of applications of embodiments of the present application;

fig. 6 and fig. 7 are respectively another partial flow charts of a control method according to an embodiment of the present disclosure;

FIGS. 8 and 9 are diagrams illustrating another exemplary application of the present application;

fig. 10 is a schematic structural diagram of a control device according to a second embodiment of the present application;

fig. 11 is a schematic structural diagram of an interaction device according to a third embodiment of the present application;

fig. 12-15 are schematic diagrams respectively illustrating a touch display according to the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, a flowchart of an implementation of a control method provided in an embodiment of the present application is shown, where the method may be applied to an interactive device capable of performing input and output interaction, such as a touch display screen. The technical scheme in the embodiment is mainly used for improving the interaction reliability of the interaction equipment.

Specifically, the method in this embodiment may include the following steps:

step 101: and monitoring whether the interactive equipment is connected with the electronic equipment or not, and executing the step 102 under the condition that the electronic equipment is connected with the interactive equipment.

In this embodiment, the connection interface on the interactive device may be monitored, and when the interface information on the connection interface indicates that the electronic device is connected to the connection interface, it is determined that the electronic device is connected to the interactive device.

Under one condition, the interactive equipment is in a running state after the startup is finished, and when the electronic equipment is connected to a connection interface on the interactive equipment, the interactive equipment determines that the electronic equipment is connected to the interactive equipment according to the conversion state of interface information on the connection interface;

in another case, the electronic device is already connected to the interactive device before the interactive device is powered on, and during or after the interactive device is powered on, the electronic device is determined to be connected to the interactive device by detecting the interface information on the connection interface.

It should be noted that the electronic device in the present disclosure may be understood as a device, such as a computer or a server, which is capable of configuring an operating system and implementing corresponding functions. The operating system configured on the electronic device may have a plurality of different system types, such as operating systems provided by different operating system vendors or operating systems with different system bits.

Step 102: system parameters characterizing an operating system configured for the electronic device are obtained.

The system parameters obtained in this embodiment may be represented by a system identifier such as a system name, a system serial number, or a system version, so as to uniquely characterize the system type of the operating system configured by the electronic device.

Specifically, in this embodiment, the system parameter may be obtained in an interface detection manner or a user operation detection manner, so as to determine a system type of an operating system configured by the electronic device that is characterized by the system parameter.

Step 103: whether the touch operation is received on the interactive device is monitored, and after the touch operation is received on the interactive device, step 104 is executed.

The interactive device is provided with a touch module for receiving touch operation, and an output module for outputting contents such as text, image, audio or video. In specific implementation, the touch module and the output module may be integrated together, such as a touch display screen, or the touch module and the output module may also be independently arranged, such as a digital board connected with a display screen.

Specifically, the touch operation may be a single-point or multi-point single click, double click, sliding or dragging operation performed by a stylus or a user operation body, and based on this, the touch operation is received through a touch module on the interactive device in this embodiment.

Step 104: and processing the touch operation according to the system type of the operating system represented by the system parameters to obtain a touch instruction.

Therefore, no matter what system type of operating system the electronic device connected to the interaction device is configured with, a touch instruction corresponding to the touch operation can be obtained in this embodiment, so that the electronic device configured with different operating systems can recognize the touch instruction.

Step 105: and transmitting the touch instruction to the electronic equipment on the interactive equipment so as to trigger the electronic equipment to execute corresponding operation at least according to the touch instruction.

The touch instruction may be used to instruct the electronic device to perform a corresponding operation, such as selecting a certain control, amplifying a certain picture, moving a certain file, and the like.

According to the foregoing scheme, in the control method provided in the embodiment of the present application, when the electronic device is connected to the interactive device, the system parameter representing the operating system configured by the electronic device is obtained, so that the touch operation received on the interactive device is processed according to the system type of the operating system represented by the system parameter, so as to obtain the touch instruction that can be recognized by the electronic device, and after the touch instruction is transmitted to the electronic device, the electronic device can execute the operation corresponding to the touch instruction. As can be seen, in the embodiment, different processing is performed on the touch operation according to different system types of operating systems configured for the electronic device, so that the electronic device can recognize the obtained touch instruction and execute the corresponding operation, thereby avoiding a situation that the interactive device has a wrong touch or even cannot be used due to different operating systems configured for the electronic device, and improving the reliability of interaction performed by the interactive device.

In one implementation manner, when the touch operation is processed according to the system type of the operating system represented by the system parameter in step 104, different processing manners may be used to process the touch operation based on different types of the operating systems configured for the electronic device represented by the system parameter, which may specifically be implemented by the following steps, as shown in fig. 2:

step 201: and judging the system type of the operating system configured by the electronic equipment represented by the system parameter, executing the step 202 under the condition that the operating system configured by the electronic equipment represented by the system parameter is the first system type, and executing the step 203 under the condition that the operating system configured by the electronic equipment represented by the system parameter is the second system type.

Step 202: processing the touch operation according to a first processing mode to obtain a touch instruction, wherein the first processing mode corresponds to a first system type, so that the touch instruction obtained through processing can be identified by the electronic equipment configured with an operating system of the first system type;

step 203: and processing the touch operation according to a second processing mode to obtain a touch instruction, wherein the second processing mode corresponds to the second system type, so that the touch instruction obtained through processing can be recognized by the electronic equipment configured with the operating system of the second system type.

The first system type is different from the second system type, for example, the first system type may be a Windows type, and the second system type is an Android type; of course the first system type and the second system type may be any two different types from the following: based on the fact that the first processing mode and the second processing mode in this embodiment are correspondingly different, the first processing mode can process the touch operation into a touch instruction that can be recognized by a Windows-type operating system, and the second processing mode can process the touch operation into a touch instruction that can be recognized by an Android-type or Chrome-type operating system, so that the touch operation received on the interactive device can be accurately recognized and corresponding functions can be executed no matter which operating system is configured in the electronic device, such as selecting a certain control, amplifying a certain picture, moving a certain file, and the like.

In a specific implementation, due to different touch types, operation position parameters included in the touch operation are different, for example, when the touch operation is a first touch type such as a user operation body touch type, the user operation body may perform an input operation of a single operation body or multiple operation bodies on the interactive device, at this time, the touch operation may include an operation position parameter corresponding to one single operation body, as shown in fig. 3, at this time, the operation position parameter is one, which includes parameters such as an operation position coordinate, a coverage range, a duration and the like, such as a finger performing a touch input on the touch display screen; or, the touch operation may include one operation position parameter corresponding to each of the multiple operation bodies, as shown in fig. 4, at this time, the operation position parameters are multiple, and each operation position parameter may include parameters such as an operation position coordinate, a coverage area, a duration, and the like, for example, multiple fingers perform touch input on the touch display screen at the same time;

however, when the touch operation is a second touch type, such as a stylus touch type, the stylus may only perform a single-point input operation on the interactive device, and at this time, the touch operation only includes one operation position parameter, as shown in fig. 5, only one operation position parameter includes parameters such as a touch position coordinate and a duration, such as a touch input performed by the stylus on the touch screen.

Based on the above implementation, since the types of the operating systems are different, it is also different whether different types of touch operations such as a user operating body or a pen can be recognized. Therefore, in order to enable electronic devices configured with different operating systems to recognize touch instructions corresponding to different touch operations, in this embodiment, when the operating system configured with the system parameter representation electronic device is a first operating system, such as a Windows type, the operating parameters in the touch operations may be converted by using different conversion rules according to the touch types of the touch operations, so as to obtain corresponding touch instructions; when the operating system configured by the system parameter characterization electronic device is a second operating system, such as an Android type or a Chrome type, the operating parameters in the touch operation can be converted by adopting different conversion rules according to the touch type of the touch operation, so as to obtain a corresponding touch instruction.

Specifically, when the touch operation is processed according to the first processing manner in step 202, the following manner may be specifically implemented to obtain the touch instruction:

the first conversion rule corresponds to the first touch type, the second conversion rule corresponds to the second touch type, and the first conversion rule and the second conversion rule are different.

Specifically, the first conversion rule may be a rule capable of processing multiple Touch operations of the user operation body at the same time, such as a Multi-Touch Protocol (MTP), and the second conversion rule may be a rule capable of processing Touch operations of the stylus pen, such as a Microsoft Pen Protocol (MPP), so that when the Touch operations of the user operation body are received on the interactive device, the MTP is used to process the Touch operations, such as performing Protocol conversion on operation position parameters, to obtain corresponding Touch instructions, and after the Touch instructions are transmitted to the electronic device, the electronic device equipped with the Windows operation system may recognize the Touch instructions and perform corresponding operations according to the instructions of the Touch instructions; and when receiving the touch operation of the stylus on the interactive device, processing the touch operation by using the MPP protocol, for example, performing protocol conversion and the like on the operation position parameter, to obtain a corresponding touch instruction, where after the touch instruction is transmitted to the electronic device, the electronic device configured with the Windows operating system is capable of recognizing the touch instruction and executing the corresponding operation according to an instruction of the touch instruction.

Taking an electronic device as a computer configured with a Windows operating system as an example, when a finger touch operation is received on a touch display screen, the finger touch has one or more input points, namely, single-point or multi-point touch of the finger, at this time, the input points are processed by using MTP to generate a corresponding touch instruction, and after the touch display screen transmits the touch instruction to the computer, the computer can recognize the touch instruction and execute an operation selected by a corresponding control; when the touch control operation of the pen is received on the touch control display screen, the pen touch control has an input point, at the moment, according to the characteristic that the Windows operating system can recognize the pen touch control, the input point is processed by using the MPP protocol to generate a corresponding touch control instruction, and after the touch control display screen transmits the touch control instruction to the computer, the computer can recognize the touch control instruction and execute the corresponding operation of file movement.

In addition, when the touch operation is processed according to the second processing method in step 203, the following method may be specifically implemented to obtain the touch instruction:

Specifically, the first conversion rule may be a rule capable of processing multiple Touch operations of the user operation body at the same time, such as MTP, and the third conversion rule may be a rule capable of processing a Single Touch operation of the user operation body, such as Single Touch Protocol STP (Single Touch Protocol), or the third conversion rule may be identical to the first conversion rule and both MTP, so that when the Touch operation of the user operation body is received on the interaction device, the MTP Protocol is used to process the Touch operation, such as Protocol conversion is performed on the operation position parameter, so as to obtain a corresponding Touch instruction, and after the Touch instruction is transmitted to the electronic device, the electronic device equipped with an operating system of Android or Chrome may identify the Touch instruction and perform a corresponding operation according to an instruction of the Touch instruction; when receiving the touch operation of the touch pen on the interactive device, the touch operation of the touch pen is converted into the touch operation of a user operation body, and then the STP protocol is used to process the touch operation, for example, the protocol conversion and other processing are performed on the operation position parameter, so as to obtain a corresponding touch instruction.

Taking an electronic device as a computer configured with an Android operating system as an example, when a finger touch operation is received on a touch display screen, the finger touch has one or more input points, namely single-point or multi-point touch of the finger, at this time, the input points are processed by using the MTP to generate a corresponding touch instruction, and after the touch display screen transmits the touch instruction to the computer, the computer can recognize the touch instruction and execute an operation selected by a corresponding control; when the touch control operation of the pen is received on the touch control display screen, the pen touch control has an input point, at the moment, according to the characteristic that an Android operating system cannot identify the pen touch control, the touch control operation of the pen is firstly converted into finger touch control operation, for example, pen coordinates are converted into finger touch coordinates which are equivalent to single-point touch control of a finger, then the input point is processed by MTP or STP to generate a corresponding touch control instruction, and after the touch control display screen transmits the touch control instruction to a computer, the computer can identify the touch control instruction and execute the corresponding operation of file movement.

In an implementation manner, when obtaining the system parameter characterizing the operating system configured by the electronic device in step 102, the following steps may be specifically implemented, as shown in fig. 6:

step 601: and obtaining the equipment parameters of the electronic equipment according to the connection interface between the interactive equipment and the electronic equipment.

In this embodiment, the device parameters may include a device name, a serial number, a memory, an operating system, a hard disk, and other parameters of the electronic device, and the device parameters may be obtained to the interactive device in a message manner.

Step 602: system parameters characterizing an operating system configured by the electronic device are obtained in the device parameters.

In this embodiment, the message field where the system parameter is located may be identified in the acquired device parameters, and the system parameter is read in the message field, so that the system type of the operating system configured by the electronic device and represented by the system parameter may be determined.

In another implementation manner, when obtaining the system parameters characterizing the operating system configured by the electronic device in step 102, the following steps may be specifically implemented, as shown in fig. 7:

step 701: and outputting a parameter configuration interface.

The parameter configuration interface at least includes a parameter configuration control, which is a control of an operating system configured for the electronic device, as shown in fig. 8, so as to prompt a user to configure parameters, such as a system type and a system version, of the operating system configured for the electronic device connected to the interactive device.

Of course, the parameter configuration interface may further include configuration controls for other items, such as controls for parameters of brightness, chromaticity, size, and the like, so as to prompt the user to perform corresponding configuration on the interactive device.

Step 702: a configuration operation for a parameter configuration control is received.

The parameter configuration control can be a control in a menu option form, and a user can select the system type of the operating system in the control, so that the configuration operation for the parameter configuration control can be received on the interactive device, wherein the configuration operation comprises configuration parameters of the operating system configured by the electronic device;

or, the parameter configuration control may be a control in the form of an input box, and a user may input a character string of a system type of the operating system in the control, so that a configuration operation for the parameter configuration control may be received on the interactive device, where the configuration operation includes configuration parameters representing the operating system configured by the electronic device.

Step 703: and under the condition that the configuration operation aiming at the parameter configuration control is received, obtaining system parameters for characterizing an operating system configured by the electronic equipment according to the configuration operation.

In this embodiment, the configuration parameters characterizing the operating system configured by the electronic device may be extracted in the configuration operation, so as to obtain the system parameters characterizing the operating system configured by the electronic device.

In a specific implementation, the interactive device can be used for outputting first content transmitted by the electronic device and also used for outputting second content generated by the interactive device, when the second content and the first content are simultaneously output, the second content and the first content are output in a stacked manner, the second content blocks the first content, and the second content at least comprises a parameter configuration interface. That is to say, the parameter configuration interface for configuring the operating system configured by the electronic device in this embodiment may be an interface generated by the interactive device itself, such as an on-screen display (OSD), which is different from content transmitted to the interactive device by the electronic device for output. For example, a desktop picture transmitted by a computer can be output on the touch display screen, and meanwhile, a touch configuration interface of the touch display screen itself can be output on the touch display screen, where the touch configuration interface is used to configure multiple parameters of the touch display screen, such as brightness, hue, size, resolution, and an operating system of the connected electronic device, and the parameter configuration interface in this embodiment is an interface capable of configuring an operating system of the connected electronic device in the touch configuration interface.

In a specific implementation, the parameter configuration interface may be output when the interactive device monitors that the electronic device is connected to the interactive device, for example, when the interactive device is started up and the electronic device is connected to the interactive device again in a running process, the interactive device monitors that the electronic device is connected to the interactive device, and the parameter configuration interface is output on the interactive device; for another example, before the interactive device is powered on, the user connects the electronic device to the interactive device, and when it is detected that the electronic device is connected to the interactive device during or after the interactive device is powered on, a parameter configuration interface is output on the interactive device, so that the user can configure an operating system of the electronic device connected to the interactive device, and the interactive device can process touch operations of different touch types according to the configured operating system of the electronic device, so that the generated touch instruction can be identified by the electronic device connected to the interactive device or a subsequent electronic device that may be connected to the interactive device and execute a corresponding operation. (ii) a

Alternatively, the parameter configuration interface may also be output when the interactive device receives an interface trigger operation. The interface triggering operation may be an operation generated when a preset physical control on the interactive device is pressed down, or the interface triggering operation may also be an operation generated when a preset virtual control output by the interactive device in the display area is clicked. For example, when the electronic device is connected to the interactive device or the electronic device may be connected to the interactive device, the user may operate a physical control or a displayed virtual control on the interactive device, and thereby, a parameter configuration interface is output on the interactive device, so that the user configures an operating system of the electronic device connected to or possibly connected to the interactive device, so that the interactive device can process touch operations of different touch types according to the configured operating system of the electronic device, and thus, a generated touch instruction can be recognized by the electronic device connected to the interactive device or a subsequent electronic device possibly connected to the interactive device and perform a corresponding operation.

In one implementation, a touch area of a touch operation on the interactive device is related to a posture of the interactive device, and the touch area of the touch operation on the interactive device changes with the change of the posture of the interactive device. Specifically, under the condition that the interactive device rotates, the touch area changes along with the change of the rotation angle of the interactive device.

Specifically, in this embodiment, the rotation angle of the interactive device is determined by acquiring and analyzing the sensing data acquired by the angle rotation sensor on the interactive device, and then the touch area on the interactive device, where the touch operation can be received, is determined according to the rotation angle of the interactive device.

Taking the touch display screen as an example, as shown in fig. 9, if it is detected that the display screen rotates by 0 degree on the touch display screen, the touch area where the output content on the touch display screen is located is full of the display area of the touch display screen; if the touch display screen detects that the display screen rotates 180 degrees, the output content is reversely rearranged in a display area in a mode of changing from top to bottom and from left to right, and at the moment, the touch area is the display area of the touch display screen; if the touch display screen detects that the display screen rotates 90 degrees or 270 degrees, if the aspect ratio of the output content is larger than 1, the aspect ratio of the output content can be kept, zooming is carried out according to the fact that the short edge of the display screen is the long edge of the display area, if the rearranged picture is not filled with the whole touch display screen, black edges are supplemented to the upper portion and the lower portion of the display screen, the touch area is the area except the black edges in the display area, if the aspect ratio of the output content is smaller than or equal to, the aspect ratio of the output content can be kept, the output content is directly output in the display area, and the touch area is the display area of the touch display screen.

Referring to fig. 10, a schematic structural diagram of a control device provided in the second embodiment of the present application is shown, where the control device may be configured in an interactive device capable of performing input and output interaction, such as a touch display screen. The technical scheme in the embodiment is mainly used for improving the interaction reliability of the interaction equipment.

Specifically, the apparatus in this embodiment may include the following units:

a parameter obtaining unit 1001 configured to: under the condition that the interactive equipment is connected with the electronic equipment, obtaining system parameters representing an operating system configured by the electronic equipment;

an operation receiving unit 1002 for receiving a touch operation;

a touch processing unit 1003, configured to, after receiving a touch operation on the interactive device, process the touch operation according to a system type of an operating system represented by the system parameter, so as to obtain a touch instruction;

the instruction transmitting unit 1004 is configured to transmit the touch instruction to the electronic device on the interactive device, so as to trigger the electronic device to execute a corresponding operation at least according to the touch instruction.

As can be seen from the foregoing solution, in the control apparatus provided in the second embodiment of the present application, when the electronic device is connected to the interactive device, the system parameter representing the operating system configured for the electronic device is obtained, so as to process the touch operation received on the interactive device according to the system type of the operating system represented by the system parameter, so as to obtain the touch instruction that can be recognized by the electronic device, and after the touch instruction is transmitted to the electronic device, the electronic device can execute the operation corresponding to the touch instruction. As can be seen, in the embodiment, different processing is performed on the touch operation according to different system types of the operating systems configured for the electronic device, so that the electronic device can recognize the obtained touch instruction and execute the corresponding operation, thereby avoiding a situation that the interactive device has a touch error or even cannot be used due to different operating systems configured for the electronic device, and improving the reliability of interaction performed by the interactive device.

In one implementation, the touch processing unit 1003 is specifically configured to: processing the touch operation according to a first processing mode under the condition that the system parameter represents that an operating system configured by the electronic equipment is of a first system type, so as to obtain a touch instruction; the first processing mode corresponds to the first system type, so that the touch instruction can be identified by the electronic equipment which configures an operating system of the first system type; processing the touch operation according to a second processing mode under the condition that the system parameter represents that the operating system configured by the electronic equipment is of a second system type, so as to obtain a touch instruction; the second processing manner corresponds to the second system type, so that the touch instruction can be identified by the electronic device configured with the operating system of the second system type.

Optionally, when the touch operation is of the first touch type, the touch operation includes at least one operation position parameter; under the condition that the touch operation is of a second touch type, the touch operation comprises an operation position parameter;

when the touch processing unit 1003 processes the touch operation according to the first processing manner to obtain the touch instruction, the touch processing unit is specifically configured to:

The touch processing unit 1003, when processing the touch operation according to the second processing manner to obtain the touch instruction, is specifically configured to:

In one implementation, the parameter obtaining unit 1001 is specifically configured to: acquiring equipment parameters of the electronic equipment according to a connection interface between the interactive equipment and the electronic equipment; obtaining system parameters characterizing an operating system configured by the electronic device from the device parameters.

In another implementation manner, the parameter obtaining unit 1001 is specifically configured to: outputting a parameter configuration interface, wherein the parameter configuration interface at least comprises a parameter configuration control; under the condition that configuration operation aiming at the parameter configuration control is received, obtaining system parameters representing an operating system configured by the electronic equipment according to the configuration operation; the interactive device can be used for outputting first content transmitted by the electronic device and outputting second content generated by the interactive device, when the second content and the first content are output simultaneously, the second content and the first content are output in a stacked mode, the second content covers the first content, and the second content at least comprises the parameter configuration interface.

Optionally, the parameter configuration interface is output when the interaction device monitors that the electronic device is connected to the interaction device, or the parameter configuration interface is output when the interaction device receives an interface triggering operation.

In one implementation, a touch area of the touch operation on the interactive device is related to a gesture of the interactive device;

It should be noted that, for the specific implementation of each unit in the present embodiment, reference may be made to the corresponding content in the foregoing, and details are not described here.

Referring to fig. 11, a schematic structural diagram of an interactive device provided in the third embodiment of the present application is shown, where the electronic device is an interactive device capable of performing input and output interaction, such as a touch display screen. The technical scheme in the embodiment is mainly used for improving the interaction reliability of the interaction equipment.

Specifically, the electronic device in this embodiment may include the following structure:

a connection interface 1101 for connecting an electronic device;

an input device 1102 for receiving touch operations;

the processor 1103 is configured to, in a case that the connection interface is connected to the electronic device, obtain a system parameter that represents an operating system configured by the electronic device; after receiving touch operation on the input device, processing the touch operation according to the system type of the operating system represented by the system parameters to obtain a touch instruction; and transmitting the touch instruction to the electronic equipment so as to trigger the electronic equipment to execute corresponding operation at least according to the touch instruction.

Of course, the interactive apparatus in this embodiment may further include an output device 1104, and the output device 1104 and the input device 1102 may be integrated into a whole, such as a touch display screen.

The processor 1103 is specifically configured to: the trigger output device 1104 outputs a parameter configuration interface, and the parameter configuration interface at least comprises a parameter configuration control; when receiving a configuration operation for a parameter configuration control on an input device 1102, obtaining system parameters representing an operating system configured by the electronic device according to the configuration operation;

the output device 1104 can be configured to output a first content transmitted by the electronic device and also configured to output a second content generated by the interactive device, where the second content and the first content are output in a stacked manner when the second content and the first content are output simultaneously, and the second content blocks the first content, and the second content at least includes a parameter configuration interface.

According to the above scheme, in the interaction device provided in the third embodiment of the present application, when the electronic device is connected to the interaction device, the system parameter representing the operating system configured for the electronic device is obtained, so that the touch operation received on the interaction device is processed according to the system type of the operating system represented by the system parameter, and thus the touch instruction capable of being recognized by the electronic device is obtained, and after the touch instruction is transmitted to the electronic device, the electronic device can execute the operation corresponding to the touch instruction. As can be seen, in the embodiment, different processing is performed on the touch operation according to different system types of the operating systems configured for the electronic device, so that the electronic device can recognize the obtained touch instruction and execute the corresponding operation, thereby avoiding a situation that the interactive device has a touch error or even cannot be used due to different operating systems configured for the electronic device, and improving the reliability of interaction performed by the interactive device.

Taking a touch display screen as an example, the following embodiments are described in detail:

first, when the inventor of the present application uses a touch display screen to connect an external device such as a notebook or a mobile phone, the inventor finds that: touch display screens and touch display screens which can only support Windows systems generally do not exist at present, and touch display screens which can support at least two of Windows, android and Chrome systems simultaneously do not exist at present.

Therefore, through further research, the inventors of the present application propose a touch display screen, which can be used to connect different devices, such as computers or mobile phones equipped with different operating systems; furthermore, the touch display screen can also realize the functions of finger touch and pen touch on different connected devices. The method comprises the following specific steps:

the touch display screen of the embodiment has a touch function on the screen, and supports a ten-point finger touch function and a pen touch function. When the touch display screen is connected with the external device configured with different operating systems, different touch protocols are used for communicating with the external device, so that the touch display screen in the embodiment can be compatible with the external device configured with operating systems of Windows, android and Chrome.

It should be noted that, in addition to being compatible with the external devices configured with operating systems of Windows, android, and Chrome, the touch display screen in other embodiments may also be compatible with external devices configured with other operating systems, such as external devices configured with Linux, fuchsia, iOS, macOS, and harmony os. In this embodiment, a touch display screen of an external device that is compatible with operating systems configured with Windows, android, and Chrome is taken as an example for description.

Firstly, the touch display screen can remind a user to select an operating system of the connected external equipment through an interface when the touch display screen is started. For example, when the mobile terminal is turned on, an OSD menu is output on the touch display screen, options of Windows, android and Chrome systems are set in the OSD menu of the touch display screen, and a user can enter the menu to select. If the user does not select when the computer is started, the touch display screen defaults that the operation of the external equipment connected with the touch display screen is a Windows system. In addition, after the touch display screen is started, the user calls the OSD menu through the keys to display, so that the user can conveniently select the OSD menu.

Of course, in other embodiments, the options of the Linux, fuchsia, iOS, macOS, and harmony os systems may also be set in the OSD menu of the touch display screen of the external device compatible with the Linux, fuchsia, iOS, macOS, and harmony os.

Based on this, when the touch display screen in this embodiment is connected to an external device of the Windows system, if finger touch is received on the touch display screen, the touch display screen performs processing using the MPT protocol, and if pen touch is received on the touch display screen, the touch display screen performs processing using the MPP protocol.

When the touch display screen is connected with external equipment of an Android or Chrome system, if finger touch is received on the touch display screen, the touch display screen is processed by using an MTP (multiple time protocol), and if pen touch is received on the touch display screen, the pen touch is firstly converted into a finger touch instruction on one side of the touch display screen and then processed according to the MTP.

Therefore, after the touch display screen is processed to obtain a touch instruction, the touch instruction is transmitted to an Android or Chrome system.

Therefore, the touch display screen provided by the application can not only support finger touch and pen touch functions, but also be compatible with external devices of Windows, android, chrome and other systems.

As shown in fig. 12, after the touch display screen is turned on, the user calls an interface for selecting the type of the external device to inform the user that the touch function of the touch display screen supports a Windows, android, or Chrome system, and the user selects the external device according to the operating system of the currently connected external device.

Wherein, the interface defaults to Windows option, and the continuous output time of the interface can be maintained for 3s to 5s. If the user does not select, the interface automatically disappears after 5s, and appears when the computer is started next time, or the user triggers through a software control or a hardware key to output. If the user makes a selection within 5s, the interface automatically disappears after the user finishes selecting. If the user chooses not to remind any more, the interface is not present any more.

As shown in fig. 13, if the user selects the Windows system, if finger touch is received on the touch display screen, the MPT protocol is used for processing, and if pen touch is received on the touch display screen, the MPP protocol is used for processing, and finally, the processed touch instruction is transmitted to the Windows system. If the user selects an Android or Chrome system, if finger touch is received on the touch display screen, the touch display screen is processed by using an MTP (multiple time protocol), if pen touch is received on the touch display screen, the pen touch is converted into a finger touch instruction at the touch display screen end, then the touch instruction is processed according to the MTP (multiple time protocol) or STP (spanning tree protocol), and finally the processed touch instruction is transmitted to the Android or Chrome system.

In the touch display screen only compatible with Windows, android and Chrome systems in the embodiment, if a user selects others, for example, if the user is connected with iOS or mac OS, touch is invalid; in other embodiments, the touch display screen is also compatible with systems such as Linux, fuchsia, iOS, macOS, and harmony os, if the user selects others, such as Linux, the processing is performed according to a processing method corresponding to the Linux system, such as MTP or MPP, and details thereof are not further described herein.

As shown in fig. 14, taking the interface as an OSD menu as an example, windows, android, and Chrome system options are set in the OSD menu, and the user may enter the menu to select, and the processing manner after selection refers to the foregoing description. Of course, the OSD menu may also be provided with options of other systems, and may also be provided with parameters such as brightness and contrast.

Further, the inventor of the present application, through further research, provides a touch display screen, which can realize self-adaptation of a touch area and a display area while the display screen automatically rotates: namely, the touch effective area can be automatically adjusted according to the difference between the output picture of the equipment and the rotation angle of the display.

As shown in fig. 15, the display in the touch display screen has an automatic rotation function, and different effective touch areas are set according to the difference between the output image of the device and the rotation angle of the display. The working principle is as follows: when the display rotates at different angles, the G-sensor detects the rotation angle of the monitor, and the main chip scalar in the touch display screen detects the display picture according to different rotation angles, so that the touch effective area is differentially corresponding to the display effective area.

When the display is rotated 0/180 degrees, the display directly displays the picture of source (output content of the display) output, while touch is set to be full screen active, as shown in a and b.

When the display rotates 90/270 degrees, the display detects whether the source output picture is a vertical picture. If the picture is a vertical picture, directly displaying the source output picture, and setting touch full screen to be effective, as shown in c and d. And if the source output picture is a horizontal picture, continuously detecting whether large-area black edges exist on the left side and the right side, if so, intercepting the middle effective area for displaying, and setting pen touch to be effective in a full screen mode, as shown in e. If the left side and the right side have no black edges, the short edge of the display displays the long edge of the source output picture, the long edge of the display displays the short edge of the output picture, the upper part and the lower part of the display are filled with the black edges, and the touch middle area is set to be effective, as shown in f.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the technical solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A control method, comprising:

2. The method of claim 1, wherein processing the touch operation according to the system type of the operating system characterized by the system parameter to obtain a touch instruction comprises:

processing the touch operation according to a second processing mode to obtain a touch instruction under the condition that the system parameter represents that an operating system configured by the electronic equipment is of a second system type; the second processing manner corresponds to the second system type, so that the touch instruction can be identified by the electronic device configured with the operating system of the second system type.

3. The method according to claim 2, wherein the touch operation includes at least one operation position parameter when the touch operation is a first touch type, and the first touch type is a user operation body touch type; under the condition that the touch operation is a second touch type, the touch operation comprises an operation position parameter, and the second touch type is a stylus touch type;

wherein, processing the touch operation according to a first processing mode to obtain a touch instruction comprises:

4. The method according to claim 2, wherein the touch operation includes at least one operation position parameter when the touch operation is a first touch type, and the first touch type is a user operation body touch type; under the condition that the touch operation is a second touch type, the touch operation comprises an operation position parameter, and the second touch type is a stylus touch type;

wherein, processing the touch operation according to a second processing mode to obtain a touch instruction comprises:

5. The method of claim 1, obtaining system parameters characterizing an operating system configured by the electronic device, comprising:

obtaining system parameters characterizing an operating system configured by the electronic device from the device parameters.

6. The method of claim 1, obtaining system parameters characterizing an operating system configured by the electronic device, comprising:

7. The method of claim 6, wherein the parameter configuration interface is output when the interactive device monitors that the electronic device is connected to the interactive device, or wherein the parameter configuration interface is output when the interactive device receives an interface trigger operation.

8. The method of claim 1, a touch area of the touch operation on the interactive device being related to a gesture of the interactive device;

and when the interactive equipment rotates, the touch area changes along with the change of the rotation angle of the interactive equipment.

9. An interactive device, comprising:

the connection interface is used for connecting electronic equipment;

the input device is used for receiving touch operation;

the processor is used for acquiring system parameters representing an operating system configured by the electronic equipment under the condition that the electronic equipment is connected to the connection interface; after receiving touch operation on the input device, processing the touch operation according to the system type of the operating system represented by the system parameters to obtain a touch instruction; and transmitting the touch instruction to the electronic equipment so as to trigger the electronic equipment to execute corresponding operation at least according to the touch instruction.

10. The interaction device of claim 9, further comprising:

an output device;

the output device can be used for outputting first content transmitted by the electronic device and also outputting second content generated by the interactive device, when the second content and the first content are output simultaneously, the second content and the first content are output in a stacked manner, the second content blocks the first content, and the second content at least comprises the parameter configuration interface.