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WO2017143896A1 - 线路信息互动方法、电子设备和计算机存储介质 - Google Patents

线路信息互动方法、电子设备和计算机存储介质 Download PDF

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Publication number
WO2017143896A1
WO2017143896A1 PCT/CN2017/071775 CN2017071775W WO2017143896A1 WO 2017143896 A1 WO2017143896 A1 WO 2017143896A1 CN 2017071775 W CN2017071775 W CN 2017071775W WO 2017143896 A1 WO2017143896 A1 WO 2017143896A1
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WO
WIPO (PCT)
Prior art keywords
line
electronic device
information
location
location information
Prior art date
Application number
PCT/CN2017/071775
Other languages
English (en)
French (fr)
Inventor
智冉
王海戎
刘宁
赵岩
刘玺
贾斌
陆少杰
Original Assignee
腾讯科技(深圳)有限公司
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Application filed by 腾讯科技(深圳)有限公司 filed Critical 腾讯科技(深圳)有限公司
Publication of WO2017143896A1 publication Critical patent/WO2017143896A1/zh
Priority to US15/988,768 priority Critical patent/US11036922B2/en

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Classifications

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    • G06F3/0488Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
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    • G06F3/0488Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
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    • H04L51/00User-to-user messaging in packet-switching networks, transmitted according to store-and-forward or real-time protocols, e.g. e-mail
    • H04L51/07User-to-user messaging in packet-switching networks, transmitted according to store-and-forward or real-time protocols, e.g. e-mail characterised by the inclusion of specific contents
    • H04L51/10Multimedia information

Definitions

  • the present invention relates to the field of information technology, and in particular, to a method for interacting line information, an electronic device, and a computer storage medium.
  • the sharing electronic device when sharing a line, the sharing electronic device usually shares the line drawn on the map in the form of a picture or Html5 mode to the other electronic device through the social software.
  • the other party's electronic device displays the shared line in the picture or Html mode.
  • the limitation of this kind of line sharing is as follows: If the user needs to view more detailed information of the shared line, for example, when the information is specifically passed, the direct enlargement of the picture cannot satisfy the user's request. If the sharing direction modifies the shared route, it must be redrawn and then shared by another image. Obviously, this kind of line sharing operation is cumbersome, the information processing is rigid, and the sharing effect is poor.
  • An embodiment of the present invention provides a method for sharing a line information, where the method is applied to a first electronic device, including:
  • the first location information is used by the second electronic device to draw a second line corresponding to the first line on the second map.
  • a second aspect of the embodiments of the present invention provides a method for sharing a line information, where the method is applied to a second electronic device, including:
  • a third aspect of the embodiments of the present invention provides an electronic device, where the electronic device is a first electronic device, and the first electronic device includes:
  • the acquisition unit is configured to collect user operations
  • a first processing unit configured to draw a first line on the first map displayed by the first electronic device in response to the user operation
  • An extracting unit configured to extract line information of the first line
  • a first determining unit configured to determine, according to the line information, first location information corresponding to Y points on the first line; the Y is an integer not less than 2;
  • a sending unit configured to provide the first location information to the second electronic device, where the first location information is used by the second electronic device to draw a second corresponding to the first line on the second map line.
  • the fourth aspect of the embodiment of the present invention further provides another electronic device, where the electronic device is a second electronic device, and the second electronic device includes:
  • a receiving unit configured to receive first location information based on the first line provided by the first electronic device
  • a second processing unit configured to draw a second line corresponding to the first line on the second map based on the first location information.
  • the line sharing method, the electronic device, and the computer storage medium provided by the embodiment of the present invention when performing line sharing, the first electronic device draws a user operation to draw a first line, and extracts line information of the first line, and obtains the first
  • the location information of at least two points of a line is sent to the second electronic device, and the second electronic device can draw a second line corresponding to the first line according to the location information provided by the first electronic device.
  • the line sharing in this way breaks the stereotype of line sharing by picture mode or html5 mode during line sharing.
  • the user can perform various processing operations such as zooming and rotating the second line on the second map, thereby improving the line sharing effect, improving the intelligence of the electronic device, and more effectively using the hardware and software resources of the electronic device.
  • FIG. 1 is a schematic flowchart of a first line sharing method according to an embodiment of the present invention
  • FIG. 2 is a schematic diagram of an effect of line drawing according to an embodiment of the present invention.
  • FIG. 3 is a schematic diagram of an effect of a first type of line sharing according to an embodiment of the present invention.
  • FIG. 4 is a schematic diagram of a second line sharing effect according to an embodiment of the present invention.
  • FIG. 5 is a schematic diagram of an effect of an interaction operation of a response line according to an embodiment of the present invention.
  • FIG. 6 is a schematic flowchart of a second method for sharing a line according to an embodiment of the present invention.
  • FIG. 7 is a schematic flowchart diagram of a third line sharing method according to an embodiment of the present invention.
  • FIG. 8 is a schematic structural diagram of a first electronic device according to an embodiment of the present disclosure.
  • FIG. 9 is a schematic structural diagram of a second electronic device according to an embodiment of the present disclosure.
  • FIG. 10 is a schematic diagram of an interface for drawing a line according to an embodiment of the present invention.
  • FIG. 11 is a schematic flowchart diagram of a fourth method for line sharing according to an embodiment of the present invention.
  • FIG. 12 is a schematic structural diagram of an information system capable of implementing the line sharing method according to the embodiment of the present invention.
  • this embodiment provides a method for sharing a line information, where the method is applied to a first electronic device, including:
  • Step S110 collecting user operations
  • Step S120 In response to the user operation, draw a first line on the first map displayed by the first electronic device;
  • Step S130 Extract line information of the first line
  • Step S140 Determine, according to the line information, first location information corresponding to Y points on the first line; the Y is an integer not less than 2;
  • Step S150 The first location information is provided to the second electronic device; the first location information is used by the second electronic device to draw a second line corresponding to the first line on the second map.
  • the line information sharing method described in this embodiment may be an information interaction method applied to a terminal electronic device.
  • the first electronic device and the second electronic device may be different terminal electronic devices, and the first electronic device and the second electronic device may be a mobile phone, a tablet computer, a wearable electronic device, or a notebook computer. And other terminal electronic devices. These terminal electronic devices can exchange information through a network platform.
  • the second electronic device may be based on a user-specified electronic device, and may be a non-designated electronic device. For example, user A and user B are WeChat friends, and user A establishes user B based on the first map application that opens the first map. The shared group, at this time, the electronic device held by the user B is the second electronic device.
  • the second electronic device here is the designated electronic device.
  • the second electronic device here can be a non-designated electronic device.
  • user A simply wants to share the information of the first line through the first electronic device, which is the other electronic device connected to the network platform like the first electronic device.
  • the first electronic device does not specify any one of the electronic devices, and after receiving the first location information, the network platform may send the first location information to any other electronic device connected in the platform.
  • Any other electronic device herein is an unspecified second electronic device.
  • the first map may be a map opened by a first map application running on the first electronic device.
  • the first line may be a hand-drawn map formed based on a user sliding on a map or the like.
  • the first line may also be a first line formed by the map application self-navigation based on the start position and the end position input by the user on the first map.
  • the user may also select a starting location, a termination location, and a key location point in the route on the first map, and form the first line by sliding the user on the map, etc., or by the map application.
  • the selected starting position, the ending position, and the key position point form the first line by themselves.
  • the first line may also be a line formed by first creating a line by the map application, and modifying the line based on operations such as user sliding or graffiti.
  • the number of the first lines may be multiple.
  • each of the first lines is a line without a break point.
  • the right diagram of Fig. 2 is a schematic diagram of the display formed based on the user operation and Fig. 2.
  • one of the first lines is a notched ring line, and the other first line is an S-shaped line.
  • the step S110 may include collecting a touch or slide operation of the user acting on the display interactive screen.
  • the display interactive screen herein may include a touch screen or a floating touch screen.
  • the finger swipe shown in Figure 2 is the user operation.
  • a line drawing is performed on the first map according to the user operation to form the first line.
  • the user's finger slides on the first map displayed by the touch screen, and the first device draws a first line at a corresponding position where the user's finger slides, and the first line is the same as the trajectory of the user's finger sliding.
  • the user uses the mouse to slide to form a mouse icon movement track, and then in step S120, corresponding to the mouse icon movement track, a line is drawn on the first map displayed by the first electronic device.
  • Extracting the line information of the first line in step S130 may include extracting respective coordinate information of the first line on the first map.
  • step S140 the first location information corresponding to the Y points on the first line is extracted based on the line information.
  • Y is at least an integer of not less than 2.
  • the two first position information is usually the geographical position information of the start position and the end position of the first line.
  • the geographic location information corresponding to each coordinate information on the first line can be determined by various positioning operations such as a global positioning system.
  • the first location information in this embodiment may include geographic location information.
  • each point on the first line on the first map corresponds to a specific geographic location.
  • a geographic location corresponding to some or all points on the first line may be extracted to form the first location information.
  • the first position information of the Y points will be extracted in step S140.
  • Y is an integer not less than the N.
  • the first location information herein may be various information such as latitude and longitude information or geographical name information of the Y points, and is generally information capable of marking a geographical location.
  • the first electronic device is generally sent to the second electronic device through the network platform.
  • both the first electronic device and the second electronic device may be connected to a map application platform, and the first electronic device sends the first location information to a map application platform, and the map application platform further A location information is forwarded to the second electronic device.
  • the second electronic device will draw a line on the second map displayed by the second electronic device according to the first location information, where the line is in this embodiment. It can be called the second line.
  • the second line here has a corresponding relationship with the first line, and the corresponding relationship may be expressed as the first line and the second line each including at least the above Y points.
  • the geographical position corresponding to at least Y points on the first line is indicated, and is also included on the second line.
  • the starting position and the ending position of the first line and the second line are different.
  • the processing accuracy of the first map of the first electronic device and the processing accuracy of the second map of the second electronic device are different, and the position information corresponding to each point on the first line and the second line has a slight error.
  • the step S150 in this embodiment may include synchronizing the first location information to the second electronic device in real time.
  • the second electronic device can synchronously see that the first electronic device displays the second line corresponding to the first line on the first map.
  • the second electronic device will synchronously receive the first location information sent by the first electronic device, and draw a same starting position on the second map of the second electronic device as S1 And the second line whose end position is S2.
  • the shape of the extension of the second line is the same as the shape of the extension of the first line, and the difference may be size and thickness.
  • the first line is drawn on the first electronic device, and Y points on the first line are drawn.
  • the first location information is synchronized to the second electronic device, and the second electronic device draws a second line corresponding to the first line on the second map.
  • the first line and the second line have the same shape, and the passing positions are the same, but it is obvious that the first line is smaller than the second line.
  • the information received by the other party's electronic device (where the counterpart electronic device is the second electronic device) is no longer the picture or the Html5 mode is opened, and is sent to the other party's electronic device. Is at least two first location information, and then draw a second line on the map. If the user needs to further view the detailed address of the line, the user can zoom in and view the line on the second map, thereby improving the sharing effect and avoiding the stereotype and inoperability of the shared information caused by the image sharing and the Html5 sharing. The resulting poor sharing effect.
  • the method further includes:
  • the number of the first line X and the Y is an integer not less than 1; Y is the number of points from which the first location information is extracted from each of the first lines.
  • the performance parameters of the first electronic device in this embodiment may include various processing parameters such as a processing rate of the central processing unit CPU, a cache capacity parameter, and a current load rate of the CPU, and the like, which can characterize the first electronic device for information processing.
  • the network parameter of the first electronic device connection may include a network type parameter, for example, the network parameter may be used to indicate whether the first electronic device is connected to the Internet through WiFi, or is connected to the Internet through mobile data, is a wired connection to the network, or is Wireless connection to the network, information such as the network bandwidth of the network to which the first electronic device is connected.
  • the X and Y when determining the X and Y, it is also necessary to consider the resources required to draw a first line, and extract the resources required to extract the first location information of a point from a first line, in combination with the performance parameter. , determine a set of alternative X and Y values. At the same time, the values of X and Y of another set of alternatives are determined based on the amount of data generated by extracting the Y point from the first line of X and the network parameters. In the specific implementation, it is possible to select a smaller value from the two sets of alternative values. A set is taken as the final value of the X and Y.
  • determining the X and Y based on the performance parameter can avoid the load caused by the first electronic device in the process of interacting with the line information, and the jamming phenomenon caused by the large response delay.
  • determining the X and Y based on the network parameter may reduce the phenomenon that the second electronic device cannot receive the first location information in time because the transmission speed is too slow, and reduce the transmission delay.
  • the determination of the X and Y values in the embodiment can avoid problems such as unsmooth information processing, large delay, and large data traffic consumption in the process of line information interaction.
  • the method further comprises:
  • the first processing operation may include deleting the first line, modifying the first line, redrawing another first line, performing an operation such as labeling on the first line.
  • the collecting operation processing on the first line may include a user operation collected through a human-machine interaction interface.
  • various user operations such as a sliding operation and a click operation are detected by, for example, using a display interactive screen to collect user operations.
  • the operation processing may include various operations of processing the first line, such as a modification operation, a deletion operation, a redraw operation, and the like.
  • the first electronic device generates operation information according to the processing operation while processing the first line in response to the operation processing.
  • Operational information here An operational command or operational parameter of the first operation may be included.
  • the operation instructions herein may include a delete instruction, a modification instruction, an update instruction, or a drawing instruction.
  • the operation parameter may include an identifier of the deleted line, the identifier is used to indicate which one of the first lines is specifically deleted, and may also include information such as the original coordinates of the point of the modified first line.
  • the operation information is sent to the second electronic device, so that the second electronic device performs a second processing operation corresponding to the first processing operation on the second new path according to the operation information.
  • the operation information received by the second electronic device may include information such as a deletion instruction, and the second electronic device performs information processing according to the operation information, and the second line is also deleted.
  • the first electronic device receives the clearing operation, and the first electronic device sends the second electronic device to the second electronic device through a network platform (such as a cloud platform).
  • a network platform such as a cloud platform.
  • the second electronic device After receiving the operation information of the clearing operation, the second electronic device will clear the second lines generated based on the location information received by the first electronic device.
  • the processing operation may include a modification operation, for example, by clicking a point on the first line, selecting some points that need to change the position, the sliding operation allows the user to move certain points of the first line to the specified position. .
  • the user does not have to repaint, generating a new first line.
  • the user's finger is aligned with a point on the first line, and after the point is released to the designated position, the electronic device responds to the click processing operation, and the first line formed is as shown in FIG. The left figure is changed to the line shown in the right figure of FIG.
  • the operation information is sent to the second electronic device within a specified time.
  • the specified time is usually a short period of time.
  • the first electronic device synchronizes the operation information to the second electronic device through the network platform, so that the second electronic device can synchronize with the first electronic device in time to obtain the First Various line information on the first map of an electronic device.
  • the line sharing method in this embodiment is a further improvement in the line sharing method provided in the first embodiment or the second embodiment.
  • the X and Y used in this embodiment may also adopt the second embodiment. The method described in the determination.
  • the X and Y may also be set by default when the electronic device is shipped from the factory or the map application.
  • the method further comprises:
  • Collecting a processing operation acting on the first line may include: collecting a line interaction operation based on the first location on the first line to generate line interaction information;
  • Providing the operation information to the second electronic device; providing the operation information to the second electronic device herein may include: providing the line interaction information and second location information of the first location to the Second electronic device.
  • the operation information is used by the second electronic device to perform a second processing operation corresponding to the first processing operation on the second line; where the line interaction information is used by the second electronic device Displayed on the second map. It is of course worth noting that the operation information may include other operation information in addition to the line interaction information.
  • the point selected by the five-pointed star in FIG. 5 is a point corresponding to the first position, and the human-machine interactive electronic device of the first electronic device will also receive the information input by the user.
  • the text input by the user may include: "Let's turn left in the face of the Shanxi noodle restaurant.”
  • the information interaction method described in this embodiment is executed, and the display effect formed after the first processing operation is performed on the first line according to the processing operation.
  • the line interaction information is displayed at the corresponding first position near the first line.
  • the line interaction information is synchronously transmitted to the second electronic device through the communication link or through the network platform, so that the second electronic device also displays the line interaction information at the corresponding position, thereby better guiding The user travels.
  • the method further includes:
  • the first processing operation may include deleting the first line, modifying the first line, redrawing another first line, performing an operation such as labeling on the first line.
  • the method further includes: generating history information; the collecting a processing operation acting on the first line, comprising: collecting a line recovery operation. And performing, according to the processing operation, performing a first processing operation on the first line, including: in response to the line recovery operation, controlling display of the first map recovery history line based on the history record information.
  • the history record information may include information of each of the first lines drawn in a historical time period before the current time.
  • the first electronic device also restores the display of the historical line in response to the line recovery operation.
  • the first electronic device also sends the historical recovery operation information generated by the historical recovery operation to the second electronic device, so that the second electronic device also resumes displaying the second line corresponding to the first line of the first electronic device. display.
  • the first electronic device and the second electronic device are restored after clearing the line, satisfying the requirement of the user to find the historical line, better utilizing the software and hardware resources of the first electronic device and the second electronic device, and improving the first electronic device and The resource utilization rate of the second electronic device.
  • the method further includes:
  • the step S150 may include: transmitting, by using the communication link, to the second electronic device.
  • the first location information is described.
  • the first electronic device and the second electronic device may establish various communication links; for example, establishing a long connection or the like between the first electronic device and the second electronic device.
  • the communication link between the first electronic device and the second electronic device herein may further include establishing a shared relationship record on the network platform. After the network electronic device receives the first location information, the network electronic device may determine, by using the shared relationship record, the second electronic device that receives the first location information.
  • the communication link between the first electronic device and the second electronic device in this embodiment, and are of course not limited to the above two.
  • the first location information can be conveniently transmitted in a targeted manner, and the second map displayed on the second electronic device is facilitated.
  • the embodiment provides a line information sharing method, where the method is applied to a second electronic device, including:
  • Step S210 Receive first location information based on the first line provided by the first electronic device
  • Step S220 Draw a second line corresponding to the first line on the second map based on the first location information.
  • the second electronic device in the embodiment is configured to receive the first location information sent by the first electronic device, and on the second map displayed by the second electronic device, the second line corresponding to the first line is used to implement sharing of the line.
  • step S210 the first location information sent directly from the first electronic device may be included, and the first location information sent by the first electronic device forwarded from the other electronic device may also be received, for example, receiving and forwarding from the network device from the first electronic device. First location information.
  • a second line corresponding to the first line is drawn on the second map based on the first location information in step S220.
  • the second electronic device in this embodiment when performing line sharing, unlike the prior art The same received image file or information that has been opened by the Html5 method, but the first location information received directly. After receiving the first location information, a second line will be formed based on the first location information. In this way, when viewing the second line, the user can enlarge the second line through the map operation, and conveniently view the more detailed content, which obviously utilizes the hardware and software resources of the second electronic device to improve the effective use rate of the electronic device. Achieve better sharing results.
  • the method further includes:
  • Operation information will also be received in this embodiment, and the operation information herein may include operation information of a deletion operation, a clear operation, a modification operation, an update operation, or an interactive operation.
  • the second electronic device receives operation information for the first line from the first electronic device, such that when the second electronic device performs the first processing operation in response to the processing operation, the second electronic device also performs corresponding to the first The second processing operation of the processing operation, in this case, the processing synchronization of the lines by the first electronic device and the second electronic device is achieved.
  • the receiving the operation information of the first electronic device for the first line further includes: receiving the first electronic device to provide line interaction information and second location information; wherein the second location is Position information of the first location on the first line; displaying the line interaction information on the second line corresponding to the second location on the second line according to the line interaction information and the second location information .
  • FIG. 5 is a schematic diagram of the display of the second electronic device
  • the point corresponding to the five-pointed star in FIG. 5 is the second position.
  • the "turning to the face of the Shanxi noodle restaurant" shown in Figure 5 is the interactive content of the interactive information of the line.
  • it is better to perform line sharing and introduction, to improve the line contribution and introduce intuitive guidance.
  • Sexuality and simplicity and better utilizing the hardware and software resources of the first electronic device and the second electronic device, improving the resource utilization ratio of the first electronic device and the second electronic device.
  • this example is a line information sharing method, including:
  • Step S101 collecting a user graffiti operation, generating and displaying the line A on the first map in response to the user graffiti operation; the line A here is equivalent to the first line.
  • the user graffiti operation here is the user operation in the foregoing embodiment.
  • the user operations herein may include a touch operation or a floating touch operation that acts on the display interactive screen.
  • Step S102 Extract first position information of Y points on the line A.
  • Step S103 The first electronic device sends the first location information to the second electronic device by using a network platform. Specifically, the first electronic device synchronizes the first location information to the second electronic device in real time through the network platform.
  • Step S104 After receiving the first location information, the second electronic device draws a second line on the second map based on the first information.
  • the embodiment provides an electronic device, where the electronic device is a first electronic device, and the first electronic device includes:
  • the collecting unit 110 is configured to collect user operations
  • the first processing unit 120 is configured to draw a first line on the first map displayed by the first electronic device in response to the user operation;
  • the extracting unit 130 is configured to extract line information of the first line on the first map
  • the first determining unit 140 is configured to determine, according to the line information, first location information corresponding to Y points on the first line; the Y is an integer not less than 2;
  • the sending unit 150 is configured to provide the first location information to the second electronic device, where the first location information is used by the second electronic device to draw a corresponding to the first line on the second map. Two lines.
  • the first electronic device in this embodiment may be various terminal devices such as a mobile phone, a tablet computer, or a wearable device.
  • the collection unit 110 may correspond to various human-computer interaction interfaces, where the human-computer interaction interface may correspond to a display interaction unit.
  • the display interaction unit herein may include a display touch screen or a floating display touch screen.
  • the structure corresponding to the first processing unit 120, the extracting unit 130, and the first determining unit 140 may correspond to a processor or a processing circuit of various electronic devices such as a mobile phone or a tablet computer.
  • Processors herein may include processing structures such as a central processing unit, a microprocessor, a digital signal processor, or a programmable array.
  • the processing circuit can correspond to an application specific integrated circuit.
  • the processor or processing circuit is capable of reading a specified code stored in the storage medium and performing extraction of the line information of the first line and determination of the first location by executing the specified code.
  • the sending unit 150 may correspond to a sending interface, where the sending interface may correspond to a wired sending interface or a wireless sending interface.
  • the wired transmission interface herein may include a cable interface or a fiber optic cable interface.
  • the wireless transmission interface may correspond to a WiFi antenna, and may also correspond to a transmission interface such as a mobile antenna such as an evolved base station eNB.
  • the sending unit 150 sends the first location information, where the first location information may be sent through a direct link between the first electronic device and the second electronic device, or may be through a network platform.
  • the intermediate device is forwarded to the second electronic device.
  • the first electronic device in the embodiment performs the line sharing process, and directly shares the location information on the line, instead of sharing the information such as the picture information in the prior art, so that the completed line sharing and the shared line are completed. Displayed directly on the map, it is convenient for users to carry out subsequent operations and improve the sharing effect.
  • the electronic device further includes:
  • a second determining unit configured to be based on a performance parameter of the first electronic device and/or the first a network parameter of an electronic device connection, determining a number X of the first line and the Y; the X is an integer not less than 1; the Y is extracting the first line from each of the first lines The number of points for location information.
  • the second determining unit in this embodiment may correspond to a calculator or a processor having a computing function or a processing circuit having a computing function. According to the performance adoption number and/or network parameters, and the resources consumed during the line sharing process, the amount of data generated, the appropriate X and Y are calculated, and on the one hand, the processing operations such as the occurrence of the first electronic device are avoided. The phenomenon is not smooth, and at the same time, it is also possible to avoid sharing the other party, that is, the second electronic device, and there is a problem that the reception delay is large.
  • the collecting unit 110 is further configured to collect a processing operation that is applied to the first line;
  • the first processing unit is further configured to perform a first processing operation on the first line according to the processing operation;
  • the first electronic device further includes:
  • Generating unit configured to generate operation information according to the processing operation
  • the sending unit 150 is configured to provide the operation information to the second electronic device, where the operation information is used by the second electronic device to perform the first processing operation on the second line The second processing operation.
  • the collecting unit of the embodiment may include various sensors for receiving user input, where the collecting unit may correspond to a sensing device input by various users such as a keyboard, an interactive screen or a mouse, so that the collecting function can be easily performed. A line of processing operations.
  • the first processing unit herein may correspond to a processor or processing circuit.
  • a description of the processor or processing circuitry herein can be found in the previous embodiment and will not be repeated here.
  • the generating unit may also correspond to the processor or the processing circuit or the parser, and the processing operation may be parsed to generate the operation information, where the operation information may include an operation parameter and an operation parameter corresponding to the operation instruction.
  • the operation instructions here may also be instructions such as deleting an instruction, clearing an instruction, or modifying an instruction.
  • the operational parameters may include parameter values for performing the aforementioned operational instructions, For example, according to the operation parameters, it can be known which one of the first lines is deleted, which of the first lines are emptied, and the like.
  • the second electronic device by the sending of the operation information, the second electronic device can be synchronously operated on the second line, thereby achieving synchronization with the line sharing of the first electronic device.
  • the collecting unit 110 is configured to collect a line interaction operation based on the first position on the first line to generate line interaction information
  • the sending unit 150 is configured to: perform the line interaction information and the first
  • the second location information of the location is provided to the second electronic device; wherein the line interaction information is for the second electronic device to display on the second map.
  • the operation of the sensor acquisition in this embodiment may include a line interaction operation, for example, performing at least one of text, image annotation, and voice annotation on the first line to facilitate better knowledge of the line information after the second electronic device receives the information.
  • the text annotation here may include the text entered by the first electronic device user.
  • the image annotation can include inserting a picture at a first location on the first line.
  • the voice annotation may include information such as a guidance voice sent by a user of the first electronic device.
  • the first electronic device can share the better information by sharing the line interaction information.
  • the generating unit is further multiplexed to generate history information, where the history information may include line information of the first line drawn before various current times.
  • the first electronic device may further include a storage unit, where the storage unit may correspond to various storage media, and the storage history information can be stored.
  • the collection unit is further multiplexed with the acquisition line recovery operation, for example, the user may detect a user sliding operation, a user click operation, or a mouse processing operation.
  • the first processing unit is also capable of restoring the display of the historical line, which is convenient The user resumes operations through the line, checks the previously displayed lines, and improves the intelligence of the first electronic device and the user satisfaction.
  • the X and Y may also be determined by the second determining unit according to the performance parameter and/or the network parameter.
  • the X and Y are not limited to the above-described second determining unit.
  • the electronic device further includes:
  • a connecting unit configured to establish a communication link between the first electronic device and the second electronic device; the sending unit 150 is further configured to send the second electronic device by using the communication link
  • the first location information is described.
  • connection unit may correspond to a communication interface, where the communication interface can establish a communication link between the second electronic device of the first electronic device.
  • the communication link may include various links such as long links.
  • the sending unit 150 can send the first location information to the second electronic device by using the communication link, so that the sharing of the line information between the first electronic device and the second electronic device can be easily implemented.
  • the embodiment provides another electronic device, where the electronic device is a second electronic device, and the second electronic device includes:
  • the receiving unit 210 is configured to receive first location information based on the first line provided by the first electronic device;
  • the second processing unit 220 is configured to draw a second line corresponding to the first line on the second map based on the first location information.
  • the second electronic device in this embodiment is an electronic device that performs line sharing with the first electronic device.
  • the electronic device herein may be various terminal devices as described above, for example, mobile devices such as mobile phones or tablets.
  • the receiving unit 210 may correspond to a receiving interface, where the receiving interface may include a wired interface or a wireless interface.
  • the wired interface here can be a cable interface or a fiber optic cable interface.
  • the wireless interface Various receiving antennas can be included.
  • the receiving unit 210 herein may receive the first location information directly from a direct connection with the first electronic device, or may receive the first location information from an intermediate node such as a network platform.
  • the second processing unit 220 can correspond to a processor or processing circuitry.
  • a description of a processor or processing circuit herein may be a processor or processing circuit included in the first electronic device.
  • the second electronic device in this embodiment directly receives the first location information received from the first electronic device from the first electronic device when the line is shared, instead of the information such as image information, so that the line can be better realized. Share and improve sharing.
  • the receiving unit 210 is further configured to receive operation information of the first electronic device for the first line, where the operation information is operation information for performing a first processing operation on the first line;
  • the second processing unit 220 is further configured to perform a second processing operation corresponding to the first processing operation on the displayed second line according to the operation information.
  • the second electronic device can receive not only the first location information from the first electronic device but also the operation information, so that the first electronic device and the second electronic device can perform corresponding operations on the line. After the processing, the first line and the second line can be synchronized.
  • the receiving unit 210 is further configured to receive the first electronic device to provide line interaction information and second location information, where the second location is location information of the first location on the first line
  • the second electronic device further includes: a display unit, configured to display the second location on the second line corresponding to the first location according to the line interaction information and the second location information Line interaction information.
  • the display unit may correspond to various display structures belonging to the second electronic device.
  • the display structure here may include various display devices such as a liquid crystal display, a projection display, an electronic ink display or an organic light emitting diode (OLED) display, and can display the second map and The second line and the line interaction information are superimposed on the second map.
  • the second device can not only display the second line corresponding to the first line in the line sharing process, but also display the line interaction information, thereby better performing operations such as line sharing.
  • the second electronic device in the embodiment is capable of implementing the hardware structure in the foregoing line information sharing method, and has the characteristics of good line sharing effect and high intelligence.
  • the embodiment of the present invention further provides a computer storage medium, where the computer storage medium stores computer executable instructions, where the computer executable instructions are used to execute at least one of the foregoing line information sharing methods; for example, as shown in the figure 1.
  • the computer storage medium stores computer executable instructions, where the computer executable instructions are used to execute at least one of the foregoing line information sharing methods; for example, as shown in the figure 1.
  • the computer storage medium may be various types of storage media such as a random storage medium RAM, a read-only storage medium ROM, a flash memory, or a magnetic tape.
  • this example provides a line sharing method, including:
  • the first step after the user operates the first electronic device to select the graffiti control, the user will be prompted to consume traffic.
  • the prompt effect is shown in the second middle image in FIG.
  • the second step based on the user operation, the first electronic device can select a brush, and the first map displayed by the first electronic device is in a graffiti edit state, and the route can be drawn.
  • the first electronic device sends the route to the cloud and synchronizes it to other electronic devices every time according to the user operation; after the line is drawn, the drawn route can be emptied based on the user operation, or all the current map can be The route is emptied.
  • Scene 1 Graffiti guides. User A draws a line on the first map of the first electronic device; User B (and other users at this time and A shared location) can immediately see this on the second map displayed by User B's second electronic device. Line and find the target location through this line.
  • Scene 2 Interactive entertainment. User A draws any graphic on the first map (the graphic is identified on the map), and user B (and other users at this time and A shared location) can immediately see this on the second map of the second electronic device. Graphics, while graffiti, fun and interactive.
  • User A and User B can be in different modes
  • the referee is on the map (2D map), and the referee can display the line simultaneously under navigation (3D map); the referee and the referee can be at different scales. For example, the referee draws and shares the route on the first map with a scale of 1:10 km; the referee can also see the line on the second map with a scale of 1:200 m.
  • this embodiment provides a line sharing method:
  • Step S1 first electronic device brush selection
  • Step S2 drawing a line
  • Step S3 line display
  • Step S4 Data synchronization; the data is first synchronized to the cloud, and then synchronized from the cloud to the second electronic device.
  • the cloud here may be equivalent to the network platform in the foregoing embodiment; the data synchronization herein includes at least the first location information mentioned in the foregoing embodiment;
  • Step S5 The data is emptied, which may include emptying the drawn lines.
  • step S3, the step S2, and the step S4 may be performed first in step S2, then in step S3, and finally in step S4, or in step S2 and step S3 and step S4, ie, the first electronic device. It is possible to perform line drawing while performing line display and synchronous data transmission for data synchronization. However, various problems such as the occurrence of the jamming of the first electronic device are avoided, and the method sequentially executed in steps S2, S3, and S4 is preferably used.
  • Step S11 brush selection
  • Step S12 drawing a line
  • Step S13 line display
  • Step S14 data synchronization; the data is first synchronized to the cloud, and then synchronized from the cloud to the first electronic device;
  • Step S15 The data is emptied, which may include emptying each line drawn.
  • the first device and the second device may be shared and shared by each other for line sharing.
  • Brush selection can include: graffiti brush for color and thickness selection
  • the line drawing may include: performing a painting operation on the map based on a user operation, and acquiring Global Position SYstem (GPS) information according to the trajectory of the stroke, taking into account the engine and network overhead, the maximum number of harnesses drawn on each map is X strips (dynamically changed based on engine and network overhead), each line contains up to Y GPS points (dynamically changed according to engine and network overhead), or the line he draws at one time contains X*Y GPS points.
  • GPS Global Position SYstem
  • the first is the device performance factor; the second is the network performance factor.
  • Device performance test Different CPUs have different CPU overhead when drawing lines. X and Y values will change dynamically with different device performance. Tested by model, iPhone4s is used as an example to test, and the number of points drawn on the line reaches X*Y. After the critical value, the CPU overhead increases sharply. When the obvious detonation can be seen, this limit value is used as the X*Y value of the model, and different models can be differently defined to meet the optimal performance of the model. In this example, the device performance test yields parameters that correspond to the aforementioned performance parameters.
  • Network performance test The collected GPS information coordinates are represented by int values, each sample contains latitude and longitude coordinates, that is, each sample occupies 8 bytes, and the point of each background transmission is 8*X*Y, according to Collect the type of network used by the user, configure the maximum value of the collection point in real time, and save the user's overhead under the mobile data.
  • the network performance test here yields parameters that correspond to the aforementioned network parameters.
  • the data synchronization may include: a line drawn by each electronic device on its own map, which is synchronized to other electronic devices through the cloud.
  • Various clients periodically pull the cloud data, parse the data into lines, and draw the lines on the map through the engine. Multiple users can operate at the same time. Each user uploads the collected points collected by the user to the cloud. The client periodically pulls the cloud data and draws the engine. The result is displayed immediately after the drawing is completed.
  • Line display When each user manually grafficks the line, the map shows different geographical locations, so the user can only see the lines that can be displayed in the current set geographic area. When it is moved or zoomed, other lines will also be displayed. come out.
  • Data clearing The data situation here is the case of the line. Based on user operations, the electronic device can clear the graffiti data; the lines drawn by other devices can also be emptied at one time. Clearing data also enables instant synchronization of the cloud and synchronization to other electronic devices via the cloud. At the same time, in order to avoid clearing valid data, the user can also recover the cleared data, such as restoring the last stroke or restoring the last clearing, whether the data can be recovered by the emptied person, or the data can be recovered by the emptying initiator. After recovery, the cloud will be synchronized and synced to other users.
  • the example further provides an information processing system capable of implementing the foregoing line sharing method, including: a network platform, a first electronic device, and a second electronic device.
  • the network platform here can include at least one server.
  • the information processing system shown in Fig. 12 is variously displayed with a plurality of servers. These servers are connected by routers or hubs and can be connected to the intranet of the service platform through a network device on the router or hub.
  • the service platform is connected to the WAN through a firewall.
  • Both the first electronic device and the second electronic device can be connected to the service platform by using a router to connect to the wide area network, or can be connected to the wide area network through the base station.
  • the first electronic device is connected to the wide area network by connecting to the home router, thereby implementing connection with the network platform.
  • Second The electronic device is connected to the wide area network through the base station to connect to the network platform.
  • the first electronic device and the second electronic device may share the line information through the network platform, thereby implementing the first line to be displayed on the first map of the first electronic device, and transmitting the first location information in the second electronic A line drawing is performed on the second map of the device to draw a second line corresponding to the first line.
  • the disclosed electronic device and method may be implemented in other manners.
  • the embodiment of the electronic device described above is only illustrative.
  • the division of the unit is only a logical function division.
  • there may be another division manner for example, multiple units or components may be combined. Or it can be integrated into another system, or some features can be ignored or not executed.
  • the coupling, or direct coupling, or communication connection of the components shown or discussed may be indirect coupling or communication connection through some interfaces, electronic devices or units, and may be electrical, mechanical or otherwise. Form.
  • the units described above as separate components may or may not be physically separated, and the components displayed as the unit may or may not be physical units, that is, may be located in one place or distributed to multiple network units; Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
  • each functional unit in each embodiment of the present invention may be integrated into one processing module, or each unit may be separately used as one unit, or two or more units may be integrated into one unit; the above integration
  • the unit can be implemented in the form of hardware or in the form of hardware plus software functional units.
  • the foregoing program may be stored in a computer readable storage medium, and the program is executed when executed.
  • the steps of the foregoing method embodiments are included; and the foregoing storage medium includes: a mobile storage electronic device, a read only memory (ROM, Read-Only Memory), random access memory (RAM), disk or optical disk, and other media that can store program code.

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Abstract

本发明实施例公开了一种线路信息共享方法及电子设备,所述方法应用于第一电子设备中,包括:采集用户操作;响应所述用户操作在所述第一电子设备显示的第一地图上绘制第一线路;提取第一地图上的第一线路的线路信息;基于所述线路信息,确定所述第一线路上Y个点对应的第一位置信息;所述Y为不小于2的整数;将所述第一位置信息提供第二电子设备;所述第一位置信息用于供所述第二电子设备在第二地图上绘制出对应于所述第一线路的第二线路。本发明实施例还公开了一种计算机存储介质。

Description

线路信息互动方法、电子设备和计算机存储介质 技术领域
本发明涉及信息技术领域,尤其涉及一种线路信息互动方法、电子设备和计算机存储介质。
背景技术
在现有技术中,在进行线路分享时,分享电子设备通常是将地图上绘制的线路以图片的形式或Html5方式,通过社交软件分享给对方电子设备。对方电子设备显示的就图片或Html方式打开分享的线路。这种线路分享的局限性表现在:若用户需要查看分享线路的更详细的信息,例如,具体经过了哪些路口等信息时,直接放大图片是无法满足用户要求的。若分享方向修改分享的路线,必须重新绘制之后通过另一个图片等形式进行分享。显然这种线路分享操作繁琐,信息处理刻板、且分享效果差。例如,当一个用户通过线路指引另一个用户出行时,仅通过图片或html5的方式进行分享,接受分享的用户仅能了解分享线路的大致信息,无法获知详细道路信息,显然无法很好的达到出行引路的效果。
发明内容
有鉴于此,本发明实施例期望提供的线路信息互动方法及电子设备,至少部分解决上述问题。
本发明的技术方案是这样实现的:
本发明实施例提供一种线路信息共享方法,所述方法应用于第一电子设备中,包括:
采集用户操作;
响应所述用户操作在所述第一电子设备显示的第一地图上绘制第一线路;
提取所述第一线路的线路信息;
基于所述线路信息,确定所述第一线路上Y个点对应的第一位置信息;所述Y为不小于2的整数;
将所述第一位置信息提供第二电子设备;所述第一位置信息用于供所述第二电子设备在第二地图上绘制出对应于所述第一线路的第二线路。
本发明实施例第二方面提供一种线路信息共享方法,所述方法应用于第二电子设备中,包括:
接收第一电子设备提供的基于第一线路的第一位置信息;
基于所述第一位置信息在第二地图上绘制对应于所述第一线路的第二线路。
本发明实施例第三方面提供一种电子设备,所述电子设备为第一电子设备;所述第一电子设备包括:
采集单元,配置为采集用户操作;
第一处理单元,配置为响应所述用户操作在所述第一电子设备显示的第一地图上绘制第一线路;
提取单元,配置为提取所述第一线路的线路信息;
第一确定单元,配置为基于所述线路信息,确定所述第一线路上Y个点对应的第一位置信息;所述Y为不小于2的整数;
发送单元,配置为将所述第一位置信息提供第二电子设备;所述第一位置信息用于供所述第二电子设备在第二地图上绘制出对应于所述第一线路的第二线路。
本发明实施例第四方面还提供另一种电子设备,所述电子设备为第二电子设备,所述第二电子设备包括:
接收单元,配置为接收第一电子设备提供的基于第一线路的第一位置信息;
第二处理单元,配置为基于所述第一位置信息在第二地图上绘制对应于所述第一线路的第二线路。
本发明实施例提供的线路共享方法、电子设备和计算机存储介质,在进行线路共享时,所述第一电子设备将采集用户操作绘制出第一线路,并提取第一线路的线路信息,获得第一线路的至少两个点的位置信息发送给第二电子设备,这样的第二电子设备就能够根据第一电子设备提供的位置信息,绘制出对应于第一线路的第二线路。这样进行的线路共享,打破了线路共享过程中以图片方式或html5方式进行线路共享的刻板性。用户可以在第二地图上对第二线路进行缩放、旋转等各种处理操作,从而能够提升线路共享效果,提升了电子设备的智能性,更有效的使用了电子设备的软硬件资源。
附图说明
图1为本发明实施例提供的第一种线路共享方法的流程示意图;
图2为本发明实施例提供的一种线路绘制的效果示意图;
图3为本发明实施例提供的第一种线路共享的效果示意图;
图4为本发明实施例提供的第二种线路共享的效果示意图;
图5为本发明实施例提供的响应线路互动操作的一种效果示意图;
图6为本发明实施例提供的第二种线路共享方法的流程示意图;
图7为本发明实施例提供的第三种线路共享方法的流程示意图;
图8为本发明实施例提供的一种第一电子设备的结构示意图;
图9为本发明实施例提供的一种第二电子设备的结构示意图;
图10为本发明实施例提供的一种线路绘制的界面示意图;
图11为本发明实施例提供的第四种线路共享方法的流程示意图;
图12为本发明实施例提供的能够实现本实施例所述线路共享方法的信息系统的结构示意图。
具体实施方式
以下结合说明书附图及具体实施例对本发明的技术方案做进一步的详细阐述,应当理解,以下所说明的优选实施例仅用于说明和解释本发明,并不用于限定本发明。
如图1所示,本实施例提供一种线路信息共享方法,所述方法应用于第一电子设备中,包括:
步骤S110:采集用户操作;
步骤S120:响应所述用户操作在所述第一电子设备显示的第一地图上绘制第一线路;
步骤S130:提取所述第一线路的线路信息;
步骤S140:基于所述线路信息,确定所述第一线路上Y个点对应的第一位置信息;所述Y为不小于2的整数;
步骤S150:将所述第一位置信息提供第二电子设备;所述第一位置信息用于供所述第二电子设备在第二地图上绘制出对应于所述第一线路的第二线路。
本实施例所述的线路信息共享方法可为应用于终端电子设备中的信息交互方法。在本实施例中所述第一电子设备和第二电子设备可为不同的终端电子设备,所述第一电子设备和第二电子设备可为手机、平板电脑、可穿戴式电子设备或笔记本电脑等各种终端电子设备。这些终端电子设备可以通过网络平台进行信息交互。值得注意的是,所述第二电子设备可以基于用户指定的电子设备,可以是非指定的电子设备。例如,用户A和用户B是微信好友,用户A基于打开第一地图的第一地图应用建立了与用户B 的共享组,这个时候用户B持有的电子设备即为所述第二电子设备。这里的第二电子设备即为指定的电子设备。当然这里的第二电子设备可以为非指定的电子设备。例如,用户A单纯的想通过第一电子设备共享第一线路的信息,所述第二电子设备为和第一电子设备一样连接在网络平台中的其他电子设备。这个时候第一电子设备没有指定任意一个电子设备,网络平台在接收到所述第一位置信息之后,可向连接在该平台中的任意其他电子设备发送所述第一位置信息。这里的任意其他电子设备即为未指定的第二电子设备。
在本实施例中所述第一地图可为运行在所述第一电子设备上的第一地图应用打开的地图。所述第一线路可为基于用户在地图上滑动等操作,形成的手绘地图。
所述第一线路也可以是基于用户在第一地图上输入的起始位置和终止位置,由地图应用自行导航形成的第一线路。
在其它实施例中,用户也可以在第一地图上点选起始位置、终止位置及路线中的关键位置点,通过用户在地图上滑动等操作形成所述第一线路,或者由地图应用根据点选的起始位置、终止位置及关键位置点自行形成所述第一线路。
在其它场景中,所述第一线路还可以是首先由地图应用生成了一个线路,再基于用户滑动或涂鸦等操作,对该线路进行了修改形成的线路。
在本实施例中,所述第一线路的条数可以为多条。
在本实施例中,所述第一线路中的每一条线路为没有断点的线路。
如图2所示,用户在电子设备显示的地图上利用手指滑动,绘制了两条第一线路。在图2的右图是基于用户操作及图2,形成的显示示意图。在图2的右图中其中一条第一线路为缺口环形线路,另一条第一线路为S型路线。
所述步骤S110可包括采集用户作用于显示交互屏的触摸或滑动操作。这里的显示交互屏可包括触摸屏或悬浮触摸屏。例如,图2中所示的手指滑动即为所述用户操作。
所述步骤S120中将根据所述用户操作在第一地图上进行线路绘制,形成所述第一线路。例如,用户手指在触摸屏显示的第一地图上滑动,所述第一设备在用户手指滑动的对应位置处,绘制一条第一线路,该第一线路与用户手指滑动的轨迹相同。当然用户利用鼠标滑动形成了鼠标图标移动轨迹,则在步骤S120中将对应于所述鼠标图标移动轨迹,在第一电子设备显示的第一地图上绘制一条线路。
在步骤S130中提取所述第一线路的线路信息可包括提取所述第一线路在第一地图上的各个坐标信息。
在本实施例中步骤S140中将基于线路信息,提取第一线路上Y个点对应的第一位置信息。这里的Y至少为不小于2的整数。通常当所述Y等于2时,2个所述第一位置信息通常为第一线路的起点位置和终点位置的地理位置信息。在步骤S140中通过全球定位系统等各种定位操作,可确定出所述第一线路上各个坐标信息对应的地理位置信息。本实施例中所述第一位置信息即可包括地理位置信息。
例如,位于第一地图上的第一线路上的各个点都对应了具体的地理位置,在本实施例中可以提取所述第一线路上部分或全部点对应的地理位置,形成所述第一位置信息。例如,假设在第一地图当前处理精度的前提下,所述第一线路可近似认为有N个点构成,在步骤S140中将提取Y个点的第一位置信息。Y为不小于所述N的整数。这里的第一位置信息可为这Y个点的经纬度信息或地理名称信息等各种信息,总之为能够标注地理位置的信息。
在步骤S150中会将所述第一位置信息发送给第二电子设备,这里的第 二电子设备可为不同于第一电子设备的另一个终端。在本实施例中,通常所述第一电子设备通过网络平台发送给第二电子设备。例如,所述第一电子设备和第二电子设备都可以连接到地图应用平台,所述第一电子设备将所述第一位置信息发送给地图应用平台,所述地图应用平台再将所述第一位置信息转发给第二电子设备。这样,所述第二电子设备在接收到所述第一位置信息之后,将根据所述第一位置信息在第二电子设备显示的第二地图上绘制出一条线路,该线路在本实施例中可称为第二线路。这里的第二线路与所述第一线路有对应关系,这种对应关系可表示为第一线路和第二线路均至少包括上述Y个点。这里表示第一线路上的至少Y个点对应的地理位置,在第二线路上也包括。且所述第一线路和第二线路的起点位置和终点位置不相同。当然在具体实现时,由于第一地图和第二地图的比例尺不同,所述第一线路和第二线路在显示屏幕上呈现的长短可能不同,粗细可能不同。当然也有可能因为第一电子设备的第一地图的处理精度和第二电子设备的第二地图的处理精度不同,第一线路和第二线路上各个点对应的位置信息有些许的误差。
在本实施例中所述步骤S150可包括实时将所述第一位置信息同步给所述第二电子设备。这样的话,所述第二电子设备就能同步看到第一电子设备显示第一地图上的第一线路对应的第二线路。这样的话,若用户A持第一电子设备给持第二电子设备的用户B进行指路,若用户A在第一电子设备的第一地图上绘制了一条由起点位置S1到终点位置S2的第一线路,通过步骤S120和步骤S130的操作,第二电子设备将同步接收到第一电子设备发送的第一位置信息,将在第二电子设备的第二地图上绘制出一条同样起点位置为S1和终点位置为S2的第二线路。且通常第二线路的延伸的形状都与所述第一线路的延伸的形状相同,不同的可能是大小和粗细。
如图3所示,第一电子设备上绘制有第一线路,将第一线路上Y个点 的第一位置信息同步到第二电子设备上,第二电子设备在第二地图上绘制了一条对应于第一线路的第二线路。从图3可知,第一线路和第二线路的形状相同,经过的位置相同,但是,显然第一线路小于第二线路。
这样的话,在进行线路共享的过程中,对方电子设备(这里的对方电子设备即为所述第第二电子设备)接收到的不再是图片或Html5方式打开的信息,向对方电子设备发送的是至少两个第一位置信息,重新在地图上绘制一条第二线路。若用户需要进一步查看该条线路经过的详细地址,用户可以在第二地图上进行线路的放大查看,从而提升分享效果,避免图片分享和Html5方式分享导致的分享信息的刻板性和不可操作性,导致的分享效果差的现象。
在一些实施例中,所述方法还包括:
基于所述第一电子设备的性能参数和/或所述第一电子设备连接的网络参数,确定所述第一线路的条数X和所述Y;所述X为不小于1的整数;所述Y为从每条所述第一线路提取所述第一位置信息的点数。
在本实施例中所述第一电子设备的性能参数可包括中央处理器CPU的处理速率、缓存容量参数、CPU的当前负荷率等各种能够表征第一电子设备进行信息处理的参数。所述第一电子设备连接的网络参数可包括网络类型参数,例如,所述网络参数可用于表征第一电子设备是通过WiFi连接到互联网,还是通过移动数据连接到互联网,是有线连接到网络还是无线连接到网络,第一电子设备所连接网络的网络带宽等信息。
例如,在确定所述X和Y时,还需要考虑到绘制一条第一线路所需消耗的资源,从一条第一线路提取一个点的第一位置信息所需要消耗的资源,结合所述性能参数,确定出一组备选的X和Y的取值。同时还将根据从X条第一线路上提取Y点所产生的数据量及网络参数,确定出另一组备选的X和Y的取值。在具体实现时可以从这两组备选取值中,选取取值较小的 一组作为所述X和Y的最终取值。
当然在具体的实现过程中,在确定所述X和Y时,仅基于性能参数或网络参数来确定,而不同时综合考虑所述性能参数和网络参数。
当然,基于性能参数确定所述X和Y,可以避免第一电子设备在进行线路信息交互过程中导致的负荷重,响应延时大造成的卡顿现象。
当然,基于所述网络参数确定所述X和Y,可以减少因为传输速度过慢,导致第二电子设备不能及时接收到所述第一位置信息的现象,减少传输延时。
总之本实施例中通过X和Y值的确定,能够避免线路信息交互过程中出现的信息处理不流畅、延时大及消耗的数据流量大等问题。
在某些实施例中,所述方法还包括:
采集作用于所述第一线路的处理操作;
根据所述处理操作,对所述第一线路进行第一处理操作;
根据所述处理操作,生成操作信息;
将所述操作信息提供给所述第二电子设备;其中,所述操作信息用于供所述第二电子设备对所述第二线路执行与第一处理操作对应的第二处理操作。
在本实施例中所述第一处理操作可包括删除第一线路、修改第一线路、重新绘制另一条第一线路,在第一线路上进行标注等操作。
在本实施例中所述采集作用于第一线路的操作处理,可包括通过人机交互接口采集的用户操作。例如,例如利用显示交互屏采集用户操作,检测滑动操作、点击操作等各种用户操作。
这里的操作处理可包括修改操作、删除操作、重绘操作等各种对第一线路进行处理的操作。第一电子设备在响应所述操作处理对所述第一线路进行处理的同时,还会根据所述处理操作生成操作信息。这里的操作信息 可包括所述第一操作的操作指令或操作参数。这里的操作指令可包括删除指令、修改指令、更新指令或绘制指令等。所述操作参数可包括删除的线路的标识,该标识用于指示具体删除哪一条第一线路,还可包括修改的第一线路的点的原始坐标等信息。
在本实施例中将所述操作信息发送给第二电子设备,这样第二电子设备会根据该操作信息对第二新路执行对应于第一处理操作的第二处理操作。
例如,第一电子设备删除了第一线路,则第二电子设备接收到的操作信息可包括删除指令等信息,第二电子设备根据该操作信息进行信息处理,也将删除所述第二线路。
比如,第一电子设备接收到了清空操作,第一电子设备通过网络平台(如云平台)发送给第二电子设备。第二电子设备接收到清空操作的操作信息之后,将会清空基于第一电子设备接收到的位置信息生成的各条第二线路。
再比如,若所述处理操作可包括修改操作,例如,通过点击第一线路上点,选择某些需要更改位置的点,通过滑动操作,用户可以将第一线路某些点移动到指定的位置。这样的话,用户就不用再重新绘制的情况下,生成一条新的第一线路。例如,如图4所示,用户手指对准第一线路上的一个点点击,移动该点到指定位置松开后,电子设备响应过该点击处理操作之后,形成的第一线路如图4中左图变更为如图4中右图所示的线路。
在具体实现时,通常所述第一电子设备接收到所述处理操作之后,及时生成操作信息之后,会在指定时间内将所述操作信息发送给第二电子设备。这里的指定时间通常为很短的时长。一般第一电子设备在生成所述操作信息后,立即将所述操作信息通过网络平台同步给第二电子设备,这样的话,第二电子设备就能够及时与第一电子设备进行同步,获得绘制在第 一电子设备的第一地图上的各种线路信息。
值得注意的是:本实施例所述的线路共享方法是在实施例一或实施例二提供的线路共享方法上的进一步改进,当然在本实施例中使用的X和Y也可以采用实施例二中所述的方法来确定。当然在具体的实现过程中,所述X和Y也可以是电子设备出厂时或地图应用默认设置的。
在某些实施例中,所述方法还包括:
采集作用于所述第一线路的处理操作;这里的采集的处理操作可包括:采集基于所述第一线路上第一位置的线路互动操作,生成线路互动信息;
根据所述处理操作,对所述第一线路进行第一处理操作;
根据所述处理操作,生成操作信息;
将所述操作信息提供给所述第二电子设备;这里的将所述操作信息提供给第二电子设备可包括:将所述线路互动信息及第一位置的第二位置信息,提供给所述第二电子设备。
所述操作信息用于供所述第二电子设备对所述第二线路执行与第一处理操作对应的第二处理操作;这里的,所述线路互动信息用于供所述第二电子设备在所述第二地图上显示。当然值得注意的是:所述操作信息除了所述线路互动信息,还可包括其他操作信息。
在图5中五角星选中的点为对应于所述第一位置的点,第一电子设备的人机交互电子设备还将接收用户输入的信息。在图5提供的示例中,用户输入的文字可包括:“面对山西面馆左转”。执行本实施例所述的信息交互方法,根据处理操作,对第一线路进行第一处理操作之后,形成的显示效果。在第一线路附近对应的第一位置的时候显示线路互动信息。
在本实施例中还会同步将所述线路互动信息通过通信链路或通过网络平台同步给第二电子设备,这样第二电子设备也会在对应的位置显示线路互动信息,从而更好的指引用户出行。
在一些实施例中,所述方法还包括:
采集作用于所述第一线路的处理操作;
根据所述处理操作,对所述第一线路进行第一处理操作;
根据所述处理操作,生成操作信息;
将所述操作信息提供给所述第二电子设备;其中,所述操作信息用于供所述第二电子设备对所述第二线路执行与第一处理操作对应的第二处理操作。
在本实施例中所述第一处理操作可包括删除第一线路、修改第一线路、重新绘制另一条第一线路,在第一线路上进行标注等操作。
所述方法还包括:生成历史记录信息;所述采集作用于所述第一线路的处理操作,包括:采集线路恢复操作。所述根据所述处理操作,对所述第一线路进行第一处理操作,包括:响应所述线路恢复操作,基于所述历史记录信息控制所述第一地图恢复历史线路的显示。
在本实施例中所述历史记录信息可包括当前时间以前的一段历史时间内,绘制的各条第一线路的信息。在本实施例中所述第一电子设备还会响应所述线路恢复操作,恢复历史线路的显示。
这样的话,第一电子设备还会将历史恢复操作生成的历史恢复操作信息发送给第二电子设备,这样第二电子设备也会恢复显示对应于第一电子设备的第一线路的第二线路的显示。
这样第一电子设备和第二电子设备通过清空线路之后恢复,满足用户查找历史线路的需求,更好的利用了第一电子设备和第二电子设备的软硬件资源,提升了第一电子设备和第二电子设备的资源有效利用率。
在一些实施例中,所述方法还包括:
建立所述第一电子设备与所述第二电子设备之间的通信链路;
所述步骤S150可包括:利用所述通信链路向所述第二电子设备发送所 述第一位置信息。
在本实施例中所述第一电子设备和所述第二电子设备可以建立各种通信链路;例如,所述第一电子设备和所述第二电子设备之间建立长连接等。当然这里的第一电子设备和第二电子设备之间的通信链路还可包括在网络平台建立共享关系记录。这样网络电子设备接收到第一电子设备发送第一位置信息之后,可以通过所述共享关系记录,确定接收所述第一位置信息的第二电子设备。在本实施例第一电子设备和第二电子设备之间的通信链路的方式有多种,在当然不局限于上述两种。
在本实施例中通过建立第一电子设备和第二电子设备之间的通信链路,可方便有针对性的传输所述第一位置信息,方便所述第二电子设备上显示的第二地图上的第二线路的显示。
如图6所示,本实施例提供一种线路信息共享方法,所述方法应用于第二电子设备中,包括:
步骤S210:接收第一电子设备提供的基于第一线路的第一位置信息;
步骤S220:基于所述第一位置信息在第二地图上绘制对应于所述第一线路的第二线路。
本实施例所述第二电子设备为接收第一电子设备发送的第一位置信息,在第二电子设备显示的第二地图上,对应于第一线路的第二线路,实现线路的共享。
在步骤S210可包括直接从第一电子设备发送的第一位置信息,也可以接收从其他电子设备转发的第一电子设备发送的第一位置信息,例如从网络平台接收转发来自第一电子设备的第一位置信息。
在步骤S220将基于第一位置信息在第二地图上绘制一条对应于第一线路的第二线路。
在本实施例所述第二电子设备中,在进行线路共享时,不像现有技术 一样接收的图片文件或已Html5方式才能打开的信息,而是直接接收的第一位置信息。在接收到所述第一位置信息之后,将基于第一位置信息绘制形成第二线路。这样用户在查看第二线路时,可以通过地图操作,放大第二线路,方便查看更详细的内容,显然更好的利用了第二电子设备的软硬件资源,提升了电子设备的有效使用率,达到的更好的分享效果。
在有些实施中,所述方法还包括:
接收所述第一电子设备针对所述第一线路的操作信息;其中,所述操作信息是针对于第一线路执行第一处理操作的操作信息;
根据所述操作信息,对显示的所述第二线路执行对应于所述第一处理操作的第二处理操作。
在本实施例中还将接收操作信息,这里的操作信息可包括删除操作、清空操作、修改操作、更新操作或互动操作更各种操作的操作信息。
第二电子设备从第一电子设备接收到针对第一线路的操作信息,这样的话,在第二电子设备响应所述处理操作执行第一处理操作时,第二电子设备也会执行对应于第一处理操作的第二处理操作,这样的话,就实现了第一电子设备和第二电子设备对线路的处理同步。
例如,所述接收所述第一电子设备针对所述第一线路的操作信息,还包括:接收所述第一电子设备提供线路互动信息及第二位置信息;其中,所述第二位置为所述第一线路上第一位置的位置信息;根据所述线路互动信息及所述第二位置信息,在所述第二线路上对应于所述第一位置的第二位置显示所述线路互动信息。
若图5所示的示意图为第二电子设备的显示示意图,则图5中五角星对应的点即为所述第二位置。图5中显示的“面对山西面馆左转”即为所述线路互动信息恭喜那个的互动内容。在本实施例中通过线路互动信息的共享,更好的进行线路共享和引入知道,提升线路贡献和引入指导的直观 性和简单性;且更好的利用了第一电子设备和第二电子设备的软硬件资源,提升了第一电子设备和第二电子设备的资源有效利用率。
以下结合上述实施例提供一个具体应用示例,
如图7所示,本示例一种线路信息共享方法,包括:
步骤S101:采集用户涂鸦操作,响应用户涂鸦操作在第一地图上生成并显示线路A;这里的线路A相当于所述第一线路。这里的用户涂鸦操作即为前述实施例中的用户操作。这里的用户操作可包括作用于显示交互屏的触摸操作或悬浮触摸操作。
步骤S102:提取线路A上Y个点的第一位置信息。
步骤S103:第一电子设备通过网络平台将所述第一位置信息发送给第二电子设备。具体地,所述第一电子设备通过网络平台将第一位置信息实时同步给第二电子设备。
步骤S104:第二电子设备接收到所述第一位置信息之后,基于第一信息在第二地图上绘制第二线路。
如图8所示,本实施例提供一种电子设备,所述电子设备为第一电子设备;所述第一电子设备包括:
采集单元110,配置为采集用户操作;
第一处理单元120,配置为响应所述用户操作在所述第一电子设备显示的第一地图上绘制第一线路;
提取单元130,配置为提取第一地图上的第一线路的线路信息;
第一确定单元140,配置为基于所述线路信息,确定所述第一线路上Y个点对应的第一位置信息;所述Y为不小于2的整数;
发送单元150,配置为将所述第一位置信息提供第二电子设备;所述第一位置信息用于供所述第二电子设备在第二地图上绘制出对应于所述第一线路的第二线路。
本实施例所述第一电子设备可为手机、平板电脑或可穿戴式设备等各种终端设备。
所述采集单元110可对应于各种人机交互接口,这里的人机交互接口可对应于显示交互单元。这里的显示交互单元可包括显示触控屏或悬浮显示触控屏。
所述第一处理单元120、提取单元130和所述第一确定单元140对应的结构可对应于手机或平板电脑等各种电子设备的处理器或处理电路。这里的处理器可包括中央处理器、微处理器、数字信号处理器或可编程阵列等处理结构。所述处理电路可对应于专用集成电路。
所述处理器或处理电路,能够读取存储介质中存储的指定代码,并通过执行所述指定代码能够实现所述第一线路的线路信息的提取和所述第一位置的确定。
所述发送单元150可对应于发送接口,这里的发送接口可对应于有线发送接口,也可以是无线发送接口。这里的有线发送接口可包括电缆接口或光缆接口。所述无线发送接口可能对应于WiFi天线,也可以对应于与演进型基站eNB等移动天线等发送接口。
在本实施例中所述发送单元150来发送所述第一位置信息,这里的第一位置信息可通过第一电子设备与第二电子设备之间的直连链路发送,也可以通过网络平台等中间设备转发给第二电子设备。
总之,本实施例所述第一电子设备在进行线路共享过程,直接共享的线路上的位置信息,而非现有技术中的图片信息等信息的共享,这样完成的线路共享,被共享的线路直接显示在地图上,能够方便用户进行后续的操作,提升了共享效果。
所述电子设备还包括:
第二确定单元,配置为基于所述第一电子设备的性能参数和/或所述第 一电子设备连接的网络参数,确定所述第一线路的条数X和所述Y;所述X为不小于1的整数;所述Y为从每条所述第一线路提取所述第一位置信息的点数。
在本实施例所述第二确定单元可对应于计算器或具有计算功能的处理器或具有计算功能的处理电路。根据性能采纳数和/或网络参数,以及在线路共享过程中所需消耗的资源,所产生的数据量,计算出合适的X和Y,一方面避免第一电子设备的出现卡顿等处理操作不流畅的现象,同时还能够避免共享对方,即第二电子设备,出现接收延时大等问题。
所述采集单元110,还配置为采集作用于所述第一线路的处理操作;
所述第一处理单元,还配置为根据所述处理操作,对所述第一线路进行第一处理操作;
所述第一电子设备还包括:
生成单元,配置为根据所述处理操作,生成操作信息;
所述发送单元150,配置为将所述操作信息提供给所述第二电子设备;其中,所述操作信息用于供所述第二电子设备对所述第二线路执行与第一处理操作对应的第二处理操作。
本实施例所述采集单元可包括各种接收用户输入的传感器,这里的采集单元可对应于键盘、显示交互屏或鼠标等各种用户输入的传感设备,这样就能够简便的采集作用于第一线路的处理操作。
这里的所述第一处理单元可对应于处理器或处理电路。这里的处理器或处理电路的描述可参见前一个实施例,在此就不重复了。
所述生成单元也可以对应于所述处理器或处理电路或解析器,能够解析出所述处理操作,生成所述操作信息,这里的操作信息可包括操作指令和操作指令对应的操作参数。这里的操作指令也可以为删除指令、清空指令或修改指令等指令。所述操作参数可包括执行前述操作指令的参数值, 例如,根据所述操作参数可知道删除哪一条第一线路,清空哪些第一线路等。总之,在本实施例中通过所述操作信息的发送,能够使得第二电子设备同步对第二线路进行操作处理,从而实现与第一电子设备的线路共享的同步。
可选地,所述采集单元110,配置为采集基于所述第一线路上第一位置的线路互动操作,生成线路互动信息;所述发送单元150,配置为将所述线路互动信息及第一位置的第二位置信息,提供给所述第二电子设备;其中,所述线路互动信息用于供所述第二电子设备在所述第二地图上显示。在本实施例中传感器采集的操作可包括线路互动操作,例如,在第一线路上进行文字、图像批注及语音批注的至少其中之一,方便第二电子设备接收到之后更好的获知线路信息。这里的文字批注,可以包括第一电子设备用户输入的文字。图像批注可包括在第一线路上第一位置上插入图片。例如,插入第二电子设备的用户需要查找的建筑的照片。所述语音批注,可包括第一电子设备的用户发送的指引语音等信息。总之,在本实施例中所述第一电子设备能够通过线路互动信息的共享,更好的线路共享。
当然,在本实施例中所述生成单元,还用于生成历史记录信息;所述采集单元,还用于采集线路恢复操作;所述第一处理单元,还用于响应所述线路恢复操作,基于所述历史记录信息控制所述第一地图恢复历史线路的显示。
在本实施例中所述生成单元还被复用生成历史记录信息,这里的历史记录信息可包括各种当前时间以前绘制的第一线路的线路信息。在本实施例中所述第一电子还可包括存储单元,这里的存储单元可对应于各种存储介质,能够存储所述历史记录信息。在本实施例所述采集单元还被复用采集线路恢复操作,例如,可包检测用户滑动操作、用户点击操作或鼠标处理操作等。所述第一处理单元还能够恢复历史线路的显示,这样可以方便 用户通过线路恢复操作,查看之前显示过的线路,提升第一电子设备的智能性及用户使用满意度。
本实施例是在前述任意一个第一电子设备的技术方案的进一步改进,在本实施例中所述X和Y也可以是由第二确定单元,根据性能参数和/或网络参数确定的,确定X和Y时不局限于上述第二确定单元。
所述电子设备还包括:
连接单元,配置为建立所述第一电子设备与所述第二电子设备之间的通信链路;所述发送单元150,还配置为利用所述通信链路向所述第二电子设备发送所述第一位置信息。
在本实施例中所述连接单元可对应于通信接口,这里的通信接口,能够建立第一电子设备第二电子设备之间的通信链接。所述通信链接可包括长链接等各种链接。所述发送单元150可通过所述通信链接向所述第二电子设备发送所述第一位置信息,这样就能够简便的实现第一电子设备和第二电子设备进行线路信息的共享。
如图9所示,本实施例提供另一种电子设备,所述电子设备为第二电子设备,所述第二电子设备包括:
接收单元210,配置为接收第一电子设备提供的基于第一线路的第一位置信息;
第二处理单元220,配置为基于所述第一位置信息在第二地图上绘制对应于所述第一线路的第二线路。
本实施例所述第二电子设备为与第一电子设备进行线路共享的电子设备。这里的电子设备可为前述的各种终端设备,例如,手机或平板电脑等移动设备。
所述接收单元210可对应于接收接口,这里的接收接口可包括有线接口或无线接口。这里的有线接口可为电缆接口或光缆接口。所述无线接口 可包括各种接收天线。这里的接收单元210可直接从与第一电子设备的直连中接收所述第一位置信息,也可以从网络平台等中间节点接收所述第一位置信息。
所述第二处理单元220可对应于处理器或处理电路。这里的处理器或处理电路的相关描述可以第一电子设备中包括的处理器或处理电路。
总之,本实施例所述第二电子设备,在进行线路共享时,直接从第一电子设备从第一电子设备接收的第一位置信息,而非图像信息等信息,这样能够更好的实现线路共享,提升共享效果。
所述接收单元210,还配置为接收所述第一电子设备针对所述第一线路的操作信息;其中,所述操作信息是针对于第一线路执行第一处理操作的操作信息;
所述第二处理单元220,还配置为根据所述操作信息,对显示的所述第二线路执行对应于所述第一处理操作的第二处理操作。
在本实施例中所述第二电子设备不仅可以从所述第一电子设备接收第一位置信息,还将接收操作信息,这样能够实现第一电子设备和第二电子设备对线路执行对应的操作,处理完之后可实现第一线路和第二线路对应同步。
可选地,所述接收单元210,还配置为接收所述第一电子设备提供线路互动信息及第二位置信息;其中,所述第二位置为所述第一线路上第一位置的位置信息;所述第二电子设备还包括:显示单元,用于根据所述线路互动信息及所述第二位置信息,在所述第二线路上对应于所述第一位置的第二位置显示所述线路互动信息。
在本实施例中所述显示单元可对应于归属第二电子设备的各种显示结构。这里的显示结构可包括液晶显示屏、投影显示屏、电子墨水显示屏或有机发光二极管OLED显示屏等各种显示设备,能够显示第二地图并在第 二地图之上叠加显示第二线路和所述线路互动信息。这样第二设备不仅能够在线路共享过程中,直接显示对应于第一线路的第二线路,同时还会显示线路互动信息,从而更好的实现线路共享等操作。
总之,本实施例所述第二电子设备为能够实现前述线路信息共享方法中的硬件结构,具有线路共享效果好及智能性高的特点。
本发明实施例还提供了一种计算机存储介质,所述计算机存储介质中存储有计算机可执行指令,所述计算机可执行指令用于执行前述线路信息共享方法的至少其中之一;例如,如图1、图6、图7及图11所示方法中的一个或多个。
所述计算机存储介质可为随机存储介质RAM、只读存储介质ROM、闪存Flash或磁带等各种类型的存储介质。
以下结合上述实施例中任意一个技术方案,提供几个具体示例:
示例一:
如图10所示,本示例提供一种线路共享方法,包括:
第一步:基于用户操作第一电子设备选择涂鸦控件后,会提示用户流量消耗。提示效果如图10中的第二中图所示。
第二步:基于用户操作,第一电子设备可以选择画笔,第一电子设备显示的第一地图处于涂鸦编辑态,可进行路线绘制。第一电子设备基于用户操作,在每次绘制成功将路线发送给云端并即时同步给其他电子设备;绘制后线路之后,基于用户操作,可以对绘制的路线进行清空,也可以对当前地图上所有路线进行清空。
以上基于上述操作,提供2种应用场景。
场景1:涂鸦指路。用户A在第一电子设备的第一地图上画一条线;用户B(及此时和A共享位置的其他用户)可以在用户B的第二电子设备显示的第二地图上即时看到这条线,并通过这条线找到目标地点。
场景2:互动娱乐。用户A在第一地图图上画任意一个图形(该图形标识在地图上),用户B(及此时和A共享位置的其他用户)可以在第二电子设备的第二地图上即时看到这个图形,同时进行涂鸦,趣味互动。
功能特点:用户A和用户B可以处于不同的模式下
指路人在地图上(2D地图),被指路人在导航下(3D地图)能同时显示该条线;指路人和被指路人可以处于不同的比例尺下。例如,指路人在比例尺为1:10公里的第一地图上通过线路绘制和共享进行指路;被指路人在比例尺为1:200米的第二地图上也可以看到该条线。
示例二:
如图11所示,本实施例提供一种线路共享方法:
步骤S1:第一电子设备画笔选择;
步骤S2:绘制线路;
步骤S3:线路显示;
步骤S4:数据同步;数据首先同步到云端,再从云端同步到第二电子设备。这里的云端可相当于前述实施例中的网络平台;这里的数据同步至少包括前述实施例中提到的第一位置信息;
步骤S5:数据清空,这里可包括清空绘制的各条线路。
在具体执行时,所述步骤S3、步骤S2及步骤S4,可以先执行步骤S2,再执行步骤S3,最后执行步骤S4,也可以同步执行步骤S2和步骤S3和步骤S4,即第一电子设备可以一边执行线路绘制,一边进行线路显示并同步进行数据发送实现数据同步。但是避免第一电子设备的出现处理卡顿等各种问题,优先采用步骤S2、步骤S3及步骤S4顺序执行的方法。
步骤S11:画笔选择;
步骤S12:绘制线路;
步骤S13:线路显示;
步骤S14:数据同步;数据首先同步到云端,再从云端同步到第一电子设备;
步骤S15:数据清空,这里可包括清空绘制的各条线路。
在本示例中所述第一设备和第二设备可互为共享端和被共享端,进行线路共享。
以下详细介绍一下上述各个操作。
画笔选择可包括:涂鸦画笔可以进行颜色和粗细的选择
线路绘制可包括:基于用户操作在地图上面进行绘画操作,根据笔画的轨迹进行全球定位系统(Global Position SYstem,GPS)信息获取,考虑到引擎和网络开销,每个地图上最多绘制线束条数为X条(根据引擎和网络开销动态变更),每条线路最多包含Y个GPS点(根据引擎和网络开销动态变更),亦或他一次绘制的线包含X*Y个GPS点。
以下介绍一下,关于X和Y的测定方法:
主要考虑两个因素:第一种为设备性能因素;第二种为网络性能因素
设备性能测试:不同手机在绘制线路时CPU开销不同,X和Y值会随着设备性能不同动态变化,通过机型进行测试,以iPhone4s为例进行测试,在线路绘制的点数达到X*Y这个临界值后,CPU开销急剧增加,可以看到明显的卡顿时,以这个极限值作为该机型的X*Y值,可对不同机型进行不同限定,以满足机型的最优性能。在本示例中对设备性能测试得到参数,对应于前述的性能参数。
网络性能测试:采集的GPS信息坐标都以int值表示,每个样点都包含经纬度坐标,即每个样点占用8个字节,那每次后台传输的点是8*X*Y,根据采集到的用户使用的网络类型,实时配置采集点最大值,保证移动数据下为用户节省开销。这里的网络性能测试得到参数,对应于前述的网络参数。
每个用户的X*Y值都会综合考虑以上两种因素,动态变化
所述数据同步可包括:每个电子设备在自己地图上绘制的线路,会通过云端同步给其他电子设备。各种客户端定时拉取云端数据,将数据解析成线路,并通过引擎将线路在地图上进行绘制。可多人同时操作,每个用户分别将各自绘制的采集点上传云端,客户端定时拉取云端数据,进行引擎绘制,绘制完成后结果即时显示。
线路显示:每个用户手动涂鸦线路时,地图显示的地理位置不同,所以用户只能看到他当前设定地理区域内能显示的线路,当其进行挪图或缩放时,其他线路也会显示出来。
数据清空:这里的数据情况即为线路的情况。基于用户操作,电子设备可以清空涂鸦数据;也可将其他设备绘制的线路一次性清空。清空数据也进行即时同步云端,并通过云端同步给其他电子设备。同时,为避免清空有效数据,用户还可以对清空的数据进行恢复,例如恢复上一笔或恢复上一次清空,既可由被清空者对数据进行恢复,也可以由清空发起者对数据进行恢复,恢复后都将同步云端,并同步给其他用户。
示例三:
如图12所示,本示例还提供一种能够实现前述线路共享方法的信息处理系统,包括:网络平台、第一电子设备及第二电子设备。
这里的网络平台可包括至少一台服务器。在图12显示的信息处理系统各种显示有多台服务器。这些服务器之间通过路由器或集线器连接,并可以通过路由器或集线器上一层网络设备连接成服务平台的内网。服务平台通过防火墙连接到广域网。
第一电子设备和第二电子设备均可以通过用路由器连接到广域网,进而连接到服务平台,也可以是通过基站连接到广域网。在图12中第一电子设备通过给家用路由器连接到广域网,从而实现与网络平台的连接。第二 电子设备通过基站连接到广域网,从而连接到网络平台。
第一电子设备和第二电子设备可以通过网络平台,进行线路信息的共享,从而实现将显示在第一电子设备的第一地图上的第一线路,以第一位置信息的传输在第二电子设备的第二地图上进行线路绘制,从而绘制出对应于第一线路的第二线路。
在本申请所提供的几个实施例中,应该理解到,所揭露的电子设备和方法,可以通过其它的方式实现。以上所描述的电子设备实施例仅仅是示意性的,例如,所述单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,如:多个单元或组件可以结合,或可以集成到另一个系统,或一些特征可以忽略,或不执行。另外,所显示或讨论的各组成部分相互之间的耦合、或直接耦合、或通信连接可以是通过一些接口,电子设备或单元的间接耦合或通信连接,可以是电性的、机械的或其它形式的。
上述作为分离部件说明的单元可以是、或也可以不是物理上分开的,作为单元显示的部件可以是、或也可以不是物理单元,即可以位于一个地方,也可以分布到多个网络单元上;可以根据实际的需要选择其中的部分或全部单元来实现本实施例方案的目的。
另外,在本发明各实施例中的各功能单元可以全部集成在一个处理模块中,也可以是各单元分别单独作为一个单元,也可以两个或两个以上单元集成在一个单元中;上述集成的单元既可以采用硬件的形式实现,也可以采用硬件加软件功能单元的形式实现。
本领域普通技术人员可以理解:实现上述方法实施例的全部或部分步骤可以通过程序指令相关的硬件来完成,前述的程序可以存储于一计算机可读取存储介质中,该程序在执行时,执行包括上述方法实施例的步骤;而前述的存储介质包括:移动存储电子设备、只读存储器(ROM, Read-Only Memory)、随机存取存储器(RAM,Random Access Memory)、磁碟或者光盘等各种可以存储程序代码的介质。
以上所述,仅为本发明的具体实施方式,但本发明的保护范围并不局限于此,凡按照本发明原理所作的修改,都应当理解为落入本发明的保护范围。

Claims (19)

  1. 一种线路信息共享方法,所述方法应用于第一电子设备中,包括:
    采集用户操作;
    响应所述用户操作在所述第一电子设备显示的第一地图上绘制第一线路;
    提取所述第一线路的线路信息;
    基于所述线路信息,确定所述第一线路上Y个点对应的第一位置信息;所述Y为不小于2的整数;
    将所述第一位置信息提供第二电子设备;所述第一位置信息用于供所述第二电子设备在第二地图上绘制出对应于所述第一线路的第二线路。
  2. 根据权利要求1所述的方法,其中,所述方法还包括:
    基于所述第一电子设备的性能参数和/或所述第一电子设备连接的网络参数,确定所述第一线路的条数X和所述Y;所述X为不小于1的整数;所述Y为从每条所述第一线路提取所述第一位置信息的点数。
  3. 根据权利要求1或2所述的方法,其中,
    所述方法还包括:
    采集作用于所述第一线路的处理操作;
    根据所述处理操作,对所述第一线路进行第一处理操作;
    根据所述处理操作,生成操作信息;
    将所述操作信息提供给所述第二电子设备;其中,所述操作信息用于供所述第二电子设备对所述第二线路执行与第一处理操作对应的第二处理操作。
  4. 根据权利要求3所述的方法,其中,
    所述采集作用于所述第一线路的处理操作,还包括:
    采集基于所述第一线路上第一位置的线路互动操作,生成线路互动信 息;
    所述将所述操作信息提供给所述第二电子设备,包括:
    将所述线路互动信息及第一位置的第二位置信息,提供给所述第二电子设备;
    其中,所述线路互动信息用于供所述第二电子设备在所述第二地图上显示。
  5. 根据权利要求3所述的方法,其中,
    所述方法还包括:
    生成历史记录信息;
    所述采集作用于所述第一线路的处理操作,包括:
    采集线路恢复操作;
    所述根据所述处理操作,对所述第一线路进行第一处理操作,包括:
    响应所述线路恢复操作,基于所述历史记录信息控制所述第一地图恢复历史线路的显示。
  6. 根据权利要求1或2所述的方法,其中,
    所述方法还包括:
    建立所述第一电子设备与所述第二电子设备之间的通信链路;
    所述将所述第一位置信息提供第二电子设备,包括:
    利用所述通信链路向所述第二电子设备发送所述第一位置信息。
  7. 一种线路信息共享方法,所述方法应用于第二电子设备中,包括:
    接收第一电子设备提供的基于第一线路的第一位置信息;
    基于所述第一位置信息在第二地图上绘制对应于所述第一线路的第二线路。
  8. 根据权利要求7所述的方法,其中,
    所述方法还包括:
    接收所述第一电子设备针对所述第一线路的操作信息;其中,所述操作信息是针对于第一线路执行第一处理操作的操作信息;
    根据所述操作信息,对显示的所述第二线路执行对应于所述第一处理操作的第二处理操作。
  9. 根据权利要求8所述的方法,其中,
    所述接收所述第一电子设备针对所述第一线路的操作信息,还包括:
    接收所述第一电子设备提供线路互动信息及第二位置信息;其中,所述第二位置为所述第一线路上第一位置的位置信息;
    根据所述线路互动信息及所述第二位置信息,在所述第二线路上对应于所述第一位置的第二位置显示所述线路互动信息。
  10. 一种电子设备,,所述电子设备为第一电子设备;所述第一电子设备包括:
    采集单元,配置为采集用户操作;
    第一处理单元,配置为响应所述用户操作在所述第一电子设备显示的第一地图上绘制第一线路;
    提取单元,配置为提取所述第一线路的线路信息;
    第一确定单元,配置为基于所述线路信息,确定所述第一线路上Y个点对应的第一位置信息;所述Y为不小于2的整数;
    发送单元,配置为于将所述第一位置信息提供第二电子设备;所述第一位置信息用于供所述第二电子设备在第二地图上绘制出对应于所述第一线路的第二线路。
  11. 根据权利要求10所述的电子设备,其中,所述电子设备还包括:
    第二确定单元,配置为基于所述第一电子设备的性能参数和/或所述第一电子设备连接的网络参数,确定所述第一线路的条数X和所述Y;所述X为不小于1的整数;所述Y为从每条所述第一线路提取所述第一位置信 息的点数。
  12. 根据权利要求10或11所述的电子设备,其中,
    所述采集单元,还配置为采集作用于所述第一线路的处理操作;
    所述第一处理单元,还配置为根据所述处理操作,对所述第一线路进行第一处理操作;
    所述第一电子设备还包括:
    生成单元,配置为根据所述处理操作,生成操作信息;
    所述发送单元,配置为将所述操作信息提供给所述第二电子设备;其中,所述操作信息用于供所述第二电子设备对所述第二线路执行与第一处理操作对应的第二处理操作。
  13. 根据权利要求12所述的电子设备,其中,
    所述采集单元,配置为采集基于所述第一线路上第一位置的线路互动操作,生成线路互动信息;
    所述发送单元,配置为将所述线路互动信息及第一位置的第二位置信息,提供给所述第二电子设备;
    其中,所述线路互动信息用于供所述第二电子设备在所述第二地图上显示。
  14. 根据权利要求12所述的电子设备,其中,
    所述生成单元,还配置为生成历史记录信息;
    所述采集单元,还配置为采集线路恢复操作;
    所述第一处理单元,还配置为响应所述线路恢复操作,基于所述历史记录信息控制所述第一地图恢复历史线路的显示。
  15. 根据权利要求10或11所述的电子设备,其中,
    所述电子设备还包括:
    连接单元,配置为建立所述第一电子设备与所述第二电子设备之间的 通信链路;
    所述发送单元,还配置为利用所述通信链路向所述第二电子设备发送所述第一位置信息。
  16. 一种电子设备,,所述电子设备为第二电子设备,所述第二电子设备包括:
    接收单元,配置为接收第一电子设备提供的基于第一线路的第一位置信息;
    第二处理单元,配置为基于所述第一位置信息在第二地图上绘制对应于所述第一线路的第二线路。
  17. 根据权利要求16所述的电子设备,其中,
    所述接收单元,还配置为接收所述第一电子设备针对所述第一线路的操作信息;其中,所述操作信息是针对于第一线路执行第一处理操作的操作信息;
    所述第二处理单元,还配置为根据所述操作信息,对显示的所述第二线路执行对应于所述第一处理操作的第二处理操作。
  18. 根据权利要求17所述的电子设备,其中,
    所述接收单元,还配置为接收所述第一电子设备提供线路互动信息及第二位置信息;其中,所述第二位置为所述第一线路上第一位置的位置信息;
    所述第二电子设备还包括:
    显示单元,配置为根据所述线路互动信息及所述第二位置信息,在所述第二线路上对应于所述第一位置的第二位置显示所述线路互动信息。
  19. 一种计算机存储介质,所述计算机存储介质中存储有计算机可执行指令,所述计算机可执行指令用于执行权利要求1至5任一项所述的方法。
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