WO2021087964A1 - 控制触控显示屏的方法、装置、触控显示屏及电子设备 - Google Patents
控制触控显示屏的方法、装置、触控显示屏及电子设备 Download PDFInfo
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- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
Definitions
- This application relates to the field of electronic technology, and more specifically, to a method and device for controlling a touch screen, a touch screen, and an electronic device.
- touch screens With the development of display technology, more electronic devices are equipped with touch screens.
- the user can control the electronic device by performing a touch operation on the touch screen.
- the related touch display screen will still recognize that a touch operation has occurred even when the user does not perform an operation, which may cause misoperation of the electronic device.
- this application proposes a method, device, touch-control display and electronic equipment for controlling a touch-sensitive display screen to improve the above-mentioned problems.
- the present application provides a method for controlling a touch display screen, which is applied to an electronic device equipped with a touch display screen.
- the method includes: acquiring motion parameters corresponding to a trajectory composed of a plurality of touch points; and detecting; Whether the motion parameter meets a target condition, the target condition indicates that there is a misrecognized touch point among the multiple touch points; if it is detected that the motion parameter meets the target condition, the control touch screen is controlled to change the working parameter, Used to avoid misidentified touch points.
- the present application provides a device for controlling a touch display screen, which runs on an electronic device equipped with a touch display screen.
- the device includes: an operating parameter acquisition unit for acquiring a touch point composed of multiple touch points. A motion parameter corresponding to the trajectory; a parameter detection unit for detecting whether the motion parameter satisfies a target condition, and the target condition indicates that there is a misrecognized touch point among the multiple touch points;
- the control unit is configured to control the control touch display screen to change the working parameters if it is detected that the motion parameter meets the target condition, so as to avoid misrecognized touch points.
- the present application provides a touch display screen, including a touch display module and a control module; the touch reality module is used to receive touch operations; the control module is used to recognize that the touch operation is in progress And obtain the motion parameters corresponding to the trajectory composed of multiple touch points; detect whether the motion parameters meet the target condition, and the target condition indicates that there is a misrecognized touch point among the multiple touch points; if detected If the motion parameter meets the target condition, the control touch display screen is controlled to change the working parameter, so as to avoid misrecognized touch points.
- the present application provides an electronic device including a processor and a memory; one or more programs are stored in the memory and configured to be executed by the processor to implement the above method.
- the present application provides a computer-readable storage medium with program code stored in the computer-readable storage medium, wherein the above-mentioned method is executed when the program code is run by a processor.
- the present application provides a method, device, touch display and electronic device for controlling a touch display screen, and when the motion parameter corresponding to a trajectory composed of multiple touch points is obtained, the motion parameter is detected, To detect whether the motion parameter satisfies the target condition representing the misrecognized touch point, if it is detected that the motion parameter satisfies the target condition, control the control touch screen to change the working parameters to avoid the misrecognized touch point .
- the detection of the motion parameters of the motion trajectory composed of multiple touch points is realized through the above method, and in the case of detecting misrecognized touch points caused by external interference, the touch screen can be detected in time.
- the working parameters are adjusted to avoid misrecognized touch points, thereby improving the accuracy of touch recognition of the touch screen.
- FIG. 1 shows a flowchart of a method for controlling a touch display screen according to an embodiment of the present application
- FIG. 2 shows a schematic diagram of a position identification of a touch point in a method for controlling a touch screen according to an embodiment of the present application
- FIG. 3 shows a schematic diagram of a currently reported touch point and a previously reported touch point in a method for controlling a touch display screen according to an embodiment of the present application
- FIG. 4 shows a schematic diagram of another currently reported touch point and a previously reported touch point in a method for controlling a touch display screen according to an embodiment of the present application
- FIG. 5 shows a schematic diagram of still another currently reported touch point and a previously reported touch point in a method for controlling a touch display screen according to an embodiment of the present application
- FIG. 6 shows a flowchart of a method for controlling a touch screen according to another embodiment of the present application
- FIG. 7 shows a flowchart of a method for controlling a touch display screen according to another embodiment of the present application.
- FIG. 8 shows a flowchart of a method for controlling a touch screen according to another embodiment of the present application.
- FIG. 9 shows a flowchart of a method for controlling a touch screen according to another embodiment of the present application.
- FIG. 10 shows a structural block diagram of a device for controlling a touch screen according to another embodiment of the present application.
- FIG. 11 shows a structural block diagram of a touch display screen proposed by another embodiment of the present application.
- FIG. 12 shows a structural block diagram of another electronic device of the present application for executing the method for controlling a touch screen display according to an embodiment of the present application
- FIG. 13 is a storage unit for storing or carrying the program code for implementing the method for controlling the touch display screen according to the embodiment of the present application according to the embodiment of the present application.
- touch display screen the user can control the electronic device through a touch operation on the touch display screen.
- a touch operation For example, in a text browsing interface, the user can control the electronic device to refresh the currently browsed interface content by performing a sliding operation toward a specified direction.
- the user can control the characters in the game scene to move or release specific skills by touching a designated control.
- the inventor found that electronic devices other than the touch display screen or other electronic equipment may cause certain interference to the operation of the touch screen display. For example, in an environment with electromagnetic interference, even if the user does not actually touch the touch screen, the touch screen itself still recognizes the touch point, which may cause ghost points. For example, as shown in Figure 1, when the user only touches touch point A, because of external electromagnetic interference, the touch screen may also detect the presence of touch point B and touch point C (the user did not really The location of touch point B and touch point C).
- the inventor proposed a method, device, touch-sensitive display screen and electronic equipment for controlling a touch display screen that can improve the above-mentioned problems in the present application. It can detect the operating parameters of the motion trajectory composed of multiple touch points, and in the case of detecting misrecognized touch points caused by external interference, the operating parameters of the touch screen can be detected in time. Adjust to avoid misrecognized touch points, thereby improving the accuracy of touch recognition of the touch screen.
- a method for controlling a touch display screen provided by an embodiment of the present application is applied to an electronic device equipped with a touch display screen.
- the method includes:
- Step S110 Obtain motion parameters corresponding to the trajectory composed of multiple touch points.
- the touch screen can periodically report touch points during the working process, and the device that processes touch signals (for example, the processor of an electronic device) can execute the corresponding report after receiving the report of the touch point. Control operation.
- the touch display screen may use 100 Hz as the reporting rate, that is, the value of the variable characterizing the touch operation corresponding to the touch display screen is detected every 10 ms, and then the value of the variable is reported.
- the touch screen is a capacitive screen
- the touch screen can detect the corresponding capacitance (that is, the aforementioned variable) change area in the touch area of the touch screen at an interval of 10ms, and report it as Touch the point.
- the electronic device When the electronic device detects multiple continuously reported touch points, it can recognize the multiple continuously reported touch points as a sliding operation of the user, and recognize the trajectory of the sliding operation as a combination of the multiple touch points Trajectory.
- the multiple touch points that make up the sliding operation are reported in a relatively short period of time. Then when the electronic device receives a reported touch point, it can use the reported touch point as the currently reported touch point, and calculate the motion parameter based on the currently reported touch point position and the previously reported touch point position . It should be noted that the position of each touch point can be defined in the form of coordinates in the touch display screen. Exemplarily, please refer to FIG. 2.
- the interface shown in FIG. 2 exemplarily displays a touch point 99, and the coordinates of the touch point 99 in this coordinate system may be (x, y).
- the motion parameters corresponding to the trajectory composed of multiple touch points can also be calculated in an average manner.
- the electronic device can first calculate the intermediate motion parameters corresponding to the trajectory between the adjacent touch points based on the adjacent touch points of the multiple touch points, and then obtain the multiple intermediate motion parameters.
- the intermediate motion parameters are averaged to obtain the motion parameters corresponding to the trajectory composed of the multiple touch points.
- the touch points involved include a touch point 99, a touch point 98, and a touch point 97. Then, when the electronic device detects that there is a touch point 99, because the touch point 99 does not correspond to the previously reported touch point, the motion parameter calculation will not be performed, or the motion parameter will be calculated as zero. When the electronic device detects that there is a touch point 98 reported, it can use the touch point 99 as the touch point reported before the touch point 98, and then calculate the intermediate motion parameters corresponding to the path composed of the touch point 98 and the touch point 99.
- the electronic device When the electronic device receives When the reported touch point 97 is reached, the previous touch point corresponding to the touch point 97 is the touch point 98, then the electronic device will calculate the intermediate motion parameters corresponding to the trajectory composed of the touch point 97 and the touch point 98, and then the touch point 98 The intermediate motion parameters corresponding to the path formed by the touch points 99 and the intermediate motion parameters corresponding to the trajectory formed by the touch points 97 and 98 are averaged as the motion parameters for determining whether the target condition is satisfied in the subsequent step S120.
- Step S120 Detect whether the motion parameter satisfies a target condition, and the target condition indicates that there is a misrecognized touch point among the multiple touch points.
- Step S130 If it is detected that the motion parameter does not meet the target condition, the process ends.
- Step S140 If it is detected that the motion parameter satisfies the target condition, the control touch display screen is controlled to change the working parameter, so as to avoid misrecognized touch points.
- the previously reported touch point corresponding to the touch point 96 is the touch point 95 in the figure, because the touch point 95 and the touch point 96 are The two adjacently reported touch points are respectively at the upper left corner and the lower right corner of the screen, and the distance between them is relatively long. In this case, it is possible to identify the touch point 96 as a misrecognized touch point.
- the motion parameters include motion speed (sliding speed) and acceleration
- the motion speed corresponding to the trajectory formed by the touch point 96 and the touch point 95 can be calculated as:
- the corresponding acceleration is 5.7m/s 2 . Then in the case where the target condition includes the movement speed not less than 5m/s and the acceleration not less than 5m/s 2 , it is determined that the movement parameter meets the target condition.
- the touch screen misrecognizing that there is a touch point may be caused by the interference of the external electromagnetic environment, so in order to avoid the electromagnetic interference, the electronic device can regulate the work of some electromagnetic characteristics in the touch screen. Parameters to avoid misrecognition of touch points caused by external electromagnetic interference.
- the operating parameter to be controlled may be the length of time each time the capacitance change value is collected, or it may be the sampling frequency of the touch display screen.
- the touch screen recognizes whether there is a touch operation by detecting the capacitance change in the touch area of the touch screen, and each time the touch screen collects the capacitance value, it is performed within a certain length of time. If the time length is longer, the signal amount of the external interference signal occupies the lower the proportion of the total signal amount of the collected capacitance change of the time length, and the easier it is to filter out.
- the sampling frequency it should be noted that there is a certain frequency for the touch screen to collect touch points. If the frequency is higher, the user's operation can be recognized faster, and if the frequency is lower, it may be The relative recognition efficiency is lower. Then, if the frequency of occurrence of the external electromagnetic signal causing interference is consistent with the current sampling frequency of the touch screen, then there will be a high probability that the external electromagnetic signal may cause misrecognition of a touch point. In this case, by changing the sampling frequency of the touch display screen, the touch point sampling time of the touch display screen can be staggered with the time when the external electromagnetic signal occurs, so as to avoid the influence of the external electromagnetic signal.
- the present application provides a method for controlling a touch display screen.
- the motion parameter corresponding to the trajectory composed of multiple touch points is obtained, the motion parameter is detected to detect whether the motion parameter satisfies the characteristic
- the target condition of the misrecognized touch point if it is detected that the motion parameter satisfies the target condition, the control touch display screen is controlled to change the working parameter to avoid the misrecognized touch point.
- the detection of the motion parameters of the motion trajectory composed of multiple touch points is realized through the above method, and in the case of detecting misrecognized touch points caused by external interference, the touch screen can be detected in time.
- the working parameters are adjusted to avoid misrecognized touch points, thereby improving the accuracy of touch recognition of the touch screen.
- a method for controlling a touch display screen provided by an embodiment of the present application is applied to an electronic device equipped with a touch display screen.
- the method includes:
- Step S210 When a touch point is detected to be reported, the length of the track from the previous touch point to the current touch point is calculated based on the position of the previous touch point and the position of the current touch point.
- Step S220 It takes time to acquire the previous touch point to the current touch point.
- Step S230 calculating the motion parameters based on the length and the time-consuming calculation.
- the motion parameter may have multiple definitions, and correspondingly, there may be multiple ways to obtain the motion parameter.
- the movement speed calculated based on the length and the time-consuming calculation is used as the movement parameter.
- the motion speed and acceleration are calculated based on the length and the time-consuming calculation, and the motion speed and the acceleration are calculated based on the length and the time-consuming calculation as the motion parameters.
- Step S240 Detect whether the motion parameter satisfies a target condition, and the target condition indicates that there is a misrecognized touch point among the multiple touch points.
- the target condition includes: the motion speed corresponding to the trajectory composed of multiple touch points is less than a specified speed; and the acceleration corresponding to the trajectory composed of multiple touch points is less than the specified acceleration.
- the electronic device can detect multiple touch points.
- the motion speed and/or acceleration corresponding to the composed trajectory is used to determine whether there is an unreasonable touch point currently.
- the inventor also found in research that the sliding speeds on the touch screen corresponding to different users are different to a certain extent. For example, for some younger users, there may be a faster sliding speed during the process of touching the display screen, and for some older users or users who are not currently finger-friendly, then there may be a slower sliding speed. Sliding speed.
- the electronic device can count the sliding operation habits of the bound user, and then count the sliding speed (motion speed) and acceleration of the sliding operation corresponding to the bound user, as The electronic device is currently bound to the user-adapted sliding speed (motion speed) and acceleration, so that when the electronic device detects the motion parameters corresponding to multiple touch points, the calculated motion parameters are matched with the target conditions of the current user Make comparisons.
- the designated speed and the designated acceleration are calculated based on historical touch operations of a user bound to the electronic device in a designated historical time period.
- Step S250 If it is detected that the motion parameter does not meet the target condition, the process ends.
- Step S260 If it is detected that the motion parameter satisfies the target condition, the control touch screen is controlled to change the working parameter, so as to avoid misrecognized touch points.
- the calculation of the motion parameters is started when a touch point is detected to be reported for subsequent comparison.
- the currently reported touch point may be a misrecognized touch point, it may also falsely trigger a function that can be realized by the electronic device to perform a corresponding touch operation.
- the present application provides a method for controlling a touch display screen.
- the motion parameter corresponding to the trajectory composed of multiple touch points is obtained, the motion parameter is detected to detect whether the motion parameter satisfies the characteristic
- the target condition of the misrecognized touch point if it is detected that the motion parameter satisfies the target condition, the control touch display screen is controlled to change the working parameter to avoid the misrecognized touch point.
- the detection of the motion parameters of the motion trajectory composed of multiple touch points is realized through the above method, and in the case of detecting misrecognized touch points caused by external interference, the touch screen can be detected in time.
- the working parameters are adjusted to avoid misrecognized touch points, thereby improving the accuracy of touch recognition of the touch screen.
- the motion speed and acceleration corresponding to the trajectory can be obtained as motion parameters, and then based on the motion speed and acceleration, the operating parameters of the touch display screen can be changed to avoid misrecognition of touch points caused by the external electromagnetic environment. .
- a method for controlling a touch display screen provided by an embodiment of the present application is applied to an electronic device equipped with a touch display screen.
- the method includes:
- Step S310 When a touch point is detected to be reported, the length of the track from the previous touch point to the current touch point is calculated based on the position of the previous touch point and the position of the current touch point.
- Step S320 It takes time to acquire the previous touch point to the current touch point.
- Step S330 calculating the motion parameter based on the length and the time-consuming calculation.
- Step S340 Detect whether the motion parameter satisfies a target condition, and the target condition indicates that there is a misrecognized touch point among the multiple touch points.
- Step S350 If it is detected that the motion parameter meets the target condition, the process ends.
- Step S360 If it is detected that the motion parameter satisfies the target condition, control the touch display to extend the length of time that the capacitance change value is collected each time, the capacitance change is generated when the touch display responds to a touch operation, and Used to avoid misrecognized touch points.
- the electronic device may have multiple ways to control the length of time for each acquisition of the capacitance change value.
- the step of controlling the touch display screen to extend the length of time that the capacitance change value is collected each time includes: acquiring the current touch scene, and extending the touch display screen based on the touch scene Change the time length of each acquisition of capacitance change value.
- the touch frequency of the touch screen is different in different scenarios.
- the user usually touches the display screen to turn the page or load the page content, and in this process, the user will not perform the next touch operation until the current page is browsed. Then in this scenario, the user's touch operation is not too frequent.
- the user in a game scene, the user usually needs to operate controls to control the game character, and in this case, the user may need to operate the touch display at a faster frequency. Therefore, as an adaptive way, the electronic device can determine how much the time length of the capacitance change value is specifically extended based on the scene.
- the step of acquiring the current touch scene, and extending the length of time that the touch display screen changes the capacitance change value each time based on the touch scene includes: if the current touch scene is a high-frequency touch Control the scene, control the time length for the touch display screen to collect the capacitance change value each time to be extended to the first length; if the current touch scene is a low-frequency touch scene, control the touch display screen to collect the capacitance change each time The time length of the value is extended to a second length; wherein, the first length is less than the second length, the high-frequency touch scene is a scene in which the number of touches is greater than the target number within a specified time period, and the low frequency A touch scene is a scene where the number of touches within a specified period of time is not greater than the target number of times.
- the present application provides a method for controlling a touch display screen.
- the motion parameter corresponding to the trajectory composed of multiple touch points is obtained, the motion parameter is detected to detect whether the motion parameter satisfies the characteristic
- the target condition of the misrecognized touch point if it is detected that the motion parameter satisfies the target condition, the control touch display screen is controlled to change the working parameter to avoid the misrecognized touch point.
- the detection of the motion parameters of the motion trajectory composed of multiple touch points is realized through the above method, and in the case of detecting misrecognized touch points caused by external interference, the touch screen can be detected in time.
- the working parameters are adjusted to avoid misrecognized touch points, thereby improving the accuracy of touch recognition of the touch screen.
- the touch screen in the stage of controlling the touch screen to change the working parameters, can be controlled to extend the length of time that the capacitance change value is collected each time, or it can be determined based on the current touch scene.
- the time length of the capacitance change value collected by the touch display screen each time is controlled, thereby improving the flexibility of the adjustment of the working parameters.
- a method for controlling a touch display screen provided by an embodiment of the present application is applied to an electronic device equipped with a touch display screen.
- the method includes:
- Step S410 When a touch point is detected to be reported, the length of the track from the previous touch point to the current touch point is calculated based on the position of the previous touch point and the position of the current touch point;
- Step S420 It takes time to acquire the previous touch point to the current touch point.
- Step S430 calculating the motion parameter based on the length and the time-consuming calculation.
- Step S440 Detect whether the motion parameter satisfies a target condition, and the target condition indicates that there is a misrecognized touch point among the multiple touch points.
- Step S450 If it is detected that the motion parameter meets the target condition, the process ends.
- Step S460 If it is detected that the motion parameter satisfies the target condition, control the touch display screen to change the sampling frequency to avoid misrecognized touch points.
- the touch frequency of the touch screen is different in different scenarios.
- the user usually touches the display screen to turn the page or load the page content, and in this process, the user will not perform the next touch operation until the current page is browsed. Then in this scenario, the user's touch operation is not too frequent.
- the user in a game scene, the user usually needs to operate controls to control the game character, and in this case, the user may need to operate the touch display at a faster frequency. Therefore, as an adaptive way, the electronic device can determine how much the time length of the capacitance change value is specifically extended based on the scene.
- the step of controlling the touch screen display to change the sampling frequency includes: acquiring the current touch scene, and controlling the touch screen to change the sampling frequency based on the touch scene.
- the step of acquiring the current touch scene, and controlling the touch display screen to change the sampling frequency based on the touch scene includes: if the current touch scene is a high-frequency touch scene, controlling the touch The sampling frequency of the control display screen is the first sampling frequency; if the current touch scene is a low-frequency touch scene, the sampling frequency of the touch display screen is controlled to the second sampling frequency; wherein, the first sampling frequency is greater than In the second sampling frequency, the high-frequency touch scene is a scene where the number of touches within a specified time period is greater than a target number, and the low-frequency touch scene is a scene where the number of touches within a specified time period is not greater than the target The number of scenes.
- control the touch display screen to increase the sampling frequency at the same time, and control the touch display screen to increase the length of time each time the capacitance change value is collected.
- the present application provides a method for controlling a touch display screen.
- the motion parameter corresponding to the trajectory composed of multiple touch points is obtained, the motion parameter is detected to detect whether the motion parameter satisfies the characteristic
- the target condition of the misrecognized touch point if it is detected that the motion parameter satisfies the target condition, the control touch display screen is controlled to change the working parameter to avoid the misrecognized touch point.
- the detection of the motion parameters of the motion trajectory composed of multiple touch points is realized through the above method, and in the case of detecting misrecognized touch points caused by external interference, the touch screen can be detected in time.
- the working parameters are adjusted to avoid misrecognized touch points, thereby improving the accuracy of touch recognition of the touch screen.
- the touch screen in the stage of controlling the touch screen to change the working parameters, can be controlled to adjust the sampling frequency so as to stagger the frequency of occurrence of external electromagnetic interference, so as to avoid external electromagnetic interference. Misrecognition of the touch point.
- the sampling frequency of the touch display screen can also be determined and controlled based on the current touch scene, thereby improving the flexibility of working parameter adjustment.
- a method for controlling a touch display screen provided by an embodiment of the present application is applied to an electronic device equipped with a touch display screen.
- the method includes:
- Step S510 When a touch point is detected to be reported, the length of the track from the previous touch point to the current touch point is calculated based on the position of the previous touch point and the position of the current touch point.
- Step S520 It takes time to acquire the previous touch point to the current touch point.
- Step S530 calculating the motion parameters based on the length and the time-consuming calculation.
- Step S540 Detect whether the motion parameter satisfies a target condition, and the target condition indicates that there is a misrecognized touch point among the multiple touch points.
- Step S550 If it is detected that the motion parameter satisfies the target condition, the process ends.
- Step S560 If it is detected that the motion parameter satisfies the target condition, acquire the current working mode of the touch display screen.
- the electronic device may be pre-configured with multiple working modes corresponding to multiple touch-sensitive display screens.
- the working parameters corresponding to different working modes are different from time to time.
- the electronic device may be configured with working mode A, working mode B, and working mode C, where working mode A corresponds to the length of time a1 to collect the capacitance change value and the touch screen to increase the sampling frequency a2, and working mode B corresponds to There are the length of time b1 for collecting the capacitance change value and the increased sampling frequency b2 of the touch screen.
- the working mode C corresponds to the length of time c1 for collecting the capacitance variation value and the increased sampling frequency c2 of the touch screen.
- the electronic device can control the touch screen in working mode A and working mode. Switch between B and working mode C.
- Step S570 Switch the working mode of the touch display screen to a different mode of the current working mode, so as to control the touch display screen to change the sampling frequency, and control the touch display screen to change the sampling frequency each time. The length of time the capacitance changes value.
- configuration file A is used to store the corresponding to working mode A.
- the configuration file B is used to store the time length of the collected capacitance change value corresponding to the working mode B and the increased sampling frequency of the touch screen.
- the configuration file C is used to store Working mode C corresponds to the length of time to collect the capacitance change value and the touch screen to increase the sampling frequency.
- the present application provides a method for controlling a touch display screen.
- the motion parameter corresponding to the trajectory composed of multiple touch points is obtained, the motion parameter is detected to detect whether the motion parameter satisfies the characteristic
- the target condition of the misrecognized touch point if it is detected that the motion parameter satisfies the target condition, the control touch display screen is controlled to change the working parameter to avoid the misrecognized touch point.
- the detection of the motion parameters of the motion trajectory composed of multiple touch points is realized through the above method, and in the case of detecting misrecognized touch points caused by external interference, the touch screen can be detected in time.
- the working parameters are adjusted to avoid misrecognized touch points, thereby improving the accuracy of touch recognition of the touch screen.
- the electronic device may switch the working mode when the touch display screen is configured with multiple working models, so as to avoid misrecognition of touch points caused by external electromagnetic interference.
- an apparatus 600 for controlling a touch display screen provided by an embodiment of the present application runs on an electronic device equipped with a touch display screen.
- the device 600 includes:
- the operating parameter acquisition unit 610 is configured to acquire motion parameters corresponding to a trajectory composed of multiple touch points.
- the operating parameter acquisition unit 610 is specifically configured to acquire the motion parameters of the trajectory from the previous touch point to the current touch point when a touch point is detected to be reported.
- the step of obtaining the motion parameter of the track from the previous touch point to the current touch point includes: when a touch point is detected to be reported, based on The position of the previous touch point and the position of the current touch point are calculated to obtain the length of the trajectory from the previous touch point to the current touch point; time-consuming between acquiring the previous touch point and the current touch point ; Take the movement speed calculated based on the length and the time as a movement parameter.
- the operating parameter acquiring unit 610 is further specifically configured to calculate acceleration based on the length and the time; use the movement speed and the acceleration calculated based on the length and the time as the movement parameter.
- the target condition includes: the motion speed corresponding to the trajectory composed of multiple touch points is less than a specified speed; and the acceleration corresponding to the trajectory composed of multiple touch points is less than the specified acceleration.
- the specified speed and the specified acceleration are calculated based on historical touch operations of a user bound to the electronic device in a specified historical time period.
- the parameter detection unit 620 is configured to detect whether the motion parameter satisfies a target condition, and the target condition indicates that there is a misrecognized touch point among the multiple touch points.
- the control unit 630 is configured to control the touch control display screen to change the working parameters if it is detected that the motion parameter meets the target condition, so as to avoid misrecognized touch points.
- control unit 630 is specifically configured to control the touch display screen to extend the length of time each time the capacitance change value is collected, and the capacitance change is generated when the touch display screen responds to a touch operation.
- control unit 630 is specifically configured to obtain the current touch scene, and extend the length of time that the touch display screen changes the capacitance change value collected each time based on the touch scene.
- the step of acquiring the current touch scene and extending the length of time that the touch display screen changes the capacitance change value each time based on the touch scene includes: if the current touch scene is For high-frequency touch scenes, the time length for controlling the touch screen to collect capacitance change values each time is extended to the first length; if the current touch scene is a low-frequency touch scene, the touch screen is controlled every time The length of time for collecting the capacitance change value is extended to a second length; wherein, the first length is less than the second length, and the high-frequency touch scene is a scene in which the number of touches is greater than the target number within a specified period of time, so The low-frequency touch scene is a scene in which the number of touches within a specified period of time is not greater than the target number of times.
- control unit 630 is specifically configured to control the touch display screen to change the sampling frequency.
- control unit 630 is specifically configured to acquire the current touch scene, and control the touch display screen to change the sampling frequency based on the touch scene.
- control unit 630 is specifically configured to control the sampling frequency of the touch display screen to the first sampling frequency if the current touch scene is a high-frequency touch scene; if the current touch scene is a low-frequency touch scene Touch scene, controlling the sampling frequency of the touch display screen to the second sampling frequency; wherein, the first sampling frequency is greater than the second sampling frequency, and the high-frequency touch scene is a touch within a specified period of time A scene where the number of control times is greater than the target number of times, the low-frequency touch scene is a scene where the number of touch controls is not greater than the target number of times within a specified time period.
- control unit 630 is specifically configured to control the touch display screen to change the sampling frequency, and control the touch display screen to change the length of time that the capacitance change value is collected each time.
- control unit 630 is specifically configured to control the touch display screen to increase the sampling frequency, and control the touch display screen to increase the length of time that the capacitance change value is collected each time.
- the touch display screen is configured with multiple working modes, and the sampling frequency corresponding to each working mode and the length of time for collecting the capacitance change value each time are different.
- control unit 630 is specifically configured to obtain the current working mode of the touch screen; switch the working mode of the touch screen to a different mode of the current working mode for controlling
- the touch display screen changes the sampling frequency, and controls the touch display screen to change the length of time that the capacitance change value is collected each time.
- a touch display screen 700 provided by an embodiment of the present application includes a touch display module 710 and a control module 720.
- the touch reality module 710 is configured to receive touch operations
- the control module 720 is configured to identify touch points in the touch operation; and obtain motion parameters corresponding to a trajectory composed of multiple touch points; and detect whether the motion parameters meet a target condition, and the target condition represents the There is a misrecognized touch point among the multiple touch points; if it is detected that the motion parameter meets the target condition, the control touch display screen is controlled to change the working parameter to avoid the misrecognized touch point.
- control module 720 has an interface for communicating with an external device to output the recognition result to the external device.
- control module 720 in this example can also implement the specific content corresponding to each step in the foregoing embodiment, which will not be repeated here.
- the touch display screen provided by the present application detects the motion parameter when the motion parameter corresponding to the trajectory composed of multiple touch points is obtained, so as to detect whether the motion parameter satisfies the requirement of misrecognition.
- the target condition of the touch point if it is detected that the motion parameter satisfies the target condition, the control touch display screen is controlled to change the working parameter, so as to avoid misrecognized touch points.
- the detection of the motion parameters of the motion trajectory composed of multiple touch points is realized through the above method, and in the case of detecting misrecognized touch points caused by external interference, the touch screen can be detected in time.
- the working parameters are adjusted to avoid misrecognized touch points, thereby improving the accuracy of touch recognition of the touch screen.
- another electronic device 200 including a processor 104 that can execute the aforementioned method of controlling a touch screen is also provided in an embodiment of the present application.
- the electronic device 200 further includes a memory 104, a network module 106, and a touch screen 108.
- the memory 104 stores a program that can execute the content in the foregoing embodiment, and the processor 102 can execute the program stored in the memory 104.
- the internal structure of the processor 102 may be as shown in FIG. 1.
- the processor 102 may include one or more cores for processing data.
- the processor 102 uses various interfaces and lines to connect various parts of the entire electronic device 200, and executes by running or executing instructions, programs, code sets, or instruction sets stored in the memory 104, and calling data stored in the memory 104.
- the processor 102 may use at least one of digital signal processing (Digital Signal Processing, DSP), Field-Programmable Gate Array (Field-Programmable Gate Array, FPGA), and Programmable Logic Array (Programmable Logic Array, PLA).
- DSP Digital Signal Processing
- FPGA Field-Programmable Gate Array
- PLA Programmable Logic Array
- the processor 102 may be integrated with one or a combination of a central processing unit (CPU), a graphics processing unit (GPU), a modem, and the like.
- the CPU mainly processes the operating system, user interface, and application programs;
- the GPU is used for rendering and drawing of display content;
- the modem is used for processing wireless communication. It can be understood that the above-mentioned modem may not be integrated into the processor 102, but may be implemented by a communication chip alone.
- the memory 104 may include random access memory (RAM) or read-only memory (Read-Only Memory).
- the memory 104 may be used to store instructions, programs, codes, code sets or instruction sets.
- the memory 104 may include a storage program area and a storage data area, where the storage program area may store instructions for implementing the operating system and instructions for implementing at least one function (such as touch function, sound playback function, image playback function, etc.) , Instructions used to implement the following various method embodiments, etc.
- the data storage area can also store data (such as phone book, audio and video data, chat record data) created by the terminal 100 during use.
- the network module 106 is used to receive and send electromagnetic waves, and realize the mutual conversion between electromagnetic waves and electrical signals, so as to communicate with a communication network or other equipment, such as communicating with an audio playback device.
- the network module 106 may include various existing circuit elements for performing these functions, for example, an antenna, a radio frequency transceiver, a digital signal processor, an encryption/decryption chip, a subscriber identity module (SIM) card, a memory, etc. .
- SIM subscriber identity module
- the network module 106 can communicate with various networks, such as the Internet, an intranet, and a wireless network, or communicate with other devices through a wireless network.
- the aforementioned wireless network may include a cellular telephone network, a wireless local area network, or a metropolitan area network.
- the network module 106 can exchange information with the base station.
- the touch screen 108 is used to receive touch operations, and then realize the control of the electronic device 200 through the touch operations.
- the electronic device 300 may also include originals not shown in the figure, such as the memory 104, the network module 106, and the touch screen 108.
- FIG. 12 shows a structural block diagram of a computer-readable storage medium provided by an embodiment of the present application.
- the computer-readable medium 1100 stores program code, and the program code can be invoked by a processor to execute the method described in the foregoing method embodiment.
- the computer-readable storage medium 1100 may be an electronic memory such as flash memory, EEPROM (Electrically Erasable Programmable Read Only Memory), EPROM, hard disk, or ROM.
- the computer-readable storage medium 1100 includes a non-transitory computer-readable storage medium.
- the computer-readable storage medium 1100 has a storage space for executing the program code 810 of any method step in the above-mentioned method. These program codes can be read from or written into one or more computer program products.
- the program code 1110 may be compressed in an appropriate form, for example.
- the present application provides a method, device, touch display and electronic equipment for controlling a touch screen.
- the The motion parameter is detected to detect whether the motion parameter meets the target condition indicating that there is a misrecognized touch point. If the motion parameter is detected to meet the target condition, the control touch screen is controlled to change the working parameter to avoid Misrecognized touch point.
- the detection of the motion parameters of the motion trajectory composed of multiple touch points is realized through the above method, and in the case of detecting misrecognized touch points caused by external interference, the touch screen can be detected in time.
- the working parameters are adjusted to avoid misrecognized touch points, thereby improving the accuracy of touch recognition of the touch screen.
Abstract
Description
Claims (20)
- 一种控制触控显示屏的方法,其特征在于,应用于配置有触控显示屏的电子设备,所述方法包括:获取多个触摸点所组成的轨迹对应的运动参数;检测所述运动参数是否满足目标条件,所述目标条件表征所述多个触摸点中存在误识别的触摸点;若检测所述运动参数满足目标条件,控制所述控制触控显示屏改变工作参数,以用于规避误识别的触摸点。
- 根据权利要求1所述的方法,其特征在于,所述获取多个触摸点所组成的轨迹对应的运动参数的步骤包括:当检测有触摸点上报时,获取前一个触摸点到所述当前触摸点之间轨迹的运动参数。
- 根据权利要求2所述的方法,其特征在于,所述当检测有触摸点上报时,获取前一个触摸点到所述当前触摸点之间轨迹的运动参数的步骤包括:当检测有触摸点上报时,基于前一个触摸点的位置以及当前触摸点的位置计算得到从所述前一个触摸点到所述当前触摸点之间轨迹的长度;获取所述前一个触摸点到所述当前触摸点之间耗时;将基于所述长度与所述耗时计算得到运动速度作为运动参数。
- 根据权利要求3所述的方法,其特征在于,所述方法,还包括基于所述长度与所述耗时计算得到加速度;所述将基于所述长度与所述耗时计算得到运动速度作为运动参数的步骤包括:将基于所述长度与所述耗时计算得到运动速度以及所述加速度作为运动参数。
- 根据权利要求4所述的方法,其特征在于,所述目标条件包括:多个触摸点所组成的轨迹对应的运动速度小于指定速度;且多个触摸点所组成的轨迹对应的加速度小于指定加速度。
- 根据权利要求5所述的方法,其特征在于,所述指定速度以及所述指定加速度为基于所述电子设备所绑定用户在指定历史时间段内的历史触控操作计算得到。
- 根据权利要求1-6任一所述的方法,其特征在于,所述控制所述控制触控显示屏改变工作参数的步骤包括:控制所述触控显示屏延长每次采集电容变化值的时间长度,所述电容变化为所述触控显示屏响应触控操作时产生。
- 根据权利要求7所述的方法,其特征在于,所述控制所述触控显示屏延长每次采集电容变化值的时间长度的步骤包括:获取当前的触控场景,基于所述触控场景延长所述触控显示屏改变每次采集电容变化值的时间长度。
- 根据权利要求8所述的方法,其特征在于,所述获取当前的触控场景,基于所述触控场景延长所述触控显示屏改变每次采集电容变化值的时间长度的步骤包括:若当前的触控场景为高频率触控场景,控制所述触控显示屏每次采集电容变化值的时间长度延长为第一长度;若当前的触控场景为低频率触控场景,控制所述触控显示屏每次采集电容变化值的时间长度延长为第二长度;其中,所述第一长度小于所述第二长度,所述高频率触控场景为指定时间长度段内触控次数大于目标次数的场景,所述低频率触控场景为指定时间长度段内触控次数不大于所述目标次数的场景。
- 根据权利要求1-6任一所述的方法,其特征在于,所述控制所述控制触控显示屏 改变工作参数的步骤包括:控制所述触控显示屏改变采样频率。
- 根据权利要求10所述的方法,其特征在于,所述控制所述触控显示屏改变采样频率的步骤包括:获取当前的触控场景,基于所述触控场景控制所述触控显示屏改变采样频率。
- 根据权利要求11所述的方法,其特征在于,所述获取当前的触控场景,基于所述触控场景控制所述触控显示屏改变采样频率的步骤包括:若当前的触控场景为高频率触控场景,控制所述触控显示屏的采样频率为第一采样频率;若当前的触控场景为低频率触控场景,控制所述触控显示屏的采样频率为第二采样频率;其中,所述第一采样频率大于所述第二采样频率,所述高频率触控场景为指定时间长度段内触控次数大于目标次数的场景,所述低频率触控场景为指定时间长度段内触控次数不大于所述目标次数的场景。
- 根据权利要求1-6任一所述的方法,其特征在于,所述控制所述控制触控显示屏改变工作参数的步骤包括:控制所述触控显示屏改变采样频率,且控制所述触控显示屏改变每次采集电容变化值的时间长度。
- 根据权利要求13所述的方法,其特征在于,所述触控显示屏配置有多个工作模式,且每个工作模式所对应的采样频率以及每次采集电容变化值的时间长度不同,所述控制所述触控显示屏改变采样频率,且控制所述触控显示屏改变每次采集电容变化值的时间长度的步骤包括:获取所述触控显示屏的当前工作模式;切换所述触控显示屏的工作模式为所述当前工作模式的不同的模式,以用于控制所述触控显示屏改变采样频率,且控制所述触控显示屏改变每次采集电容变化值的时间长度。
- 根据权利要求13所述的方法,其特征在于,所述控制所述触控显示屏改变采样频率,且控制所述触控显示屏改变每次采集电容变化值的时间长度的步骤包括:控制所述触控显示屏增高采样频率,且控制所述触控显示屏增长每次采集电容变化值的时间长度。
- 一种控制触控显示屏的装置,其特征在于,运行于配置有触控显示屏的电子设备,所述装置包括:运行参数获取单元,用于获取多个触摸点所组成的轨迹对应的运动参数;参数检测单元,用于检测所述运动参数是否满足目标条件,所述目标条件表征所述多个触摸点中存在误识别的触摸点;控制单元,用于若检测所述运动参数满足目标条件,控制所述控制触控显示屏改变工作参数,以用于规避误识别的触摸点。
- 一种触控显示屏,其特征在于,包括触控显示模块以及控制模块;所述触控现实模块,用于接收触摸操作;所述控制模块,用于识别所述触摸操作中的触摸点;以及获取多个触摸点所组成的轨迹对应的运动参数;检测所述运动参数是否满足目标条件,所述目标条件表征所述多个触摸点中存在误识别的触摸点;若检测所述运动参数满足目标条件,控制所述控制触控显示屏改变工作参数,以用于规避误识别的触摸点。
- 根据权利要求17所述的触控显示屏,其特征在于,所述控制模块,具体用于,当检测有触摸点上报时,获取前一个触摸点到所述当前触摸点之间轨迹的运动参数。
- 一种电子设备,其特征在于,包括触控显示屏、处理器以及存储器;一个或多个 程序被存储在所述存储器中并被配置为由所述处理器执行以实现上述的方法。
- 一种计算机可读存储介质,其特征在于,所述计算机可读存储介质中存储有程序代码,其中,在所述程序代码被处理器运行时执行权利要求1-7任一所述的方法。
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