CN105760092B - A kind of application control method, apparatus and electronic equipment for touch panel device - Google Patents

Abstract

The application provides a kind of application control method, apparatus and electronic equipment for touch panel device.The described method includes: the motor behavior of the object on detection touch screen；The motor behavior detected is to send first control signal to specified application when sliding into the first trigger area according to the first glide direction by touch screen initial position on the touch screen.Using embodiment each in the application, the control that family is convenient, fast, flexible realization in touch panel device to applying can be used.

Description

Application control method and device for touch screen equipment and electronic equipment

Technical Field

The application belongs to the technical field of information interaction of touch screen equipment, and particularly relates to an application control method and device for touch screen equipment and electronic equipment.

Background

In portable devices such as mobile phones, personal digital assistants, and enterprise self-service terminals, there is an increasing presence of an operating interface on a touch screen (also referred to as a touch screen, touch-sensitive display, or touch screen) for a user to interact with the device.

When a user uses applications in various terminal electronic product devices of the touch screen, such as video playing, music playing, mail sending, IM information sending and the like, various controls on the applications in the electronic product can be realized by operating an application program operation interface in the touch screen device. In the conventional method in the prior art, a virtual touch button with a control function is arranged on an operation interface of an application in a touch screen device, a user clicks the button on the touch screen, and the application in an electronic product responds to the clicking action. For example, in an application program operation interface of a terminal video player, a triangle which is inclined to the right can be set as a video playing button, and when a video is in a pause or stop state, the triangle button is clicked to continue playing the video. Meanwhile, a double-vertical-bar button can be set as a video pause playing button, and when the video is in a playing state, the video pause playing can be realized by clicking the double-vertical-bar button.

However, in the above method for setting the virtual touch button on the operation interface of the application, in order to reduce occupation of a limited display area on the touch screen as much as possible and not to affect the beauty of the interface, the virtual touch button is generally set to be smaller. Even if the mode of temporarily hiding and displaying the operation interface after clicking is adopted, a user still needs to specially touch a specially-arranged virtual touch button when controlling the application. In the prior art, a touch button in a touch screen not only occupies resources in a display area of the touch screen, but also is relatively fixed in position due to the fact that the touch button is small, so that a user is inconvenient to operate and poor in experience feeling, and particularly small and medium-sized touch screen electronic equipment such as a mobile phone terminal and an intelligent watch is prone to causing inaccurate clicking position of the user and causing misoperation.

Disclosure of Invention

The application control method and device for the touch screen equipment and the electronic equipment can realize control over the application in the touch screen equipment without specially clicking a touch button at a fixed position, simplify an interface, enable a user to conveniently, quickly and accurately control the application, and improve user operation experience.

The application control method and device for the touch screen equipment and the electronic equipment are realized as follows:

an application control method for a touch screen device, the method comprising:

detecting a motion behavior of an object on the touch screen;

the detected motion behavior is that when the touch screen slides to a first trigger area from a touch screen starting position according to a first sliding direction, a first control signal is sent to a designated application.

In a preferred embodiment, the method further comprises:

and sending a second control signal to the designated application when the detected motion behavior slides to a second trigger area from the initial position of the touch screen to a second sliding direction on the touch screen.

In a preferred embodiment, the sending the first control signal or the second control signal to the designated application based on the current state information of the designated application includes:

when the acquired current state information of the specified application is playing, sending a suspended control signal to the specified application;

or,

when the acquired current state information of the specified application is one of pause and stop, sending a playing control signal to the specified application;

or,

and when the acquired current state information of the specified application meets the information sending condition set in the specified application, issuing an information sending instruction to the specified application.

An application control apparatus for a touch screen device, the apparatus comprising:

the detection module is used for detecting the motion behavior of an object on the touch screen;

a first trigger region module for setting a trigger region for a designated application to respond to a motion behavior of the object;

the first control module is used for sending a first control signal to a designated application when the detected motion behavior is that the motion behavior slides to a first trigger area from the initial position of the touch screen according to a first sliding direction.

In a preferred embodiment, the apparatus further comprises:

a second trigger area module for setting a trigger area for a designated application to respond to the athletic performance of the object;

and the second control module is used for sending a second control signal to the designated application when the detected motion behavior is that the motion behavior slides to a second trigger area from the initial position of the touch screen to a second sliding direction on the touch screen.

In a preferred embodiment, the sending the first control signal or the second control signal to the specified application includes:

when the acquired current state information of the specified application is playing, sending a suspended control signal to the specified application;

or,

when the acquired current state information of the specified application is one of pause and stop, sending a playing control signal to the specified application;

or,

and when the acquired current state information of the specified application meets the information sending condition set in the specified application, issuing an information sending instruction to the specified application.

An electronic device, comprising:

a touch screen configured to display a state of a current application; and

comprising one or more processing units configured to detect a motion behavior of an object on the touch screen, an

And sending a playing or pausing control signal to the current application or sending an information sending instruction to the current application when the detected motion behavior slides to a preset trigger area from the initial position of the touch screen according to a preset sliding direction on the touch screen.

The application control method and device for the touch screen device and the electronic device send control signals to the application by combining sliding of fingers and the like on the touch screen with current state information of the application, and control over the application is achieved. In each embodiment of the application, a special touch button does not need to be arranged on the touch screen, and the user interface can be simplified. The sliding on the touch screen is used for realizing the control of the application, a touch button does not need to be clicked, and the operation of a user can be more convenient and accurate particularly in video playing and music playing applications. In addition, the sliding control areas can be arranged in the multiple areas of the touch screen, the effect that the user can control the application more flexibly and conveniently is achieved, and the user experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without any creative effort.

FIG. 1 is a schematic method flow diagram illustrating an embodiment of an application control method for a touch screen device according to the present application;

FIG. 2 is a schematic method flow diagram of another embodiment of an application control method for a touch screen device according to the present application;

FIG. 3 is a schematic diagram of an application scenario of an application control method for a touch screen device according to the present application;

FIG. 4 is a schematic diagram of another application scenario of an application control method for a touch screen device according to the present application;

FIG. 5 is a schematic diagram of another application scenario of an application control method for a touch screen device according to the present application;

FIG. 6 is a block diagram of an embodiment of an application control apparatus for a touch screen device according to the present application;

FIG. 7 is a block diagram of another embodiment of an application control apparatus for a touch screen device according to the present application;

FIG. 8 is a block diagram of another embodiment of an application control apparatus for a touch screen device according to the present application;

fig. 9 is a schematic block diagram of another embodiment of an application control apparatus for a touch screen device according to the present application.

Detailed Description

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

Touch screens described herein may include an interactive display device for providing an input interface and/or an output interface between the device and a user, and may display and play information content including, but not limited to, text, video, sound, graphics, and any combination thereof, to the user. The touch screen may generally include a display and a touch screen controller (integrated memory module and instruction module and associated control module) for acquiring and responding to a user's touch operational behavior. The display may use, for example, LCD (liquid crystal display) technology or LPD (light emitting polymer display) technology, although other display technologies may be used based on the description of the embodiments herein. The touch controller and display may be used to detect motion activity such as contact, movement, breaking, etc. using any of a number of touch sensitive technologies, which may include, but are not limited to, capacitive, resistive, infrared, electromagnetic induction, thermal induction, surface acoustic wave technology, and similar interaction technologies for determining one or more points of contact with the touch screen.

The application control method for the device with the touch screen can be applied to the terminal device with the touch screen, and meanwhile other terminal devices which finish application control based on interaction of the touch screen are not excluded. The terminal described in this application may include: personal Computers (PCs), server computers, mobile communication terminals, handheld devices, Personal Digital Assistants (PDAs), tablet computers, wearable devices, enterprise or public self-service terminals, and the like.

Fig. 1 is a schematic method flow diagram of an embodiment of an application control method for a touch screen device, as shown in fig. 1, the method may include:

s1: motion behavior of an object on the touch screen is detected.

The object described in this embodiment may be a finger. In most application scenarios, a user typically uses a finger to click, slide, etc. on a touch screen. Of course, in other embodiments, it is conceivable to operate on the touch screen using a corresponding touch-assisted device, such as a conventional capacitive pen, an electromagnetic inductive pen, an infrared-based short-range remote control device, and the like. The object described in the present application may thus comprise at least one of a finger, a resistive sensing device, a capacitive sensing device, an infrared sensing device, an electromagnetic sensing device, a light sensing device, a heat sensing device.

In this embodiment, the motion behavior of the object on the touch screen generally includes a trajectory of a motion generated by the object directly contacting the touch screen, such as motion behaviors of pressing, sliding, and the like performed by a finger on the touch screen. In an embodiment of the application, the motion behavior may be a motion around the touch screen, and may not have a direct contact with the touch screen. For example, techniques based on light sensing combined with touch screen technology, such as techniques that may respond to finger movements at a distance above the touch screen, or gesture determination based on image capture, etc. Therefore, in this embodiment of the present application, the motion behavior on the touch screen may also be a motion of an object near the touch screen, and specifically, the motion behavior may include: a motion of an object within a distance around the touch screen.

The touch screen may detect a motion behavior of the object on the touch screen. Different detection methods can be corresponding to different displays, touch screen controllers or different design and operation systems in the touch screen device. Generally, a gesture monitoring unit and a gesture recognition unit can be arranged in the touch screen, and gesture-based motion behaviors of a user can be detected and recognized. After the motion behavior of the object is captured by the touch screen, the motion behavior can be identified or judged, and then the motion behavior is processed by the processing control unit to make a response behavior corresponding to the motion behavior. Specifically, for example, a gesturderedetector in the Android software development kit SDK may be selected to detect and recognize gesture movement behaviors on the touch screen. Of course, in other development operating systems and platforms, such as Windows and iOS, corresponding development applications may be selected to implement the same or similar functions.

S2: the detected motion behavior is that when the touch screen slides to a first trigger area from a touch screen starting position according to a first sliding direction, a first control signal is sent to a designated application.

In this embodiment, a trigger area of the designated application, which responds to the motion behavior of the object, may be set in advance. In this embodiment, when the object slides to the trigger area on the touch screen according to the preset sliding direction, the object may be configured to send a control signal to a specific application, so as to complete control of the specific application. In a preferred embodiment, the specific application may be an application currently running on the device with the touch screen, for example, at least one of a video playing application currently playing video or music, a music playing application, and a reading application performing automatic page turning.

Further, after the first control signal is sent to the designated application based on the method described in the above embodiment, the motion behavior of the object on the touch screen may be continuously detected. When the motion behavior of the object meets a preset trigger condition, a second control signal can be sent to the specified application. Fig. 2 is a schematic method flow diagram of another embodiment of an application control method for a touch screen device according to the present application, and specifically as shown in fig. 2, the application control method for a touch screen device may further include:

s3: and sending a second control signal to the designated application when the detected motion behavior slides to a second trigger area from the initial position of the touch screen to a second sliding direction on the touch screen.

In this embodiment, the control signal sent to the designated application may send different control instructions according to the current state information of the designated application, and therefore the method in this application further includes:

acquiring the current state of a specified application;

correspondingly, the sending the first control signal to the specified application comprises: transmitting a first control signal to the designated application based on the current state information of the designated application; the sending the second control signal to the designated application comprises: and sending a second control signal to the specified application based on the current state information of the specified application.

Specifically, in an application scenario such as video playing, music playing, and text reading, the sending the first control signal to the specified application based on the current state information of the specified application may include the following embodiments of the application scenario:

s11: when the acquired current state information of the specified application is playing, sending a suspended control signal to the specified application;

or,

s12: when the acquired current state information of the specified application is one of pause and stop, sending a playing control signal to the specified application;

or,

s13: and when the acquired current state information of the specified application meets the information sending condition set in the specified application, issuing an information sending instruction to the specified application.

In the application scenario of S13, the sending condition of the information may be set according to different application requirements. For example, the user is currently editing email content, and the current information state of the specified application may be email message editing. In the application scenario, a user may slide a finger on the touch screen to the preset first trigger area. After the sliding gesture of the user is obtained, an instruction for sending the email can be issued to the application of the email based on the state of the current email message editing. Of course, in other embodiments, the designated application may also be instant messaging software, or a WeChat, a microblog, or the like, and the gesture sliding on the touch screen may be used to send instant messaging information or edited microblog content, or the like based on the above description in this embodiment. Therefore, after the user finishes editing the current application, the user does not need to click special buttons such as 'send', 'release' and the like arranged in the current application, and can quickly and conveniently issue a sending instruction to the current application through sliding on a screen.

The starting position of the touch screen in this embodiment may be a position where the object first contacts the touch screen in one uninterrupted touch screen motion. In the method of the present application, a trigger area, for example, a first trigger area in this embodiment, may be set in the touch screen, and may be used to determine whether the detected motion behavior is that a position area to which the start position of the touch screen slides in the first sliding direction on the touch screen meets a condition for sending control information to an application. And when the current state information of the specified application is met, sending a first control signal to the specified application according to the acquired current state information of the specified application. The first sliding direction may include a preset movement direction of an object, which triggers sending of the first control signal to the designated application, from a start position of a touch screen. The first sliding direction may be a specified one direction, such as one of vertically upward and vertically downward; the first sliding direction may be a sliding direction having a certain angle range, for example, a sliding direction within an angle of 60 degrees with the vertical line of the touch screen as an angular bisector is the first sliding direction.

In another embodiment, the first sliding direction may also be a plurality of preset directions or a plurality of directions within an angle range. For example, it may be set that the finger slides vertically upward or vertically downward on the touch screen to meet the set conditional departure requirement. Of course, based on the above description, the person skilled in the art may not need to set the first sliding direction in advance, and all the modifications such as sliding from left to right or sliding from right to left should belong to the first sliding direction described in the present application.

In this embodiment, the first trigger area is set in the touch screen, so that erroneous control of the application due to misoperation and sliding of some users can be avoided. For example, the user slides on the touch screen in the first sliding direction but does not slide to the first trigger control area, and in this case, it may not be necessary to send a control signal to the designated application.

The first trigger control area can be set in different areas according to different application requirements. In one embodiment, the first trigger area may be a trigger area preset at a designated position on the touch screen, for example, a position adjacent to or near a boundary of the touch screen, or an intermediate position of the touch screen. Fig. 3 is a specific application scenario described in this embodiment, and as shown in fig. 3, the first trigger area may be disposed in a middle designated position area of the touch screen, and distances from the first trigger area to an upper boundary and a lower boundary of the touch screen may be equal or may have a certain difference. The middle designated position in this embodiment generally refers to a position where a user focuses or focuses on the central position area of the touch screen mainly visually when watching videos and music, and may include but is not limited to a position area on the touch screen with equal distance from the upper and lower boundaries of the touch screen, or may slightly lean on or lean on the central position of the touch screen, so that the user may slide from one boundary position of the touch screen to the central position, which may better meet the operation habits of most users, and improve the use perception of the user. The first sliding direction may be set to include a vertically upward direction or a vertically downward direction. When the video player shown in fig. 3 plays movie videos, a user may slide upward from the bottom end of the video, and when the user slides to a first trigger area in the middle of the touch screen, a first control signal for playing pause is sent to the video player based on the video playing state of the current player, and the video player may pause the playing of the current video after receiving the first control signal.

In another embodiment of the application control method for a touch screen device, the first trigger area may be further set to be a relative area dynamically adjusted according to the starting position of the touch screen, for example, the first trigger area may be set to be a rectangular area of 480 × 200 pixels away from the starting position of the touch screen by the user's finger by 100 pixels. Therefore, in this embodiment, the first trigger area may be a trigger area disposed on the touch screen at a first distance and in a first direction from a start position of the touch screen of the athletic activity. The first distance may be set after analysis according to the collected user sliding behavior data, and generally, the first distance may be represented as a preset minimum distance at which an object required to send the first control information is triggered to slide on the touch screen.

In another application scenario of the foregoing embodiment, if the distance from the touch screen starting position to the touch screen boundary in the first direction is less than the first distance, the first trigger area may be set in another direction of the starting position on the touch screen. Thus, in another embodiment, the method may further comprise:

and judging whether the distance from the initial position of the touch screen to the boundary of the touch screen in the first direction is smaller than the first distance, if so, setting the first trigger area at a second distance and a second direction of the initial position of the touch screen.

In this embodiment, the second direction may be different from the first direction, but this application does not exclude an embodiment in which the second direction is the same as the first direction. When the second direction is the same as the first direction, the second distance may be set to be smaller than the first distance, so that the setting of the relative position of the first trigger area may still be achieved.

In the above embodiment of setting the first trigger area, when the distance from the starting position of the touch screen to the boundary of the touch screen in the first direction is less than the first distance, it may generally indicate that an object, such as a finger, has approached the boundary of the touch screen, and at this time, the motion behavior of the user is generally to slide to an opposite position currently approaching the boundary of the touch screen. Thus, in another preferred embodiment of the above method, the second direction may be opposite to the first direction. Currently, embodiments in a second direction 90 degrees from the first direction are still within the scope of the application included in this application.

In an application scenario of video playing and music playing, the sending a second control signal to a specific application based on current state information of the specific application may include:

when detecting that the current state information of the specified application is playing, sending a suspended control signal to the specified application;

or,

and when the current state information of the specified application is detected to be suspended, sending a playing control signal to the specified application.

In the above embodiment of the application control method for a touch screen device, the first sliding direction and the second sliding direction may be different. For example, a slide up is pause and a slide left or right is play. Based on the behavior habit of the user or the knowledge of the operation process of the application state, in a preferred embodiment, the first sliding direction is opposite to the second sliding direction. In the application scenario described above, when the user slides up on the touch screen with a finger, the playing of the current application is suspended, and when the user slides down on the touch screen again, the playing of the current application is continued.

For example, when the user slides up to the first trigger area in the middle of the touch screen as shown in fig. 3, based on the state of video playing of the current player, a first control signal for playing pause is sent to the video player, and the video player can pause playing of the current video after receiving the first control signal. The detection of the user's motion on the touch screen may then continue. If the user slides to a second trigger area on the touch screen from the start position of the touch screen to a preset second sliding direction, for example, slides down to a distance of 50 pixels from the bottom boundary or slides out of the bottom boundary (slides to the bottom-most pixel of the boundary), a second control signal for playing pause may be sent to the player based on the video playing state of the current player. For the above specific implementation of the second sliding direction and the second trigger area involved in sending the second control signal based on the motion behavior of the object in the second sliding direction, reference may be made to the embodiment described in this application, for example, the second sliding direction may be a plurality of directions or directions within a plurality of angle ranges, and details thereof are not repeated here.

In a preferred embodiment, to further avoid the misoperation of the user and improve the accuracy of the user operation, in another embodiment of the application control method for the device with the touch screen, the method may further include:

judging whether the starting position of the touch screen of the motion behavior falls into a preset sliding control area or not, and judging that the motion behavior is legal when the judgment result is yes;

correspondingly, the sending the first control signal to the specified application comprises:

when the motion behavior that the touch screen slides to a first trigger area from the initial position of the touch screen is judged to be legal, sending a first control signal to the designated application;

or,

the sending the second control signal to the designated application comprises:

and sending a second control signal to the designated application when the motion behavior of sliding from the initial position of the touch screen to the second trigger area on the touch screen is judged to be legal.

Specifically, a sliding control area may be set on the touch screen, and the motion behavior of the object whose touch screen starting position of the motion behavior falls in the sliding control area is determined to be legal. The motion behavior of which the starting position of the touch screen does not fall into the sliding control area can be judged to be illegal, and no response can be made to the illegal motion behavior in application. For example, the sliding control area may be set in a bottom area of the touch screen interface, and the user slides upwards in the sliding control area at the bottom to pause or play the current application. Meanwhile, the user can also be set to touch the display screen in the area outside the sliding control area and slide upwards to prevent the current application from being paused or played. Therefore, the control of the current application is triggered by the movement behavior of the user starting to slide in the preset sliding control area, so that the misoperation of the user in the non-sliding control area can be reduced, and the control accuracy of the user is improved.

The sliding control area in the above embodiment is a preset designated area in the touch screen interface. For example, the sliding control area may be set to a middle-lower area of the touch screen interface or a specific certain area. In order to not interfere with the playing content of the current application as much as possible and to better adapt to the manipulation behavior of the user, the preset position of the sliding control area may include at least one of the following:

the sliding control area is arranged in the bottom area of the touch screen interface;

the sliding control area is arranged in the left area of the touch screen interface;

the sliding control area is arranged in the right area of the touch screen interface;

the sliding control area is arranged on the upper side area of the touch screen interface.

It should be noted that the sliding control area described in the present application is not limited to only accommodate the above-mentioned embodiments, and other non-inventive embodiment modifications and extensions, such as setting the entire interface of the touch screen as the sliding control area or only the upper right rectangular area, should be considered as falling within the scope of the application included in the present application.

In a further preferred embodiment, when an object (a finger or an induction pen) slides and touches the sliding control area on the touch screen, a preset control style can be displayed on the touch screen, operation feedback is obtained through use, user operation perception is improved, and operation experience of a user can be improved. Therefore, the application control method for the device with the touch screen may further include:

and when the object is in direct or indirect contact with the touch screen in the sliding control area, displaying a preset control style at the appointed position of the touch screen.

The direct contact may include that a finger or an induction pen or the like directly acts on the touch screen, and the indirect contact may include that the finger or the induction pen or the like does not directly contact the touch screen, but the touch screen may know the behavior of the object through corresponding magnetic induction or optical induction or the like. The specific implementation manner of displaying the preset control style at the designated position of the touch screen may include: and a color block with a preset shape is displayed at the designated position of the touch screen.

The preset pattern may be set according to a specific device of the touch screen or an application therein, for example, the control pattern of the player application in the tablet may be set as a rectangular light blue color block occupying the entire bottom in the lateral direction and having a height of 16 px. Of course, the display position of the control pattern on the touch screen may be set according to requirements, the color, shape, and size of the specific pattern of the control pattern may also be set according to requirements, for example, the control pattern in the smart watch may also be set to be a triangular or circular gray color block, and the size of the control pattern may also be set to be a dynamically changeable or dynamically adjustable pattern.

Of course, a prompt message of the current application state may also be further set in the control style, for example, a double vertical bar is set in the color block to indicate that the current application is suspended.

In another embodiment, when the control style is slid by the user, the user can slide in and out along with the dragging of the finger of the user. Therefore, an application control method for a touch screen device described in the present application further includes:

the control pattern moves synchronously according to the direction and the speed of the motion behavior of the object on the touch screen.

Fig. 4 and fig. 5 are application scenarios of a specific embodiment of the foregoing embodiment, where the specific application is current music playing software in this embodiment. When a user touches the touch screen in the sliding control area, a preset control pattern can be displayed, and the control pattern can be set to be a cyan color block from the initial position of the touch screen to the boundary of the touch screen. Then, the user can slide up by the finger, and at this time, the control pattern of the cyan patch can slide up at the same speed as the upward slide of the user's finger, and the height of the cyan patch is increased. And when the finger of the current user slides to a certain position, namely the first trigger area, the music playing software stops playing. Correspondingly, when the user presses the control pattern to slide downwards to a certain position, for example, slide out of the interface, the music playing software plays music.

The application control method for the touch screen device can realize control of playing, pausing, sending and the like of the appointed application by combining gesture sliding with the current state information of the appointed application, can get rid of clicking a control button specially arranged at a fixed position, enables operation of a user to be quicker, more convenient and more flexible, and improves user experience.

The present application also provides an application control apparatus for a touch screen device, and fig. 6 is a schematic block structure diagram of the application control apparatus for a touch screen device according to the present application, and as shown in fig. 6, the apparatus may include:

the detection module 101 may be configured to detect a motion behavior of an object on the touch screen. Of course, as described above, the motion behavior of the object may include a motion behavior of an object directly acting on the touch screen, or may include a motion behavior of an object indirectly acting on the touch screen through magnetic induction, optical induction, or the like.

A first trigger region module 102, operable to set a trigger region specifying that an application is responsive to a motor behavior of the object;

the first control module 103 may be configured to send a first control signal to a designated application when the detected motion behavior is that the touch screen is slid from a starting position of the touch screen to a first trigger area according to a first sliding direction.

Fig. 7 is a schematic block diagram of another apparatus for controlling an application of a touch screen device according to the present application, where as shown in fig. 7, the apparatus may further include:

a second trigger region module 104 operable to set a trigger region specifying that an application is responsive to the athletic performance of the object;

the second control module 105 may be configured to send a second control signal to the designated application when the detected motion behavior is that the motion behavior slides to a second trigger area on the touch screen from the touch screen starting position to a second sliding direction.

The apparatus described in this application may send control information based on the current state of a given application, such as video, music, etc., for example, sending a pause control signal when playing is currently in progress. Therefore, in another embodiment, the apparatus may further include:

the state acquisition module can be used for acquiring the current state of the specified application;

correspondingly, the sending of the first control signal by the first control module 103 to the specified application includes: transmitting a first control signal to the designated application based on the current state information of the designated application;

the second control module 105 sending a second control signal to a specified application comprises: and sending a second control signal to the specified application based on the current state information of the specified application.

The first control signal may include:

when the acquired current state information of the specified application is playing, sending a suspended control signal to the specified application;

or,

when the acquired current state information of the specified application is one of pause and stop, sending a playing control signal to the specified application;

or,

and when the acquired current state information of the specified application meets the information sending condition set in the specified application, issuing an information sending instruction to the specified application.

Of course, in most video, music, and text playing applications, the sending the second control signal to the specified application based on the current state information of the specified application may include:

when detecting that the current state information of the specified application is playing, sending a suspended control signal to the specified application;

or,

and when the current state information of the specified application is detected to be suspended, sending a playing control signal to the specified application.

The first sliding direction and the second sliding direction may be different, and in a preferred embodiment, the second sliding direction is opposite to the second sliding direction.

In the foregoing, the first trigger area module 102 may set a first trigger area at a designated position on a touch screen in the device, where the first trigger area is a trigger area preset at the designated position on the touch screen, for example, the first trigger area is set in a middle designated position area of the touch screen. The set first trigger area may be a fixed area on the touch screen or a relative area adjusted according to the initial position of the touch screen of the object. Specifically, the first trigger area may be set as a trigger area on the touch screen at a first distance and in a first direction from a touch screen start position of the athletic activity.

In an embodiment of the first trigger area module 102, a dynamic adjustment module may be further included, and configured to determine whether a distance from the touch screen starting position to the touch screen boundary in the first direction is smaller than the first distance, and if so, set the first trigger area in a second distance and a second direction of the touch screen starting position.

Based on the knowledge of the operation used for the operation habit and the previous operation in the first direction, in a further preferred embodiment, the first direction is opposite to the second direction.

Fig. 8 is a schematic structural diagram of a module of another apparatus for controlling an application of a touch screen device according to the present application, and as shown in fig. 8, in the above-described embodiment, the apparatus may further include:

the sliding control area module 106 may be configured to set a sliding control area in the touch screen, and further configured to determine whether a touch screen starting position of the exercise behavior falls into the sliding control area, and determine that the exercise behavior is legal when a determination result is yes;

accordingly, the method can be used for solving the problems that,

when judging that the motion behavior of sliding from the initial position of the touch screen to the first trigger area on the touch screen is legal, the first control module 103 sends a first control signal to the designated application;

or,

and when judging that the motion behavior sliding from the touch screen starting position to the second trigger area on the touch screen is legal, the second control module 105 sends a second control signal to the designated application.

The sliding control area module 106 may be configured according to a specific device or a specific application of the device of the touch screen, for example, may be configured in a fixed designated area of the touch screen or an area of the entire touch screen. The position of the sliding control area module 106 in the touch screen may include at least one of the following:

the sliding control area is arranged in the bottom area of the touch screen interface;

the sliding control area is arranged in the left area of the touch screen interface;

the sliding control area is arranged in the right area of the touch screen interface;

the sliding control area is arranged on the upper side area of the touch screen interface.

Fig. 9 is a schematic block diagram of another apparatus for controlling an application of a touch screen device according to the present application, where as shown in fig. 9, the apparatus may further include:

the control style module 107 may be configured to display a preset control style at a designated position on the touch screen when the object directly or indirectly contacts the touch screen in the sliding control area.

The control pattern can be a color block stretched upwards from the boundary of the touch screen, and the size, the time delay, the shape and the like of the color block can be designed in a self-defining mode according to needs.

In order to form interaction with a user and further improve the control feeling of the user, the device may further include an interaction synchronization module 108, which may be configured to acquire the direction and speed of the motion behavior of the object on the screen, and perform synchronization motion on the control pattern according to the direction and speed of the motion behavior of the object on the touch screen. If the user's finger slides up, the control pattern may simultaneously follow the user's finger to slide up. When the user drags the control style, for example, a cyan color block sliding upwards from the bottom of the touch screen along with the finger of the user reaches the first trigger region or overlaps with the first trigger region, a control signal of playing pause can be sent to a current application, such as a video playing application. When the user pulls the cyan color block back to the bottom of the touch screen or drags the color block downwards without overlapping the first trigger area, a control signal for continuing playing can be sent to a current application such as a video playing application.

The application control device for the touch screen equipment can be applied to various portable intelligent terminals, such as mobile phones, tablet computers, intelligent watches and personal digital assistants, and can also be applied to touch screen equipment such as self-service terminals of public resource services of various national enterprises, enterprise units, banks, hospitals, schools and the like, and a user can quickly and conveniently control the application.

Based on the application control method and device for the device with the touch screen, the application provides an electronic device, which includes:

a touch screen configured to display a state of a current application; and

comprising one or more processing units configured to detect a motion behavior of an object on the touch screen, an

And sending a playing or pausing control signal to the current application or sending an information sending instruction to the current application when the detected motion behavior slides to a preset trigger area from the initial position of the touch screen according to a preset sliding direction on the touch screen.

The electronic device described in the present application may specifically include various portable intelligent terminals, such as a mobile phone, a tablet computer, an intelligent watch, and a personal digital assistant, and may also include self-service terminal devices for public resource services of various national enterprises, enterprise units, banks, hospitals, schools, and the like. The electronic equipment based on the idea created by the application can enable a user to quickly and conveniently realize the control of the application, and improve the actual operation experience of the user.

Although the present application refers to the description of the input and/or output interfaces, LCD technology, LPD technology, and windows or Android, iOS development operating systems, the present application is not limited to the case where it is necessary to fully comply with the standard interface protocol or the development platform design standard, nor to a specific single implementation. The aspects of the embodiments of the present application described above may also be practiced with slight modifications to the protocols and with future foreseeable developments. Of course, even if the above general protocol or development platform is not adopted, but a proprietary protocol or other development platform is adopted, and the technical development for realizing the same function in the future is adopted, as long as the information interaction and information judgment feedback manner according to the above embodiments of the present application is met, the embodiments that can still realize the same application all belong to the scope of the present application, and no further description is provided herein.

The apparatuses or modules illustrated in the above embodiments may be implemented by a computer chip or an entity, or by a product with certain functions. For convenience of description, the above devices are described as being divided into various modules by functions, and are described separately. Of course, in implementing the present application, the functions of the modules may be implemented in the same or multiple software and/or hardware, or the modules implementing the same functions may be implemented by a combination of multiple sub-modules or sub-units, for example, the dynamic adjustment module may also be set as one functional module with the first trigger area module to implement setting of the first trigger area, and the like.

Those skilled in the art will also appreciate that, in addition to implementing the controller as pure computer readable program code, the same functionality can be implemented by logically programming method steps such that the controller is in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Such a controller may therefore be considered as a hardware component, and the means included therein for performing the various functions may also be considered as a structure within the hardware component. Or even means for performing the functions may be regarded as being both a software module for performing the method and a structure within a hardware component.

The application may be described in the general context of computer-executable instructions, such as program modules, being executed by a computer. Generally, program modules include routines, programs, objects, components, data structures, classes, etc. that perform particular tasks or implement particular abstract data types. The application may also be practiced in distributed computing environments where tasks are performed by remote processing devices that are linked through a communications network. In a distributed computing environment, program modules may be located in both local and remote computer storage media including memory storage devices.

From the above description of the embodiments, it is clear to those skilled in the art that the present application can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the present application may be embodied in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, or the like, and includes several instructions for enabling a computer device (which may be a personal computer, a mobile terminal, a server, or a network device) to execute the method according to the embodiments or some parts of the embodiments of the present application.

The embodiments in the present specification are described in a progressive manner, and the same or similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. The application is operational with numerous general purpose or special purpose computing system environments or configurations. For example: personal computers, server computers, hand-held or portable devices, tablet-type devices, multiprocessor systems, microprocessor-based systems, set top boxes, programmable electronic devices, network PCs, minicomputers, mainframe computers, distributed computing environments that include any of the above systems or devices, and the like.

While the present application has been described with examples, those of ordinary skill in the art will appreciate that there are numerous variations and permutations of the present application without departing from the spirit of the application, and it is intended that the appended claims encompass such variations and permutations without departing from the spirit of the application.

Claims (26)

1. An application control method for a touch screen device, the method comprising:

detecting a motion behavior of an object on the touch screen;

acquiring the current state of a specified application;

the detected motion behavior is that when the motion behavior slides to a first trigger area from a touch screen starting position on the touch screen according to a first sliding direction, a first control signal is sent to a designated application; the sending the first control signal to the specified application comprises: transmitting a first control signal to the designated application based on the current state information of the designated application; wherein the transmitting a first control signal to the designated application based on the current state information of the designated application comprises: when the acquired current state information of the specified application is playing, sending a suspended control signal to the specified application; or when the acquired current state information of the specified application is one of pause and stop, sending a playing control signal to the specified application; or when the acquired current state information of the specified application meets the information sending condition set in the specified application, issuing an information sending instruction to the specified application.

2. The application control method for a touch screen device according to claim 1, wherein the method further comprises:

and sending a second control signal to the designated application when the detected motion behavior slides to a second trigger area from the initial position of the touch screen to a second sliding direction on the touch screen.

3. The application control method for a touch screen device according to claim 2, wherein the sending of the second control signal to the specified application comprises: and sending a second control signal to the specified application based on the current state information of the specified application.

4. The application control method for a touch screen device according to claim 3, wherein the transmitting a second control signal to the specified application based on the current state information of the specified application comprises:

when the acquired current state information of the specified application is playing, sending a suspended control signal to the specified application;

or,

when the acquired current state information of the specified application is one of pause and stop, sending a playing control signal to the specified application;

or,

and when the acquired current state information of the specified application meets the information sending condition set in the specified application, issuing an information sending instruction to the specified application.

5. The application control method for a touch screen device according to claim 2, wherein the first sliding direction is opposite to the second sliding direction.

6. The application control method for the touch screen device according to claim 1, wherein the first trigger area is a trigger area preset at a designated position on the touch screen;

or the motion behavior is a trigger area which is arranged on the touch screen and is a first distance away from the starting position of the touch screen of the motion behavior and in a first direction.

7. The application control method for a touch screen device according to claim 6, wherein the method further comprises:

judging whether the distance from the initial position of the touch screen to the boundary of the touch screen in the first direction is smaller than the first distance; and if so, setting the first trigger area at a second distance and in a second direction of the starting position of the touch screen.

8. The application control method for a touch screen device according to claim 7, wherein the second direction is opposite to the first direction.

9. The application control method for the touch screen device according to claim 1, wherein the first trigger area is provided in a middle designated position area of the touch screen.

10. An application control method for a touch screen device according to claim 1 or 2, characterized in that the method further comprises:

judging whether the starting position of the touch screen of the motion behavior falls into a preset sliding control area or not, and judging that the motion behavior is legal when the judgment result is yes;

correspondingly, the sending the first control signal to the specified application comprises:

when the motion behavior that the touch screen slides to a first trigger area from the initial position of the touch screen is judged to be legal, sending a first control signal to the designated application;

or,

the sending the second control signal to the designated application comprises:

and when the motion behavior of sliding from the initial position of the touch screen to the second trigger area on the touch screen is judged to be legal, sending a second control signal to the specified application.

11. The application control method for a touch screen device according to claim 10, wherein the method further comprises:

and when the object is in direct or indirect contact with the touch screen in the sliding control area, displaying a preset control style at the appointed position of the touch screen.

12. The application control method for a touch screen device according to claim 11, wherein the method further comprises:

the control pattern moves synchronously according to the direction and the speed of the motion behavior of the object on the touch screen.

13. An application control apparatus for a touch screen device, the apparatus comprising:

the detection module is used for detecting the motion behavior of an object on the touch screen;

the state acquisition module is used for acquiring the current state of the specified application;

a first trigger region module for setting a trigger region for a designated application to respond to a motion behavior of the object;

the first control module is used for sending a first control signal to a designated application when the detected motion behavior is that the motion behavior slides to a first trigger area from a touch screen starting position on the touch screen according to a first sliding direction; the sending the first control signal to the specified application comprises: transmitting a first control signal to the designated application based on the current state information of the designated application; wherein the transmitting a first control signal to the designated application based on the current state information of the designated application comprises: when the acquired current state information of the specified application is playing, sending a suspended control signal to the specified application; or when the acquired current state information of the specified application is one of pause and stop, sending a playing control signal to the specified application; or when the acquired current state information of the specified application meets the information sending condition set in the specified application, issuing an information sending instruction to the specified application.

14. The application control apparatus for a touch screen device according to claim 13, wherein the apparatus further comprises:

a second trigger area module for setting a trigger area for a designated application to respond to the athletic performance of the object;

and the second control module is used for sending a second control signal to the designated application when the detected motion behavior is that the motion behavior slides to a second trigger area from the initial position of the touch screen to a second sliding direction on the touch screen.

15. The application control apparatus for a touch screen device according to claim 14, wherein the second control module sending the second control signal to the specified application comprises: and sending a second control signal to the specified application based on the current state information of the specified application.

16. The application control apparatus for a touch screen device according to claim 15, wherein the second control signal transmitted to the specified application based on the current state information of the specified application comprises:

when the acquired current state information of the specified application is playing, sending a suspended control signal to the specified application;

or,

when the acquired current state information of the specified application is one of pause and stop, sending a playing control signal to the specified application;

or,

and when the acquired current state information of the specified application meets the information sending condition set in the specified application, issuing an information sending instruction to the specified application.

17. The application control apparatus for a touch screen device according to claim 14, wherein the first sliding direction is opposite to the second sliding direction.

18. The application control apparatus for a touch screen device according to claim 13, wherein the first trigger area is a trigger area preset at a designated position on the touch screen;

or the trigger area is arranged on the touch screen at a first distance and in a first direction from the starting position of the touch screen.

19. The application control apparatus for a touch screen device according to claim 13, wherein the first trigger area is provided in a middle designated position area of the touch screen.

20. The application control apparatus for a touch screen device according to claim 18, wherein the apparatus further comprises:

the dynamic adjustment module is used for judging whether the distance from the touch screen starting position to the touch screen boundary in the first direction is smaller than the first distance or not; and if so, setting the first trigger area at a second distance and in a second direction of the starting position of the touch screen.

21. The application control apparatus for a touch screen device according to claim 20, wherein the first direction is opposite to the second direction.

22. The application control apparatus for a touch screen device according to claim 13, wherein the apparatus further comprises:

the sliding control area module is used for setting a sliding control area in the touch screen, judging whether the initial position of the touch screen of the motion behavior falls into the sliding control area or not, and judging that the motion behavior is legal when the judgment result is yes;

accordingly, the method can be used for solving the problems that,

and the first control module sends a first control signal to the designated application when judging that the motion behavior of sliding from the initial position of the touch screen to the first trigger area on the touch screen is legal.

23. The application control apparatus for a touch screen device according to claim 14, wherein the apparatus further comprises:

the sliding control area module is used for setting a sliding control area in the touch screen, judging whether the initial position of the touch screen of the motion behavior falls into the sliding control area or not, and judging that the motion behavior is legal when the judgment result is yes;

accordingly, the method can be used for solving the problems that,

and the second control module sends a second control signal to the designated application when judging that the motion behavior of sliding from the initial position of the touch screen to the second trigger area on the touch screen is legal.

24. An application control apparatus for a touch screen device according to claim 22 or 23, wherein the apparatus further comprises:

and the control style module is used for displaying a preset control style at the appointed position of the touch screen when the object is in direct or indirect contact with the touch screen in the sliding control area.

25. The application control apparatus for a touch screen device according to claim 24, wherein the apparatus further comprises:

and the interactive synchronization module is used for acquiring the direction and the speed of the motion behavior of the object on the touch screen and synchronously moving the control pattern according to the direction and the speed of the motion behavior of the object on the touch screen.

26. An electronic device, comprising:

a touch screen configured to display a state of a current application; and

comprises one or more processing units configured to detect motion behavior of an object on the touch screen, obtain a current state of a specified application, and

and sending a playing or pausing control signal to the current application or sending an information sending instruction to the current application when the detected motion behavior slides to a preset trigger area from the initial position of the touch screen according to a preset sliding direction on the touch screen.