CN110083244B - Anti-false touch method for wearable device, wearable device and storage medium - Google Patents

Anti-false touch method for wearable device, wearable device and storage medium Download PDF

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Publication number
CN110083244B
CN110083244B CN201910357275.3A CN201910357275A CN110083244B CN 110083244 B CN110083244 B CN 110083244B CN 201910357275 A CN201910357275 A CN 201910357275A CN 110083244 B CN110083244 B CN 110083244B
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event
gesture
wearable device
air gesture
detected
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CN110083244A (en
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王毅
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Nubia Technology Co Ltd
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Nubia Technology Co Ltd
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input 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
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/017Gesture based interaction, e.g. based on a set of recognized hand gestures
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input 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
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]
    • G06F3/0484Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
    • G06F3/04847Interaction techniques to control parameter settings, e.g. interaction with sliders or dials
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input 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
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]
    • G06F3/0487Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
    • G06F3/0488Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
    • G06F3/04883Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures for inputting data by handwriting, e.g. gesture or text

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • User Interface Of Digital Computer (AREA)

Abstract

The invention discloses a method for preventing error touch of wearable equipment, the wearable equipment and a storage medium, wherein the method comprises the following steps: when a screen touch event or a physical key event in the wearable equipment is detected, determining the anti-false touch duration of the air gesture; if a null gesture event is detected within the false touch prevention duration, shielding the null gesture event from processing; and if the air gesture event is detected outside the anti-false touch time, responding to the air gesture event. According to the invention, the situation of mistaken touch of the air gesture when screen touch operation or physical key operation is performed in the wearable device is avoided, and the interface operation mode of combining the air gesture, the screen touch and the physical key in the wearable device is optimized.

Description

Anti-false touch method for wearable device, wearable device and storage medium
Technical Field
The invention relates to the technical field of wearable equipment, in particular to a method for preventing false touch of wearable equipment, the wearable equipment and a storage medium.
Background
Along with the development of the wearable equipment towards the intelligent direction, the operation mode of the wearable equipment is not limited to the modes such as physical keys, screen touch and the like, and the operation mode of a flying gesture appears. However, in the current operation mode of the over-the-air gesture, when the user touches the screen of the wearable device or presses the physical key of the wearable device, the operation mode of the over-the-air gesture is used in combination with the operation mode of the physical key and the screen touch, so that an over-the-air gesture operation event of the wearable device is triggered, namely, the error touch of the over-the-air gesture is easy to occur, and further, the abnormal condition such as abnormal sliding or jumping of the interface of the wearable device is caused.
Disclosure of Invention
The invention mainly aims to provide an anti-false touch method for wearable equipment, the wearable equipment and a storage medium, and aims to solve the technical problem that false touch is easy to occur in the prior art of the operation of the gesture in the air of the wearable equipment.
In order to achieve the above object, an embodiment of the present invention provides a method for preventing a wearable device from being touched by mistake, the method for preventing a wearable device from being touched by mistake comprising:
when a screen touch event or a physical key event in the wearable equipment is detected, determining the anti-false touch duration of the air gesture;
if a null gesture event is detected within the false touch prevention duration, shielding the null gesture event from processing;
and if the air gesture event is detected outside the anti-false touch time, responding to the air gesture event.
Optionally, the step of shielding the above-mentioned air gesture event from processing if the above-mentioned air gesture event is detected within the above-mentioned anti-false touch duration includes:
if a null gesture event is detected within the false touch prevention time period, acquiring the null gesture height of the null gesture event;
if the height of the air gesture is detected to be smaller than the preset height, shielding the air gesture event from being processed;
And if the height of the air gesture is detected to be greater than or equal to the preset height, responding to the air gesture event.
Optionally, the step of shielding the above-mentioned air gesture event from processing if the above-mentioned air gesture event is detected within the above-mentioned anti-false touch duration includes:
if a null gesture event is detected within the false touch prevention time period, detecting whether response effect conflict exists between the null gesture event and the screen touch event or the physical key event;
if the response effect conflict exists between the air gesture event and the screen touch event or the physical key event, the air gesture event is shielded from being processed;
and if no response effect conflict exists between the air gesture event and the screen touch event or the physical key event, responding to the air gesture event.
Optionally, after the step of shielding the null gesture event from processing if a conflict of the response effect exists between the null gesture event and the screen touch event or the physical key event, the method further includes:
counting the conflict times of response effect conflict between the air gesture event and the screen touch event or the physical key event within a preset time period;
And when the conflict times are detected to be larger than the preset times, closing the air gesture operation mode.
Optionally, when the number of collisions detected is greater than a preset number, the step of closing the air gesture operation mode includes:
when the conflict times are detected to be larger than preset times, outputting first prompt information to prompt a user to confirm whether the air gesture operation mode is closed or not;
and if a confirmation instruction for confirming to close the air gesture operation mode is detected, closing the air gesture operation mode.
Optionally, after the step of outputting the first prompt message to prompt the user to confirm whether to close the above-mentioned air gesture operation mode, the method further includes:
and if a confirmation instruction for confirming to close the air gesture operation mode is not detected, increasing the air gesture recognition height.
Optionally, after the step of increasing the height of recognition of the air gesture if the confirmation instruction for confirming to close the air gesture operation mode is not detected, the method further includes:
and outputting a second prompt message to prompt the user of the increased height of the recognition of the aerial gesture.
Optionally, if the confirmation instruction for confirming to close the air gesture operation mode is not detected, the step of increasing the air gesture recognition height includes:
If a confirmation instruction for confirming closing of the air gesture operation mode is not detected, outputting third prompting information to prompt a user to set a higher air gesture recognition height;
and when an instruction for increasing the height of the recognition of the aerial gesture is detected, increasing the height of the recognition of the aerial gesture.
The invention also provides a wearable device comprising: the wearable device anti-false touch program comprises a memory, a processor and a wearable device anti-false touch program which is stored in the memory and can run on the processor, wherein the wearable device anti-false touch program realizes the steps of the wearable device anti-false touch method when being executed by the processor.
The invention also provides a storage medium, wherein the storage medium is stored with a wearable device false touch prevention program, and the steps of the wearable device false touch prevention method are realized when the wearable device false touch prevention program is executed by a processor.
According to the method and the device, when the wearable device detects a screen touch event or a physical key event, the anti-misoperation duration of the air gesture is determined, if the air gesture event is detected within the anti-misoperation duration, the air gesture event is shielded by the wearable device, if the air gesture event is detected outside the anti-misoperation duration, the air gesture event is based on the air gesture event which is intentionally triggered by the user, the wearable device normally responds to the air gesture event, so that the situation of the air gesture mistaken touch during screen touch operation or physical key operation in the wearable device is avoided, interface jump abnormality and sliding abnormality caused by the air gesture mistaken touch are avoided, and the interface operation mode of the air gesture, screen touch and physical key combination in the wearable device is optimized.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.
In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to a person skilled in the art that other drawings can be obtained from these drawings without inventive effort.
Fig. 1 is a schematic hardware structure of an implementation manner of a wearable device according to an embodiment of the present invention;
fig. 2 is a hardware schematic diagram of an implementation manner of a wearable device according to an embodiment of the present invention;
fig. 3 is a hardware schematic of an implementation manner of a wearable device according to an embodiment of the present invention;
fig. 4 is a hardware schematic of an implementation manner of a wearable device according to an embodiment of the present invention;
fig. 5 is a hardware schematic of an implementation manner of a wearable device according to an embodiment of the present invention;
FIG. 6 is a flowchart of a first embodiment of a method for preventing false touch of a wearable device according to the present invention;
FIG. 7 is a schematic diagram of a screen touch operation according to an embodiment of the present invention;
fig. 8 is a schematic diagram of prompt information in a wearable device according to an embodiment of the present invention.
Detailed Description
It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.
In the following description, suffixes such as "module", "component", or "unit" for representing elements are used only for facilitating the description of the present invention, and have no specific meaning per se. Thus, "module," "component," or "unit" may be used in combination.
The wearable equipment provided by the embodiment of the invention comprises wearable equipment such as an intelligent bracelet, an intelligent watch, an intelligent mobile phone and the like. With the continuous development of screen technology, screen forms such as flexible screens and folding screens appear, and wearable devices such as smart phones can also be used as wearable devices. The wearable device provided in the embodiment of the invention can comprise: RF (Radio Frequency) unit, wiFi module, audio output unit, A/V (audio/video) input unit, sensor, display unit, user input unit, interface unit, memory, processor, and power supply.
In the following description, a wearable device will be taken as an example, please refer to fig. 1, which is a schematic hardware structure of a wearable device implementing various embodiments of the present invention, where the wearable device 100 may include: an RF (Radio Frequency) unit 101, a WiFi module 102, an audio output unit 103, an a/V (audio/video) input unit 104, a sensor 105, a display unit 106, a user input unit 107, an interface unit 108, a memory 109, a processor 110, and a power supply 111. Those skilled in the art will appreciate that the wearable device structure shown in fig. 1 does not constitute a limitation of the wearable device, and that the wearable device may include more or fewer components than shown, or certain components in combination, or a different arrangement of components.
The following describes the various components of the wearable device in detail with reference to fig. 1:
the radio frequency unit 101 may be used to send and receive information or send signals in a call process, specifically, the radio frequency unit 101 may send uplink information to the base station, or may send downlink information sent by the base station to the processor 110 of the wearable device to process the downlink information, where the downlink information sent by the base station to the radio frequency unit 101 may be generated according to the uplink information sent by the radio frequency unit 101, or may be actively pushed to the radio frequency unit 101 after detecting that the information of the wearable device is updated, for example, after detecting that the geographic position where the wearable device is located changes, the base station may send a notification of the change of the geographic position to the radio frequency unit 101 of the wearable device, after receiving the notification of the message, the radio frequency unit 101 may send the notification of the message to the processor 110 of the wearable device to process, and the processor 110 of the wearable device may control the notification of the message to be displayed on the display panel 1061 of the wearable device; typically, the radio frequency unit 101 includes, but is not limited to, an antenna, at least one amplifier, a transceiver, a coupler, a low noise amplifier, a duplexer, and the like. In addition, the radio frequency unit 101 may also communicate with a network and other devices through wireless communication, which may specifically include: through wireless communication with a server in a network system, for example, the wearable device can download file resources from the server through wireless communication, for example, an application program can be downloaded from the server, after the wearable device finishes downloading a certain application program, if the file resources corresponding to the application program in the server are updated, the server can push a message notification of the resource update to the wearable device through wireless communication so as to remind a user to update the application program. The wireless communication may use any communication standard or protocol, including but not limited to GSM (Global System of Mobile communication, global System for Mobile communications), GPRS (General Packet Radio Service ), CDMA2000 (Code Division Multiple Access, CDMA 2000), WCDMA (Wideband Code Division Multiple Access ), TD-SCDMA (Time Division-Synchronous Code Division Multiple Access, time Division synchronous code Division multiple Access), FDD-LTE (Frequency Division Duplexing-Long Term Evolution, frequency Division Duplex Long term evolution), and TDD-LTE (Time Division Duplexing-Long Term Evolution, time Division Duplex Long term evolution), etc.
In one embodiment, the wearable device 100 may access an existing communication network by inserting a SIM card.
In another embodiment, the wearable device 100 may access an existing communication network by setting an esim card (Embedded-SIM), and by adopting the esim card, the internal space of the wearable device may be saved and the thickness may be reduced.
It will be appreciated that although fig. 1 shows a radio frequency unit 101, it will be appreciated that the radio frequency unit 101 is not an essential component of a wearable device and may be omitted entirely as required within the scope of not changing the essence of the invention. The wearable device 100 may implement communication connection with other devices or communication networks through the wifi module 102 alone, which is not limited by the embodiment of the present invention.
WiFi belongs to a short-distance wireless transmission technology, and the wearable device can help a user to send and receive emails, browse webpages, access streaming media and the like through the WiFi module 102, so that wireless broadband Internet access is provided for the user. Although fig. 1 shows a WiFi module 102, it is understood that it does not belong to the necessary constitution of the wearable device, and can be omitted entirely as required within the scope of not changing the essence of the invention.
The audio output unit 103 may convert audio data received by the radio frequency unit 101 or the WiFi module 102 or stored in the memory 109 into an audio signal and output as sound when the wearable device 100 is in a call signal reception mode, a talk mode, a recording mode, a voice recognition mode, a broadcast reception mode, or the like. Also, the audio output unit 103 may also provide audio output (e.g., call signal reception sound, message reception sound, etc.) related to a specific function performed by the wearable device 100. The audio output unit 103 may include a speaker, a buzzer, and the like.
The a/V input unit 104 is used to receive an audio or video signal. The a/V input unit 104 may include a graphics processor (Graphics Processing Unit, GPU) 1041 and a microphone 1042, the graphics processor 1041 processing image data of still pictures or video obtained by an image capturing device (e.g., a camera) in a video capturing mode or an image capturing mode. The processed image frames may be displayed on the display unit 106. The image frames processed by the graphics processor 1041 may be stored in the memory 109 (or other storage medium) or transmitted via the radio frequency unit 101 or the WiFi module 102. The microphone 1042 can receive sound (audio data) via the microphone 1042 in a phone call mode, a recording mode, a voice recognition mode, and the like, and can process such sound into audio data. The processed audio (voice) data may be converted into a format output that can be transmitted to the mobile communication base station via the radio frequency unit 101 in the case of a telephone call mode. The microphone 1042 may implement various types of noise cancellation (or suppression) algorithms to cancel (or suppress) noise or interference generated in the course of receiving and transmitting the audio signal.
In one embodiment, the wearable device 100 includes one or more cameras, and by opening the cameras, capturing of images, photographing, video recording and other functions can be achieved, and the positions of the cameras can be set as required.
The wearable device 100 further comprises at least one sensor 105, such as a light sensor, a motion sensor, and other sensors. Specifically, the light sensor includes an ambient light sensor and a proximity sensor, wherein the ambient light sensor can adjust the brightness of the display panel 1061 according to the brightness of ambient light, and the proximity sensor can turn off the display panel 1061 and/or the backlight when the wearable device 100 moves to the ear. As one type of motion sensor, the accelerometer sensor can detect the acceleration in all directions (typically three axes), and can detect the gravity and direction when stationary, and can be used for applications for recognizing the gesture of a mobile phone (such as horizontal-vertical screen switching, related games, magnetometer gesture calibration), vibration recognition related functions (such as pedometer, knocking), and the like.
In one embodiment, the wearable device 100 further comprises a proximity sensor, by employing the proximity sensor, the wearable device is able to achieve non-contact manipulation, providing more modes of operation.
In one embodiment, the wearable device 100 further comprises a heart rate sensor, which when worn, enables detection of heart rate by being in close proximity to the user.
In one embodiment, the wearable device 100 may further include a fingerprint sensor, by reading a fingerprint, security verification or the like can be achieved.
The display unit 106 is used to display information input by a user or information provided to the user. The display unit 106 may include a display panel 1061, and the display panel 1061 may be configured in the form of a liquid crystal display (Liquid Crystal Display, LCD), an Organic Light-Emitting Diode (OLED), or the like.
In one embodiment, the display panel 1061 employs a flexible display screen, and the wearable device employing the flexible display screen is capable of bending when worn, thereby fitting more. Optionally, the flexible display screen may be an OLED screen body and a graphene screen body, and in other embodiments, the flexible display screen may also be other display materials, which is not limited to this embodiment.
In one embodiment, the display panel 1061 of the wearable device may take a rectangular shape for ease of wrapping when worn. In other embodiments, other approaches may be taken as well.
The user input unit 107 may be used to receive input numeric or character information and to generate key signal inputs related to user settings and function control of the wearable device. In particular, the user input unit 107 may include a touch panel 1071 and other input devices 1072. The touch panel 1071, also referred to as a touch screen, may collect touch operations thereon or thereabout by a user (e.g., operations of the user on the touch panel 1071 or thereabout by using any suitable object or accessory such as a finger, a stylus, etc.) and drive the corresponding connection device according to a predetermined program. The touch panel 1071 may include two parts of a touch detection device and a touch controller. The touch detection device detects the touch azimuth of a user, detects a signal brought by touch operation and transmits the signal to the touch controller; the touch controller receives touch information from the touch detection device, converts it into touch point coordinates, and sends the touch point coordinates to the processor 110, and can receive and execute commands sent from the processor 110. Further, the touch panel 1071 may be implemented in various types such as resistive, capacitive, infrared, and surface acoustic wave. The user input unit 107 may include other input devices 1072 in addition to the touch panel 1071. In particular, other input devices 1072 may include, but are not limited to, one or more of a physical keyboard, function keys (e.g., volume control keys, switch keys, etc.), a trackball, mouse, joystick, etc., as specifically not limited herein.
In one embodiment, the sides of the wearable device 100 may be provided with one or more buttons. The button can realize a plurality of modes such as short pressing, long pressing, rotation and the like, thereby realizing a plurality of operation effects. The number of the buttons can be multiple, and different buttons can be combined for use, so that multiple operation functions are realized.
Further, the touch panel 1071 may overlay the display panel 1061, and when the touch panel 1071 detects a touch operation thereon or thereabout, the touch panel 1071 is transferred to the processor 110 to determine the type of touch event, and then the processor 110 provides a corresponding visual output on the display panel 1061 according to the type of touch event. Although in fig. 1, the touch panel 1071 and the display panel 1061 are two independent components for implementing the input and output functions of the wearable device, in some embodiments, the touch panel 1071 may be integrated with the display panel 1061 to implement the input and output functions of the wearable device, which is not limited herein. For example, when a message notification of a certain application is received through the rf unit 101, the processor 110 may control the message notification to be displayed in a certain preset area of the display panel 1061, where the preset area corresponds to a certain area of the touch panel 1071, and may control the message notification displayed in the corresponding area on the display panel 1061 by performing a touch operation on the certain area of the touch panel 1071.
The interface unit 108 serves as an interface through which at least one external device can be connected with the wearable apparatus 100. For example, the external devices may include a wired or wireless headset port, an external power (or battery charger) port, a wired or wireless data port, a memory card port, a port for connecting a device having an identification module, an audio input/output (I/O) port, a video I/O port, an earphone port, and the like. The interface unit 108 may be used to receive input (e.g., data information, power, etc.) from an external device and transmit the received input to one or more elements within the wearable apparatus 100 or may be used to transmit data between the wearable apparatus 100 and the external device.
In one embodiment, the interface unit 108 of the wearable device 100 adopts a contact structure, and is connected with other corresponding devices through the contact, so as to realize functions of charging, connection and the like. The contact can also be waterproof.
Memory 109 may be used to store software programs as well as various data. The memory 109 may mainly include a storage program area that may store an operating system, application programs required for at least one function (such as a sound playing function, an image playing function, etc.), and a storage data area; the storage data area may store data (such as audio data, phonebook, etc.) created according to the use of the handset, etc. In addition, memory 109 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid-state storage device.
The processor 110 is a control center of the wearable device, connects various parts of the entire wearable device with various interfaces and lines, performs various functions of the wearable device and processes data by running or executing software programs and/or modules stored in the memory 109, and invoking data stored in the memory 109, thereby performing overall monitoring of the wearable device. Processor 110 may include one or more processing units; preferably, the processor 110 may integrate an application processor that primarily handles operating systems, user interfaces, applications, etc., with a modem processor that primarily handles wireless communications. It will be appreciated that the modem processor described above may not be integrated into the processor 110. The memory 109 stores a wearable device false touch prevention program, which is executable on the processor 110, and which when executed by the processor 110 implements the steps of the wearable device false touch prevention method described below.
The wearable device 100 may further include a power source 111 (such as a battery) for powering the various components, and preferably, the power source 111 may be logically connected to the processor 110 through a power management system, so as to perform functions of managing charging, discharging, and power consumption management through the power management system.
Although not shown in fig. 1, the wearable device 100 may further include a bluetooth module or the like, which is not described herein. The wearable device 100 can be connected with other terminal devices through bluetooth to realize communication and information interaction.
Fig. 2 to fig. 4 are schematic structural diagrams of a wearable device according to an embodiment of the present invention. The wearable device comprises a flexible screen. When the wearable device is unfolded, the flexible screen is in a strip shape; when the wearable device is in a wearing state, the flexible screen is bent to be annular. Fig. 2 and 3 show schematic structural diagrams of the wearable device screen when unfolded, and fig. 4 shows schematic structural diagrams of the wearable device screen when bent.
Based on the above embodiments, it can be seen that if the device is a wristwatch, a bracelet, or a wearable device, the screen of the device may not cover the watchband area of the device, or may cover the watchband area of the device. The invention proposes an alternative embodiment, in which the device may be a wristwatch, a bracelet or a wearable device, comprising a screen and a connection. The screen may be a flexible screen and the connection may be a wristband. Alternatively, the screen of the device or the display area of the screen may be partially or fully overlaid on the wristband of the device. Fig. 5 is a schematic hardware diagram of an implementation manner of a wearable device according to an embodiment of the present invention, where a screen of the device extends to two sides, and a part of the screen is covered on a watchband of the device. In other embodiments, the screen of the device may also be entirely covered on the watchband of the device, which is not limited to the embodiment of the present invention.
The expansion content of the specific implementation mode of the wearable device is basically the same as that of each embodiment of the anti-false touch method of the wearable device, and details are not repeated here.
Based on the wearable device hardware structure, various embodiments of the method are provided.
The invention provides a method for preventing false touch of wearable equipment, which is mainly applied to the wearable equipment. In an embodiment of a method for preventing false touch of a wearable device, referring to fig. 6, the method for preventing false touch of a wearable device includes:
step S100, when a screen touch event or a physical key event in the wearable device is detected, determining the anti-false touch duration of the air gesture;
the user's palm is above the wearable device screen a certain distance, and the gesture of waving left, right, upwards or downwards is felt through setting up sensor in the wearable device to the gesture of flying of user's palm to discern the direction of waving operation, control the switching of display interface according to the direction of waving operation. Currently, interface operation can be performed in wearable equipment in three modes of a flying gesture, a touch screen and physical keys. However, when the user performs a screen touch operation or presses a physical key, the palm of the user may shake above the screen of the wearable device, and the sensor in the wearable device may recognize the shake of the palm of the user as a limp gesture and respond to the shake, so that the mistaking touch of the limp gesture is caused, and unexpected jump or sliding of the display interface of the wearable device may occur.
In this embodiment, in order to prevent a user from false triggering a touch down gesture when performing a screen touch operation or a physical key operation, when detecting a screen touch event or a physical key event, the wearable device responds to the screen touch event or the physical key event, and determines a time length for false touch down prevention of the touch down gesture. The screen touch event is an event triggered by touch operations such as clicking, sliding or long-pressing of a user on a screen detected by the wearable device; the physical key event may be an event triggered by the wearable device detecting a pressing operation of a physical key by a user, such as a pressing operation of a volume key. The anti-false touch time length refers to a certain time length for starting timing after detecting a screen touch event or a physical key event, and can be preset as required, for example, 1 second. The anti-false touch duration can also be customized by a user in the wearable device.
Step S200, if a null gesture event is detected within the anti-false touch time period, shielding the null gesture event from processing;
if the wearable device detects a null gesture event within the anti-false touch time, the null gesture event is shielded from processing. That is, if a null gesture event is detected within a certain period of time after a screen touch event or a physical key event is detected, the null gesture event is abandoned and is not processed. Because the error touch prevention duration is short, in a short duration after the user touches the screen or presses the physical key, the possibility of performing the air gesture operation is very low according to the operation habit of the user, and the air gesture event detected in the error touch prevention duration is very likely to be the air gesture event which is mistakenly touched by the user when the user touches the screen or presses the physical key, therefore, the air gesture event detected in the error touch prevention duration can be abandoned and not processed, and the error touch of the air gesture is avoided.
For example, referring to fig. 7, when a user performs a touch operation of sliding left on a screen, the wearable device detects a screen touch event, and because the palm of the user also swings left, a sensor in the wearable device also senses a swiping up gesture of the palm of the user to the left and reports the swiping up gesture as a swiping up gesture event, at this time, because the swiping up gesture event to the left is detected by the wearable device in a time period of preventing false touch, the swiping up gesture event is not processed, thereby avoiding the abnormal situation that the interface slides left twice.
And step S300, if the above-mentioned air gesture event is detected outside the above-mentioned anti-false touch time, responding to the above-mentioned air gesture event.
If the wearable device detects a null gesture event outside the anti-false touch time, responding to the null gesture event. That is, when the wearable device detects a screen touch event or a physical key press event, and after a certain period of time has elapsed, a null gesture event is detected, the null gesture event is processed normally. Because the event is a detected over-air gesture event outside the anti-false touch duration, the over-air gesture event cannot be an over-air gesture event touched by a user by mistake, but is based on the over-air gesture event triggered by the user by intention, and the wearable device normally processes the over-air gesture event to respond to the over-air gesture of the user. If the user performs screen touch operation of sliding left on the screen of the wearable device, the wearable device enters a song list display interface, then the user performs upward swiping over-air gesture operation after 1 second, and checks the song list, the wearable device can normally process the over-air gesture event after detecting the upward swiping over-air gesture event of the user, and the upward rolling effect of the song list is achieved.
Specifically, the wearable device may set a hastouchhent flag bit, when a screen touch event or a physical key event is detected and reported, set the hastouchhent flag bit to be wire, start a time timer, the time duration of the timer is the anti-false touch duration determined by the wearable device, and set the hastouchhent flag bit to be false after the timer finishes timing, for example, after 1 s. If the screen touch event or the physical key event is detected in the time length of the timer, resetting the time length of the timer. When a null gesture event is detected to report, the wearable device detects a hasTouchEvent flag bit, if the flag is true, the null gesture event is abandoned, and if the flag is false, the null gesture event is processed normally.
In this embodiment, when the wearable device detects a screen touch event or a physical key event, the anti-false touch duration of the air gesture is determined, if an air gesture event is detected within the anti-false touch duration, which indicates that the air gesture event is an air gesture event that is touched by a user by mistake, the wearable device shields the air gesture event, if an air gesture event is detected outside the anti-false touch duration, which indicates that the air gesture event is an air gesture event that is triggered by the user by intention, the wearable device normally responds to the air gesture event, thereby avoiding the situation of false touch of the air gesture when screen touch operation or physical key operation is performed in the wearable device, further avoiding interface jump abnormality and sliding abnormality caused by false touch of the air gesture, and optimizing the interface operation mode of combining the air gesture, the screen touch operation and the physical key operation in the wearable device.
Further, based on the first embodiment, a second embodiment of the method for preventing false touch of wearable equipment according to the present invention provides a method for preventing false touch of wearable equipment. In this embodiment, step S200 includes:
step S201, if a null gesture event is detected in the anti-false touch time, acquiring the null gesture height of the null gesture event;
if the wearable device detects that the air gesture event exists in the error touch prevention time, acquiring the air gesture height of the air gesture event. When a sensor in the wearable device senses the waving operation of the palm of the user above the screen, the distance between the palm of the user and the sensor, namely the height of the overhead gesture is sensed, the sensed height of the overhead gesture is carried in the reported overhead gesture event, and when the wearable device detects that the overhead gesture event is reported within the error touch prevention duration, the height of the overhead gesture carried in the overhead gesture event is obtained.
Step S202, if the height of the air gesture is detected to be smaller than the preset height, the air gesture event is shielded from being processed.
After the wearable device acquires the height of the air gesture, detecting whether the height of the air gesture is smaller than a preset height, and if so, shielding the air gesture event, namely not processing the air gesture event. The preset height can be preset, so that when the distance between the palm of the user and the screen of the wearable device is greater than or equal to the preset height, the user cannot touch the screen of the wearable device and cannot press the physical keys of the wearable device.
After the step S201, the method further includes:
step S203, if the height of the air gesture is detected to be greater than or equal to the preset height, responding to the air gesture event.
If the height of the air gesture is detected to be greater than or equal to the preset height, the air gesture event is responded normally. It should be noted that, if the wearable device detects a null gesture event within the anti-false touch time period after detecting the screen touch event or the physical key event, because the anti-false touch time period is shorter, the possibility that the user makes a null gesture in the time period is very small, and the null gesture event is very likely to be a false triggered null gesture event. However, if the height of the detected air gesture of the air gesture event is higher, that is, the palm of the user is far away from the screen, and the finger of the user cannot touch the screen or press the physical key at the far distance, the air gesture event is indicated not to be mistakenly triggered by the user when the user performs screen touch operation or physical key operation, but the user rapidly lifts the hand to make an air gesture after performing screen touch operation or physical key operation, so that for the air gesture event that the height of the air gesture detected in the mistaken touch prevention time is greater than the preset height, the wearable device can normally respond, thereby avoiding misjudging the air gesture that is intentionally triggered by the user as the mistaken touch air gesture.
In this embodiment, when the wearable device detects a null gesture event within the anti-false touch duration, the null gesture height of the null gesture event is obtained, when the null gesture height of the null gesture event is detected to be smaller than a preset height, the null gesture event is shielded to avoid responding to the false triggered null gesture event, when the null gesture height of the null gesture event is detected to be greater than or equal to the preset height, the null gesture event is responded to, so that the null gesture which is deliberately triggered by a user is prevented from being misjudged as a false-touch null gesture, the accuracy of the wearable device in judging the false-touch null gesture is improved, and the operation experience of the user is further improved.
Further, based on the first embodiment, a third embodiment of the method for preventing false touch of wearable equipment according to the present invention provides a method for preventing false touch of wearable equipment. In this embodiment, the step S200 includes:
step S211, if a null gesture event is detected within the anti-false touch duration, detecting whether there is a response effect conflict between the null gesture event and the screen touch event or the physical key event;
if the wearable device detects a null gesture event within the anti-false touch time period, detecting whether response effect conflict exists between the null gesture event and the screen touch event or the physical key event. The response effect conflict refers to a response effect of the wearable device after responding to the above gesture event, and the response effect is the same as a response effect of the wearable device after responding to the screen touch event or the physical key event.
For example, when a user performs a touch operation of sliding to the right on a screen of the wearable device, since the palm of the user is also swinging to the right, a sensor in the wearable device may recognize the swing operation of the palm to the right as a swiping gesture to the right of the user, and report a swiping gesture event; the response effect of the wearable device on the touch operation sliding rightward is that the current page is turned rightward and a previous page of the current page is displayed, and the response effect of the wearable device when detecting the swiping rightward over gesture event is also that the current page is turned rightward and the previous page of the current page is displayed, at this time, the wearable device determines that the swiping rightward gesture event has a response effect conflict with the screen touch event. For another example, after a user performs a touch operation of sliding to the right on the wearable device, the wearable device may detect a swiping up gesture event of the palm of the user within an anti-false touch time period, and the response effect of the wearable device detecting the swiping up gesture event is that an interface element in a current page is flipped up, and an interface element after the interface element in the current interface is displayed, so that the wearable device determines that the response effect of the swiping up gesture event is different from that of the screen touch event, that is, no response effect conflict exists.
Step S212, if the response effect conflict exists between the air gesture event and the screen touch event or the physical key event, shielding the air gesture event;
if the wearable device detects that the response effect conflict exists between the air gesture event and the screen touch event or the physical key event, the air gesture event is shielded, and the response is not carried out on the air gesture event.
After the step S211, the method includes:
step S213, if no conflict exists between the response effect of the air gesture event and the screen touch event or the physical key event, responding to the air gesture event.
And if the wearable equipment detects that no response effect conflict exists between the air gesture event and the screen touch event or the physical key event, responding to the air gesture event.
In this embodiment, because the possibility that the user performs the same operation effect of the above-mentioned over-air gesture again in a shorter time after performing the screen touch operation on the wearable device is very small, if the detected over-air gesture event in the anti-false touch time is the same as the response effect of the screen touch event or the physical key event, the over-air gesture event is very likely to be an over-air gesture event that the user mistakenly triggers when performing the screen touch operation or the physical key operation, so that the wearable device shields the over-air gesture event with the conflicting response effect, so as to avoid responding to the over-air gesture event that the user mistakenly touches. If the response effect of the detected over-air gesture event and the response effect of the screen touch event or the physical key event are different in the anti-false touch duration, the over-air gesture event is very likely to be the over-air gesture event triggered by the user, so that the wearable device responds to the over-air gesture event with no response effect conflict, the over-air gesture event triggered by the user is prevented from being misjudged as the mistriggered over-air gesture event, and the accuracy of the wearable device in judging the mistriggered over-air gesture is improved.
Further, the scheme of determining whether to respond to the air gesture event according to the air gesture height of the air gesture event in the second embodiment may be implemented in combination with the scheme of determining whether to respond to the air gesture event according to whether there is a response effect conflict in the present embodiment, where a combination manner may be: if the wearable device detects a null gesture event within the anti-false touch time, acquiring the null gesture height of the null gesture event; if the height of the air gesture is detected to be greater than or equal to the preset height, responding to the air gesture event; if the height of the air gesture is smaller than the preset height, detecting whether the response effect conflict exists between the air gesture event and the screen touch event or the physical key event; if the response effect conflict is detected, shielding the air gesture event; and if no response effect conflict is detected, responding to the over-air gesture event. Through the scheme of the combination implementation, the accuracy of the wearable device in judging the mistriggered air gesture can be further improved, and further the operation experience of a user in the process of carrying out the operation of the interface of the wearable device in a mode of combining the air gesture, screen touch and physical keys is improved.
Further, based on the third embodiment, a fourth embodiment of the method for preventing false touch of wearable equipment according to the present invention provides a method for preventing false touch of wearable equipment. In this embodiment, after the step S212, the method further includes:
step S214, counting the conflict times of response effect conflicts between the above-mentioned air gesture event and the above-mentioned screen touch event or physical key event within a preset time period;
the wearable device counts the conflict times of response effect conflict between the air gesture event and the screen touch event or the physical key event within the preset duration. The preset duration may be preset according to needs, for example, set to count the number of collisions of the response effect existing in five seconds every five seconds.
And step S215, when the conflict times are detected to be larger than the preset times, closing the air gesture operation mode.
The wearable device detects whether the conflict times in the preset time are larger than the preset times, and if so, the operation mode of the air gesture is automatically closed. The preset times can be set according to needs, for example, 5 times, so that when the conflict times in the preset time period are greater than the preset times, the frequency of the user false triggering of the air gesture event is high. When the wearable device detects that the number of times of conflict in the preset time period is greater than the preset number of times, namely, when the frequency of false triggering of the air gesture is high, the wearable device can automatically close the air gesture operation mode. Because the user easily triggers the air gesture event by mistake when performing screen touch operation or physical key operation, and the user is more prone to performing interface operation in a mode of using a touch screen, the wearable device automatically closes the air gesture operation mode, and after the air gesture operation mode is closed, the air gesture of the user is not detected any more, so that the situation that the user touches the air gesture by mistake is avoided. After the wearable device automatically closes the air gesture operation mode, a prompt message can be displayed to prompt the user that the air gesture operation mode is closed.
Further, step S215 includes:
step S2151, when the conflict times are detected to be larger than preset times, outputting first prompt information to prompt a user to confirm whether the air gesture operation mode is closed or not;
and when the wearable device detects that the conflict times are greater than the preset times, outputting first prompt information for prompting the user to confirm whether the air gesture operation mode is closed. Referring to fig. 8, the first prompt information may be in the form of a hover frame in which prompt contents are displayed and a selection control for a user to select whether to close the air gesture operation mode. The first prompt message may be to automatically exit the display after displaying the preset time period, and if no user selection operation is detected after displaying for 3 seconds, automatically exit the display, and default that the user selects to not close the air gesture operation mode. If the user wants to close the air gesture operation mode, the air gesture operation mode can be quickly closed by touching a selection control in the first prompt information, and the air gesture operation mode is closed by exiting the current display interface of the wearable device, entering a setting interface and other complex operations when the user does not need to frequently touch the air gesture by mistake and wants to close the air gesture operation mode.
Step S2152, if a confirmation instruction for confirming to close the air gesture operation mode is detected, closing the air gesture operation mode.
And if the wearable device detects a confirmation instruction for confirming to close the air gesture operation mode, which is triggered by the user based on the displayed first prompt information, closing the air gesture operation mode.
Further, after step S2151, the method further includes:
step S2153, if the confirmation instruction for confirming to close the air gesture operation mode is not detected, increasing the air gesture recognition height.
The wearable device may not detect a confirmation instruction for confirming to close the air gesture operation mode, which may be an instruction for detecting that the user triggers not to close the air gesture operation mode based on the first prompt information, or may be an instruction for detecting that the user does not make a selection within a preset time period. If the confirmation instruction is not detected, the wearable device can automatically increase the height of the recognition of the aerial gesture.
The height for identifying the aerial gesture can be set in the wearable device, namely when the sensor identifies the aerial gesture of the user, if the distance between the palm of the user and the sensor is sensed to be greater than the identification height, the identified aerial gesture event is reported by the waving operation of the palm of the user above the screen of the wearable device. If the wearable device detects that the number of conflict times of response effect conflict exists between the over-air gesture event and the screen touch event or the physical key event is too large, the indication may be that the current over-air gesture recognition height is low, so that when the user performs screen touch operation or physical key operation, the distance between the palm and the screen is larger than the recognition height, and the sensor recognizes the over-air gesture. Therefore, when the user does not want to close the idle gesture operation mode, but the frequency of the user mistakenly touching the idle gesture is higher, the wearable device can automatically increase the idle gesture recognition height, so that the distance between the palm and the screen is smaller than the idle gesture recognition height when the user performs screen touching operation or physical key operation, and the sensor can not report the palm shake when the user performs screen touching operation or physical key operation as an idle gesture event.
Further, after step S2153, the method further includes:
step S2154, outputting a second prompt message to prompt the user of the increased height of the gesture recognition in the air.
The wearable device can output the second prompt information to prompt the user of the increased height of the gesture recognition after the height of the gesture recognition is automatically increased. The second prompt information may be in the form of a floating frame, and prompt content is displayed in the floating frame, for example, similar to prompt content of "whether the high altitude of the gesture recognition is adjusted to learn the gesture operation mode" and when a command triggered by the user to confirm the learning of the gesture operation mode is detected, the wearable device may play a prestored gesture operation teaching video for the user to learn. The user is prompted that the recognition height of the air gesture is increased, so that the user can make a correct air gesture, and the situation that the user is too close to the screen to be responded by the wearable device when making the air gesture is avoided.
Further, step S2153 includes:
step a, if a confirmation instruction for confirming closing of the aerial gesture operation mode is not detected, outputting third prompting information to prompt a user to set a higher aerial gesture recognition height;
If the wearable device does not detect a confirmation instruction for confirming closing of the aerial gesture operation mode, outputting third prompt information to prompt the user to set a higher aerial gesture recognition height. And if the instruction of setting the height of the recognition of the aerial gesture triggered by the user based on the third prompt information is detected, the user can jump to the interface for setting the height of the recognition of the aerial gesture. The mode of setting the height of the gesture recognition by the user in the wearable device can be that the user directly inputs a height value, for example, the user inputs 10 cm; the method can also be used for prompting the user to input the height value, specifically prompting the user to put the palm above the screen for a certain period of time, sensing the palm height of the user by a sensor in the wearable device, prompting the user to raise the palm to input the height value again if the input height value is lower than the current high-altitude gesture recognition height, and prompting the user to input successfully after the input height value which is greater than the current high-altitude gesture recognition height is detected. And when the wearable device detects that the user triggers the determination and sets the successfully-entered height value as the high-altitude gesture recognition height, triggering an increase instruction of the high-altitude gesture recognition height.
And b, after an increasing instruction of the height of the recognition of the aerial gesture is detected, increasing the height of the recognition of the aerial gesture.
And after the wearable device detects an increasing instruction of the height of the gesture recognition, setting the height value input by the user or the successfully input height value as the height of the gesture recognition. After the setting is successful, the sensor in the wearable equipment carries out the judgment standard of the air gesture at the newly set air gesture recognition height.
In this embodiment, when the wearable device detects that the frequency of the accidental triggering of the idle gesture event is too high due to the low idle gesture recognition height, the idle gesture recognition height is automatically increased, or a user is prompted to set the higher idle gesture recognition height, so that the frequency of the accidental triggering of the idle gesture event by the wearable device is reduced, and the situation of accidental touch of the idle gesture when the screen touch operation or the physical key operation is performed in the wearable device is avoided.
In addition, the embodiment of the invention also provides a storage medium, wherein the storage medium is stored with a wearable device anti-false touch program, and the wearable device anti-false touch program realizes the steps of the wearable device anti-false touch method when being executed by a processor. The expansion content of the specific implementation manner of the storage medium is basically the same as that of each embodiment of the anti-false touch method of the wearable device, and is not described in detail herein.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.
The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.
From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) as described above, comprising instructions for causing a terminal device (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method according to the embodiments of the present invention.
The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (6)

1. The method for preventing the false touch of the wearable device is characterized by comprising the following steps of:
when a screen touch event or a physical key event in the wearable equipment is detected, determining the anti-false touch duration of the air gesture;
if a null gesture event is detected within the false touch prevention duration, shielding the null gesture event from processing;
if the air gesture event is detected outside the anti-false touch time, responding to the air gesture event;
if a null gesture event is detected within the anti-false touch time period, the step of shielding the null gesture event from processing comprises the following steps:
if a null gesture event is detected within the false touch prevention time period, detecting whether response effect conflict exists between the null gesture event and the screen touch event or the physical key event;
If the response effect conflict exists between the air gesture event and the screen touch event or the physical key event, the air gesture event is shielded from being processed;
counting the conflict times of response effect conflict between the air gesture event and the screen touch event or the physical key event within a preset time period;
when the conflict times are detected to be larger than preset times, closing the air gesture operation mode;
if no response effect conflict exists between the air gesture event and the screen touch event or the physical key event, responding to the air gesture event;
when the conflict times are detected to be larger than the preset times, the step of closing the air gesture operation mode comprises the following steps:
when the conflict times are detected to be larger than preset times, outputting first prompt information to prompt a user to confirm whether the air gesture operation mode is closed or not;
if a confirmation instruction for confirming closing of the air gesture operation mode is detected, closing the air gesture operation mode;
and if a confirmation instruction for confirming to close the air gesture operation mode is not detected, increasing the air gesture recognition height.
2. The method for preventing false touch of a wearable device according to claim 1, wherein the step of shielding the null gesture event from being processed if the null gesture event is detected within the false touch preventing period comprises:
if a null gesture event is detected within the false touch prevention time period, acquiring the null gesture height of the null gesture event;
if the height of the air gesture is detected to be smaller than the preset height, shielding the air gesture event from being processed;
and if the height of the air gesture is detected to be greater than or equal to the preset height, responding to the air gesture event.
3. The method for preventing false touch of a wearable device as claimed in claim 1, wherein after the step of increasing the height of recognition of the air gesture if the confirmation instruction for confirming to turn off the air gesture operation mode is not detected, further comprising:
and outputting a second prompt message to prompt the user of the increased height of the recognition of the aerial gesture.
4. The method for preventing false touch of a wearable device as in claim 1, wherein the step of increasing the height of recognition of the air gesture if the confirmation instruction to confirm to turn off the air gesture operation mode is not detected comprises:
If a confirmation instruction for confirming closing of the air gesture operation mode is not detected, outputting third prompting information to prompt a user to set a higher air gesture recognition height;
and when an instruction for increasing the height of the recognition of the aerial gesture is detected, increasing the height of the recognition of the aerial gesture.
5. A wearable device, the wearable device comprising: a memory, a processor and a wearable device anti-false touch program stored on the memory and executable on the processor, which when executed by the processor, implements the steps of the wearable device anti-false touch method of any of claims 1 to 4.
6. A storage medium, wherein a wearable device anti-false touch program is stored on the storage medium, and the wearable device anti-false touch program realizes the steps of the wearable device anti-false touch method according to any one of claims 1 to 4 when executed by a processor.
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