CN106933425B - Method and device for preventing mistaken touch - Google Patents

Abstract

The invention discloses a method and a device for preventing false touch, wherein the method comprises the following steps: when a screen of the wearable device is in a black screen state and a bright screen control instruction is detected, detecting posture information of the wearable device, wherein the wearable device is worn on an arm of a user; determining whether a preset screen lightening condition is met or not according to the posture information; and if so, controlling the screen to be switched to a bright screen state. The wearable device is prevented from being triggered mistakenly, and power consumption is reduced.

Description

Method and device for preventing mistaken touch

Technical Field

The embodiment of the invention relates to a wearable device control technology, in particular to a method and a device for preventing mistaken touch.

Background

A smart watch is generally in a black screen state when a user does not need his information, and when a touch of the user on the screen is sensed, the screen of the smart watch is lit. However, the smart watch may light up the screen when the user does not need to light up the screen due to some operations such as wrong touch. For example, when a smart watch touches other conductive media, or is touched by other people by mistake when people are crowded, the screen is woken up, and power consumption is wasted.

Disclosure of Invention

The invention provides a method and a device for preventing false triggering, which realize the prevention of false triggering of wearing equipment and reduce power consumption.

In a first aspect, an embodiment of the present invention provides a method for preventing a false touch, where the method includes:

when a screen of the wearable device is in a black screen state and a bright screen control instruction is detected, detecting posture information of the wearable device, wherein the wearable device is worn on an arm of a user;

determining whether a preset screen lightening condition is met or not according to the posture information;

and if so, controlling the screen to be switched to a bright screen state.

Further, after determining whether a preset screen-lighting condition is met according to the gesture information, the method further includes:

and if the preset bright screen condition is not met, controlling the screen to be in a black screen state continuously.

Further, determining whether a preset screen-lighting condition is met according to the posture information includes:

if the arm of the user is determined to be in the lifted state according to the posture information, and/or if the screen is determined to be in the horizontal state according to the posture information, determining that the screen lightening condition is met;

and if the user arm is determined not to be in the lifted state and the screen is not in the horizontal state according to the posture information, determining that the screen lightening condition is not met.

Further, determining whether the user's arm is in a raised state based on the posture information includes:

if the included angle between the arm of the user and the positive direction of the vertical axis is detected to be changed from a first angle to a second angle according to the posture information, determining that the arm of the user has a lifting action, wherein the first angle is larger than a first angle threshold value, and the second angle is smaller than a second angle threshold value;

after the user arm is determined to have the lifting action, if the fact that the angle between the user arm and the positive direction of the horizontal axis is the third angle is detected according to the posture information, the user arm is determined to be in the lifting state, wherein the third angle is smaller than a third angle threshold value.

Further, the method further comprises:

and generating the bright screen control instruction when the touch operation and/or the tapping operation on the screen are/is detected.

In a second aspect, an embodiment of the present invention provides an apparatus for preventing a false touch, where the apparatus includes:

the detection module is used for detecting the posture information of the wearable device when a screen of the wearable device is in a black screen state and a bright screen control instruction is detected, wherein the wearable device is worn on the arm of a user;

the determining module is used for determining whether a preset screen lightening condition is met or not according to the posture information;

and the screen lightening control module is used for controlling the screen to be switched to a screen lightening state if the screen lightening condition is met.

Further, the apparatus further comprises:

and the control black screen module is used for controlling the screen to be in a black screen state continuously if the preset bright screen condition is not met after determining whether the preset bright screen condition is met according to the posture information.

Further, the determining module comprises:

the first condition determining unit is used for determining that the screen lightening condition is met if the arm of the user is determined to be in the lifting state according to the posture information and/or if the screen is determined to be in the horizontal state according to the posture information;

and the second condition determining unit is used for determining that the screen lightening condition is not met if the user arm is determined not to be in the lifting state and the screen is not in the horizontal state according to the posture information.

Further, the determining module further includes a lifting state determining unit, and the lifting state determining unit is specifically configured to:

if the included angle between the arm of the user and the positive direction of the vertical axis is detected to be changed from a first angle to a second angle according to the posture information, determining that the arm of the user has a lifting action, wherein the first angle is larger than a first angle threshold value, and the second angle is smaller than a second angle threshold value;

after the user arm is determined to have the lifting action, if the fact that the angle between the user arm and the positive direction of the horizontal axis is the third angle is detected according to the posture information, the user arm is determined to be in the lifting state, wherein the third angle is smaller than a third angle threshold value.

Further, the apparatus further comprises:

and the instruction generating module is used for generating the bright screen control instruction when the touch operation and/or the tapping operation on the screen are/is detected.

In the embodiment of the invention, when the screen of the wearable device is in a black screen state and the bright screen control instruction is detected, the posture information of the wearable device is detected, whether the preset bright screen condition is met or not is determined according to the posture information, and if the preset bright screen condition is met, the screen is controlled to be switched to a bright screen state. The wearable device is prevented from being triggered mistakenly, and power consumption is reduced.

Drawings

FIG. 1 is a flowchart illustrating a method for preventing false touches according to one embodiment of the present invention;

FIG. 2 is a flowchart of a method for preventing false touches according to a second embodiment of the present invention;

fig. 3 is a schematic structural diagram of a device for preventing a false touch according to a third embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a flowchart of a method for preventing a false touch according to an embodiment of the present invention, where the method is applicable to preventing a false touch of a wearable device during use, and the method can be executed by a device for preventing a false touch according to an embodiment of the present invention, where the device can be implemented in software and/or hardware, and the device can be integrated in a wearable device with a function of preventing a false touch, for example, the wearable device can be a watch or a bracelet. Referring to fig. 1, the method may specifically include the following steps:

s110, when a screen of the wearable device is in a black screen state and a bright screen control instruction is detected, posture information of the wearable device is detected, wherein the wearable device is worn on an arm of a user.

Wherein, wearing equipment can directly wear on one's body, or integrate a portable equipment of user's clothes or accessory, carries out data interaction and high in the clouds interaction etc. through integrated software, realizes its function. In this scheme, wearing equipment wears on user's arm, can be wrist-watch or bracelet etc.. Specifically, when the wearable device is not used by the user, the wearable device is in a standby state, that is, the screen is in a black screen state, and the user cannot acquire display information on the screen or perform related operations on the screen in the black screen state. When the wearable device is in a black screen state and a bright screen control instruction is detected, gesture information of the wearable device is detected. Optionally, the posture information of the wearable device may be information such as a position, an acceleration, an angular velocity, or an angle of the wearable device, wherein the posture information may be obtained by sensing measurement, and the sensor may be a gravity sensor, an acceleration sensor, or a gyroscope.

Optionally, the bright screen control instruction is generated when a touch operation and/or a tap operation on the screen is detected.

The screen of the wearable device can be a touch screen, the touch screen is an induction type liquid crystal display device capable of receiving incoming signals such as contacts, and graphic buttons capable of sensing touch or knocking are arranged on the touch screen. And when the touch operation and/or the tapping operation on the screen are/is detected, generating the bright screen control instruction. Optionally, the touch operation and/or the tap operation is applied to a graphic button capable of sensing a touch or a tap.

And S120, determining whether a preset screen lightening condition is met or not according to the posture information.

Specifically, the screen-lighting condition may be preset according to a user's requirement, and the screen-lighting condition may be a condition under which the user expects to cause the wearable device to start the screen-lighting. And determining whether a preset screen-lighting condition is met or not according to the posture information of the wearable device.

And S130, if so, controlling the screen to be switched to a bright screen state.

Specifically, after the preset screen lightening condition is determined to be met according to the posture information, the screen is controlled to be switched to a screen lightening state. Optionally, after the wearable device is switched to the bright screen state, the screen is lighted, and the user can acquire desired information or perform related operations on the wearable device after being brightened.

In the embodiment of the invention, when the screen of the wearable device is in a black screen state and the bright screen control instruction is detected, the posture information of the wearable device is detected, whether the preset bright screen condition is met or not is determined according to the posture information, and if the preset bright screen condition is met, the screen is controlled to be switched to a bright screen state. The wearable device is prevented from being triggered mistakenly, and power consumption is reduced.

On the basis of the above technical solution, after determining whether a preset bright screen condition is met according to the posture information, the method further includes: and if the preset bright screen condition is not met, controlling the screen to be in a black screen state continuously.

If the preset bright screen condition is determined not to be met according to the posture information, it is indicated that the user does not need to use the wearable device or perform related operations on the wearable device at the moment, and the screen of the wearable device is controlled to be continuously in a black screen state. The power consumption of the wearable device is reduced.

Example two

Fig. 2 is a flowchart of a method for preventing a false touch according to a second embodiment of the present invention, where "determining whether a preset bright screen condition is met according to the gesture information" is optimized based on the second embodiment. Referring to fig. 2, the method may specifically include the following steps:

s210, when a screen of the wearable device is in a black screen state and a bright screen control instruction is detected, detecting gesture information of the wearable device, wherein the wearable device is worn on an arm of a user.

S220, if the user arm is determined not to be in the lifted state and the screen is not in the horizontal state according to the posture information, determining that the screen lightening condition is not met, and jumping to execute S250.

And determining that the arm of the user is not in the lifting state according to the posture information. Optionally, the arm of the user is not in the lifted state, namely the arm of the user hangs down, namely the screen of the wearable device is vertical to the horizontal direction; or when the user arm is in an irregular motion state, the scene can be described as that the user holding the fluorescent bar shakes the arm to cheer in the scene of the concert; when the user has a violent impact on the arm, the scenario may be described as the user is traveling through a tight tide. And after determining that the arm of the user is not in the lifting state according to the posture information, judging whether the screen is in the horizontal state, and if determining that the screen is not in the horizontal state, determining that the preset condition is not met. Optionally, the screen is not in a horizontal state, which means that the plane of the screen of the wearable device is not parallel to the horizontal plane.

S230, if the arm of the user is determined to be in the lifted state according to the posture information, and/or if the screen is determined to be in the horizontal state according to the posture information, determining that the screen-lighting condition is met, and jumping to execute S240.

And determining that the arm of the user is in a lifting state according to the posture information. Optionally, the arm of the user is in a lifted state, which may be a state in which the arm moves vertically downward to a state in which the arm is positioned in front of the chest of the user; and/or determining that the screen is in a horizontal state according to the posture information, and determining that a screen lightening condition is met. Optionally, the screen is in a horizontal state, that is, the plane where the screen of the wearable device is located is parallel to the horizontal plane, and the application scenario may be that when a user lies flat on a bed, an arm is naturally placed on the bed, the screen of the wearable device is in a horizontal state, and no specific limitation is made on the horizontal direction of the screen or the horizontal direction.

And S240, controlling the screen to be switched to a bright screen state.

And S250, controlling the screen to be in a black screen state continuously.

In the embodiment of the invention, the condition that the screen lightening condition is not met is determined that the arm of the user is not in the lifting state and the screen is not in the horizontal state, and the condition that the screen lightening condition is met is determined that the arm of the user is in the lifting state and/or the screen is in the horizontal state. Through the confirmation to bright screen condition, effectively prevent the mistake and touch.

For example, determining whether the user's arm is in a lifted state according to the posture information may include:

A. and if the included angle between the arm of the user and the positive direction of the vertical axis is detected to be changed from a first angle to a second angle according to the posture information, determining that the arm of the user has a lifting action, wherein the first angle is larger than a first angle threshold value, and the second angle is smaller than a second angle threshold value.

The positive direction of the vertical axis refers to the vertical direction perpendicular to the horizontal plane, the detection variable is an included angle between the arm of the user and the positive direction of the vertical axis, and when the included angle is changed from a first angle to a second angle, it is determined that the user has an arm lifting action, wherein the first angle is larger than a first angle threshold, and the second angle is smaller than a second angle threshold. Alternatively, the first angle threshold may be 90 °, the second threshold angle may be 20 °, and if the angle between the user's arm and the positive direction of the vertical axis changes from a first angle (greater than 90 °) to a second angle (less than 20 °), it is determined that there is a lifting motion for the arm.

For example, the wearable device is a watch, and a case where the first angle is 180 ° and the second angle is 0 ° is taken as an example, where the case illustrates that the user moves from a position where the arm is vertically downward to a position where the arm is vertically upward, the position where the arm is vertically downward is a position where the arm of the user naturally hangs down in a normal case, and the position where the arm is vertically upward is a position where the arm of the user lifts up to a vertically upward state.

B. After the user arm is determined to have the lifting action, if the fact that the angle between the user arm and the positive direction of the horizontal axis is the third angle is detected according to the posture information, the user arm is determined to be in the lifting state, wherein the third angle is smaller than a third angle threshold value.

Wherein, the positive direction of the horizontal axis can be determined according to the specific situation that the wearing equipment is worn on the arm of the user. Optionally, if the wearable device is worn on the left arm of the user, taking the face orientation of the user as a reference, and taking the horizontal right direction as the positive direction of the horizontal axis; if the wearable device is worn on the right arm of the user, the horizontal left direction is taken as the positive direction of the horizontal axis on the basis of the face orientation of the user. Optionally, the third angle threshold may be 30 °, and if it is detected that an included angle between the arm of the user and the positive direction of the horizontal axis is a third angle (smaller than 30 °) according to the posture information, it is determined that the arm of the user is in the lifted state.

Illustratively, the wearing device takes a watch as an example, and the watch is worn on the left arm of the user, and the right horizontal direction is the positive direction of the horizontal axis at this time, and the third angle may be 20 °, which indicates that the included angle between the arm and the positive direction of the horizontal axis is 20 °. The application scenario can be that when a user needs to acquire information of the watch, the arm wearing the watch is moved to the front of the user, an included angle between the arm and the positive direction of the horizontal axis is 20 degrees and is smaller than a third angle threshold, the habit state that the user watches the watch under the normal condition is met, and the arm of the user is determined to be in the lifted state.

EXAMPLE III

Fig. 3 is a schematic structural diagram of a device for preventing a false touch according to a third embodiment of the present invention, where the device is suitable for executing the method for preventing a false touch according to the third embodiment of the present invention. The device may specifically include:

the detection module 310 is configured to detect gesture information of the wearable device when a screen of the wearable device is in a black screen state and a bright screen control instruction is detected, where the wearable device is worn on an arm of a user;

a determining module 320, configured to determine whether a preset screen-lighting condition is met according to the posture information;

and the screen lightening control module 330 is configured to control the screen to be switched to a screen lightening state if the screen lightening condition is met.

Further, the apparatus further comprises:

and the control black screen module is used for controlling the screen to be in a black screen state continuously if the preset bright screen condition is not met after determining whether the preset bright screen condition is met according to the posture information.

Further, the determining module 320 comprises:

the first condition determining unit is used for determining that the screen lightening condition is met if the arm of the user is determined to be in the lifting state according to the posture information and/or if the screen is determined to be in the horizontal state according to the posture information;

and the second condition determining unit is used for determining that the screen lightening condition is not met if the user arm is determined not to be in the lifting state and the screen is not in the horizontal state according to the posture information.

Further, the determining module 320 further includes a lifting state determining unit, where the lifting state determining unit is specifically configured to:

if the included angle between the arm of the user and the positive direction of the vertical axis is detected to be changed from a first angle to a second angle according to the posture information, determining that the arm of the user has a lifting action, wherein the first angle is larger than a first angle threshold value, and the second angle is smaller than a second angle threshold value;

after the user arm is determined to have the lifting action, if the fact that the angle between the user arm and the positive direction of the horizontal axis is the third angle is detected according to the posture information, the user arm is determined to be in the lifting state, wherein the third angle is smaller than a third angle threshold value.

Further, the apparatus further comprises:

and the instruction generating module is used for generating the bright screen control instruction when the touch operation and/or the tapping operation on the screen are/is detected.

The device for preventing false touch provided by the embodiment of the invention can execute the method for preventing false touch provided by any embodiment of the invention, and has the corresponding functional module and beneficial effect of the execution method.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (6)

1. A method of preventing false touches, comprising:

generating a bright screen control instruction when touch operation and/or tapping operation on a screen of the wearing equipment is detected;

when a screen of the wearable device is in a black screen state and a bright screen control instruction is detected, detecting posture information of the wearable device, wherein the wearable device is worn on an arm of a user; determining whether a preset screen lightening condition is met or not according to the posture information;

the determining whether a preset screen-lighting condition is met according to the posture information includes: if the arm of the user is determined to be in the lifting state according to the posture information, and if the screen is determined to be in the horizontal state according to the posture information, the screen lightening condition is determined to be met;

wherein determining whether the user's arm is in a lifted state according to the posture information comprises:

if the included angle between the arm of the user and the positive direction of the vertical axis is detected to be changed from a first angle to a second angle according to the posture information, determining that the arm of the user has a lifting action, wherein the first angle is larger than a first angle threshold value, and the second angle is smaller than a second angle threshold value; the positive vertical axis direction comprises vertically up to horizontal;

after the user arm is determined to have a lifting action, if the fact that the angle between the user arm and the positive direction of the horizontal axis is a third angle is detected according to the posture information, the user arm is determined to be in a lifting state, wherein the third angle is smaller than a third angle threshold value; the positive horizontal axis direction includes: if the wearable device is worn on the left arm of the user, taking the face orientation of the user as a reference, and taking the horizontal right direction as the positive direction of a horizontal shaft; if the wearable device is worn on the right arm of the user, taking the face orientation of the user as a reference, and taking the horizontal left direction as the positive direction of the horizontal axis;

and if so, controlling the screen to be switched to a bright screen state.

2. The method according to claim 1, after determining whether a preset bright screen condition is satisfied according to the gesture information, further comprising:

and if the preset bright screen condition is not met, controlling the screen to be in a black screen state continuously.

3. The method of claim 1, wherein determining whether a preset bright screen condition is met according to the gesture information comprises:

and if the user arm is determined not to be in the lifted state and the screen is not in the horizontal state according to the posture information, determining that the screen lightening condition is not met.

4. A device for preventing inadvertent contact, comprising:

the instruction generation module is used for generating a bright screen control instruction when touch operation and/or knocking operation on a screen of the wearing equipment is detected;

the detection module is used for detecting the posture information of the wearable device when a screen of the wearable device is in a black screen state and a bright screen control instruction is detected, wherein the wearable device is worn on the arm of a user; the determining module is used for determining whether a preset screen lightening condition is met or not according to the posture information;

the determining module comprises: a first condition determining unit, configured to determine that the screen-lighting condition is satisfied if it is determined that the user's arm is in a lifted state according to the posture information, and if it is determined that the screen is in a horizontal state according to the posture information;

the determining module further includes a lifting state determining unit, and the lifting state determining unit is specifically configured to:

if the included angle between the arm of the user and the positive direction of the vertical axis is detected to be changed from a first angle to a second angle according to the posture information, determining that the arm of the user has a lifting action, wherein the first angle is larger than a first angle threshold value, and the second angle is smaller than a second angle threshold value; the positive vertical axis direction comprises vertically up to horizontal;

after the user arm is determined to have a lifting action, if the fact that the angle between the user arm and the positive direction of the horizontal axis is a third angle is detected according to the posture information, the user arm is determined to be in a lifting state, wherein the third angle is smaller than a third angle threshold value; the positive horizontal axis direction includes: if the wearable device is worn on the left arm of the user, taking the face orientation of the user as a reference, and taking the horizontal right direction as the positive direction of a horizontal shaft; if the wearable device is worn on the right arm of the user, taking the face orientation of the user as a reference, and taking the horizontal left direction as the positive direction of the horizontal axis;

and the screen lightening control module is used for controlling the screen to be switched to a screen lightening state if the screen lightening condition is met.

5. The apparatus of claim 4, further comprising:

and the control black screen module is used for controlling the screen to be in a black screen state continuously if the preset bright screen condition is not met after determining whether the preset bright screen condition is met according to the posture information.

6. The apparatus of claim 4, wherein the determining module comprises:

and the second condition determining unit is used for determining that the screen lightening condition is not met if the user arm is determined not to be in the lifting state and the screen is not in the horizontal state according to the posture information.

Images