CN105681553B - Handheld terminal and misoperation preventing method thereof - Google Patents

Abstract

The invention discloses a handheld terminal and a method for preventing misoperation, which are characterized in that the current operation state of the handheld terminal is judged according to current gravity sensing data acquired by a gravity sensor, and a sensing channel trigger threshold value of the handheld terminal is set according to the current operation state, namely, the function of a P-sensor is realized through the gravity sensor of the handheld terminal, and the touch sensitivity of a touch screen is flexibly adjusted, so that screen display can be accurately performed according to the use condition, an additional sensing device is not required to be additionally arranged, and the product cost is reduced.

Description

Handheld terminal and misoperation preventing method thereof

Technical Field

The invention relates to the technical field of electronic equipment, in particular to a handheld terminal and a method for preventing misoperation of the handheld terminal.

Background

In order to prevent the mobile phone from touching the ear by mistake in the call process, a touch screen is generally used to implement a P-sensor (analog distance sensor) function, specifically, an induction channel on the upper half of the touch screen is used as an inductor, a human face touches the upper half and triggers a preset number of induction channels in the call process, that is, the touch screen becomes a black screen after a preset induction channel triggering threshold is reached. However, the mobile phone is in an inclined state in the call process, the actual contact area between the touch screen and the face is small, the preset induction channel trigger threshold value is not easy to reach, and the trigger probability is low. In order to avoid such a situation, the prior art generally reduces the preset sensing channel trigger threshold, i.e. reduces the touch sensitivity of the touch screen. However, when the user needs to call the address book to find other contact numbers during the call, the touch screen is separated from the ear and the face, and the status bar of the mobile phone is pulled down.

Disclosure of Invention

In view of this, the invention provides a handheld terminal and a method for preventing misoperation thereof, which realize the function of a P-sensor through a gravity sensor of the handheld terminal, flexibly adjust the touch sensitivity of a touch screen, and thus can accurately display a screen according to the use condition.

The invention provides a method for preventing misoperation of a handheld terminal, which comprises the following steps: recording first gravity sensing data of the handheld terminal in a first operation state and second gravity sensing data of the handheld terminal in a second operation state in advance; the method comprises the steps that a started gravity sensor records current gravity sensing data of a handheld terminal; comparing the current gravity sensing data with the first gravity sensing data and the second gravity sensing data to judge the current operation state of the handheld terminal; if the current operation state is judged to be the first operation state, setting a sensing channel trigger threshold value of the handheld terminal as a first threshold value, wherein the sensing channel trigger threshold value is a judgment value for switching the handheld terminal between a black screen and a bright screen; and if the current operation state is judged to be the second operation state, setting the induction channel trigger threshold value as a second threshold value.

Optionally, the first operating state comprises a talk state and the second operating state comprises a pull-down status bar state.

Optionally, the first threshold is greater than the second threshold.

Optionally, the handheld terminal further includes an infrared distance sensor and/or a front-facing camera, and when it is determined that the current operation state of the handheld terminal is the first operation state, the method further includes: detecting by the started infrared distance sensor and/or the front camera to obtain the current distance between the handheld terminal and the face of a user; comparing the current distance with a preset distance threshold; if the current distance is greater than the preset distance threshold, the handheld terminal is changed from a black screen to a bright screen; and if the current distance is less than or equal to the preset distance threshold, the handheld terminal keeps the black screen.

Optionally, the step of comparing the current gravity sensing data with the first gravity sensing data and the second gravity sensing data to determine the current operation state of the handheld terminal includes: if the difference value between the current gravity sensing data and the first gravity sensing data is less than or equal to a first preset variable threshold, judging that the current operation state is a first operation state; and if the difference value of the current gravity sensing data and the second gravity sensing data is less than or equal to a second preset variable threshold, judging that the current operation state is a second operation state.

The invention provides a handheld terminal, which comprises a touch screen and: the base band chip is used for recording first gravity sensing data of the handheld terminal in a first operation state and second gravity sensing data of the handheld terminal in a second operation state in advance; the gravity sensor is used for recording the current gravity sensing data of the handheld terminal after being started; the baseband chip is further used for comparing the current gravity sensing data with the first gravity sensing data and the second gravity sensing data so as to judge the current operation state of the handheld terminal; if the current operation state is judged to be the first operation state, the baseband chip sets an induction channel trigger threshold value of the touch screen as a first threshold value, wherein the induction channel trigger threshold value is a judgment value for switching the touch screen between a black screen and a bright screen; and if the current operation state is judged to be the second operation state, the baseband chip sets the induction channel trigger threshold of the touch screen as a second threshold.

Optionally, the first operating state comprises a talk state and the second operating state comprises a pull-down status bar state.

Optionally, the first threshold is greater than the second threshold.

Optionally, the handheld terminal further comprises an infrared distance sensor and/or a front-facing camera, and the infrared distance sensor and/or the front-facing camera are used for detecting and obtaining the current distance between the touch screen and the face of the user after the handheld terminal is started; when the current operation state of the handheld terminal is judged to be the first operation state, the baseband chip is further used for comparing the current distance with a preset distance threshold; if the current distance is larger than the preset distance threshold, changing the touch screen from a black screen to a bright screen; and if the current distance is less than or equal to the preset distance threshold, the touch screen keeps a black screen.

Optionally, if the difference between the current gravity sensing data and the first gravity sensing data is less than or equal to a first preset variable threshold, the baseband chip determines that the current operation state is a first operation state; and if the difference value of the current gravity sensing data and the second gravity sensing data is less than or equal to a second preset variable threshold, judging that the current operation state is a second operation state.

According to the handheld terminal and the method for preventing misoperation of the handheld terminal, the current operation state of the handheld terminal is judged according to the current gravity sensing data acquired by the gravity sensor, and the sensing channel trigger threshold of the handheld terminal is set according to the current operation state, namely, the function of a P-sensor is realized through the gravity sensor of the handheld terminal, and the touch sensitivity of the handheld terminal is flexibly adjusted, so that screen display can be accurately performed according to the use condition, an additional sensing device is not required to be additionally arranged, and the product cost is reduced.

Drawings

FIG. 1 is a flowchart of a method for preventing misoperation of a handheld terminal according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a handheld terminal according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a handheld terminal according to another embodiment of the present invention;

fig. 4 is a schematic diagram of a handheld terminal in a first operating state and a second operating state according to an embodiment of the present invention.

Detailed Description

The technical solutions of the exemplary embodiments provided in the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

An embodiment of the present invention provides a method for preventing misoperation, as shown in fig. 1, based on the handheld terminal 20 shown in fig. 2, as shown in fig. 2, the handheld terminal 20 includes a touch screen 21, a gravity sensor (G-sensor)22, and a baseband chip 23. The touch panel 21 is a display device having a touch function. The baseband chip 23 is used for transmitting and receiving baseband signals transmitted by the components such as the touch screen 21 and the gravity sensor 22 to perform corresponding operations, and the baseband chip 23 may be a CTP IC (capacitive touch chip) including a CPU processor, a channel coding decoder, a modem, a digital signal processor, an interface module, and the like. The hand-held terminal 20 may further include a memory, a power supply, and other components such as a front-facing camera 24, an infrared distance sensor 25, etc., all of which are not shown.

Referring to fig. 1 and 2, the method for preventing the misoperation of the handheld terminal includes:

s11: recording first gravity sensing data of the handheld terminal in a first operation state and second gravity sensing data of the handheld terminal in a second operation state in advance;

the handheld terminal 20 of the embodiment of the present invention includes, but is not limited to, an electronic device having touch display and communication functions, such as a smart phone, a portable communication device, a PDA (Personal Digital Assistant or tablet computer), and a wearable device.

The present embodiment may acquire the first gravity sensing data in the first operation state and the second gravity sensing data in the second operation state through the gravity sensor 22 or the accelerometer built in the handheld terminal 20. The first gravity sensing data and the second gravity sensing data respectively include gravity acceleration directions of the handheld terminal 20 on an X axis, a Y axis and a Z axis in a three-dimensional rectangular coordinate system in a space and a gravity component of the handheld terminal 20 on three axes in the first operation state and the second operation state. In order to distinguish from the prior art, the embodiment of the present invention is described by taking the first operating state as the call state and the second operating state as the pull-down state bar state as an example.

In an actual application scenario, when the handheld terminal 20 is in the call state and the pull-down state bar state, the tilt state of the handheld terminal 20, that is, the tilt direction and the included angle between the tilt direction and the horizontal direction are different, so that the gravity sensing data of the handheld terminal 20 in the two states are different.

S12: the method comprises the steps that a started gravity sensor records current gravity sensing data of a handheld terminal;

during the use of the handheld terminal 20, the turned-on gravity sensor 22 detects current gravity sensing data of the handheld terminal 20 in the current operation state. Similarly, the current gravity sensing data includes the directions of the gravitational acceleration of the handheld terminal 20 in the three-dimensional rectangular coordinate system and the gravitational components in the three axes.

S13: comparing the current gravity sensing data with the first gravity sensing data and the second gravity sensing data to judge the current operation state of the handheld terminal;

s14: if the current operation state is judged to be the first operation state, setting a triggering threshold value of an induction channel of the handheld terminal as a first threshold value;

s15: and if the current operation state is judged to be the second operation state, setting the induction channel trigger threshold value as a second threshold value.

In order to better fit the actual application scenario, the process of determining whether the current operation state is the first operation state or the second operation state in this embodiment is: if the difference value of the current gravity sensing data and the first gravity sensing data is less than or equal to a first preset variable threshold, judging that the current operation state is a first operation state; and if the difference value of the current gravity sensing data and the second gravity sensing data is less than or equal to a second preset variable threshold, judging that the current operation state is a second operation state.

In view of that the gravity sensing data includes component values (for example, values of a gravity acceleration direction and a gravity component) on an X axis, a Y axis, and a Z axis, the first preset variable threshold and the second preset variable threshold should also include component values on the X axis, the Y axis, and the Z axis, and the above determining process specifically includes:

on the axis X, Y, Z, if the difference between the component value of the current gravity sensing data and the component value of the first gravity sensing data is less than or equal to the component value of the first preset variable threshold, determining that the current operation state of the handheld terminal 20 is the first operation state;

on the axis X, Y, Z, if the difference between the component value of the current gravity sensing data and the component value of the second gravity sensing data is less than or equal to the component value of the second preset variable threshold, it is determined that the current operation state of the handheld terminal 20 is the second operation state.

In the embodiment of the present invention, the sensing channel trigger threshold is a judgment value for switching the touch screen 21 of the handheld terminal 20 between a black screen and a bright screen. As shown in fig. 3, the touch screen 21 of the handheld terminal 20 includes a plurality of sensing channels 211.

As further shown in fig. 4, when it is determined that the handheld terminal 20 is in the first operating state, that is, the call state, the handheld terminal 20 is tilted and faces the face or the ear of the user, because the actual contact area between the touch screen 21 and the face or the ear is smaller, the sensing channel trigger threshold of the touch screen 21 is set to be a smaller value, that is, smaller than the sensing channel trigger threshold in the prior art, the trigger sensitivity of the touch screen 21 becomes higher, the user's face or ear only needs to contact the touch screen 21 with a smaller area, so that the touch screen 21 becomes a black screen, and in an actual scene, the handheld terminal 20 can be tilted α left and right by 30 degrees, and still can be ensured to contact the face or the ear of the user and reach the first threshold.

When the user needs to pull down the status bar to call the address book during the call, the face or ear of the user is separated from the touch screen 21, and the touch screen 21 becomes a bright screen.

When the handheld terminal 20 is determined to be in the second operation state, for example, when the handheld terminal 20 is switched from the call state to the pull-down state bar state, because the finger slides on the touch screen 21, the actual contact area between the touch screen 21 and the finger is relatively large, the sensing channel trigger threshold of the touch screen 21 is set to be larger than the sensing channel trigger threshold in the call state, that is, the second threshold is larger than the first threshold, the trigger sensitivity of the touch screen 21 becomes low at this time, and the touch screen 21 is not blackened due to the relatively large area of the finger in contact with the touch screen 21 by the user, in an actual scene, the handheld terminal 20 can be horizontally or obliquely β to be 45 degrees, and still can ensure that the contact with the finger reaches the second threshold.

Compared with the prior art, the present embodiment judges the current operating state of the handheld terminal 20 according to the current gravity sensing data acquired by the gravity sensor 22, and accordingly sets the sensing channel trigger threshold of the touch screen 21, namely, the function of the P-sensor is realized through the gravity sensor 22, and the touch sensitivity of the touch screen 21 can be flexibly adjusted, so that the screen display can be accurately performed according to the use condition, an additional sensing device does not need to be added, and the product cost is reduced.

In order to further avoid the misoperation, the embodiment of the present invention may further allow the user not to touch the face or the ear of the touch screen 21 when determining that the current operation state is the first operation state, i.e. the call state. Specifically, the turned-on infrared distance sensor 24 and/or the front camera 25 detects the current distance between the handheld terminal 20 and the face of the user; comparing the current distance with a preset distance threshold; if the current distance is greater than the preset distance threshold, the touch screen 21 is changed from a black screen to a bright screen; when the current distance is smaller than or equal to the preset distance threshold, the touch screen 21 is always a black screen, and at this time, the face or the ear of the user does not contact the touch screen 21.

It should be understood that the above-mentioned embodiments are only examples of the present invention, and not intended to limit the scope of the present invention, and all equivalent structures or equivalent flow changes made by using the contents of the present specification and the drawings, such as the combination of technical features between the embodiments, or the direct or indirect application to other related technical fields, are also included in the scope of the present invention.

Claims (4)

1. A method for preventing misoperation of a handheld terminal is characterized by comprising the following steps:

recording first gravity sensing data of the handheld terminal in a first operation state and second gravity sensing data of the handheld terminal in a second operation state in advance;

the started gravity sensor records the current gravity sensing data of the handheld terminal;

comparing the current gravity sensing data with the first gravity sensing data and the second gravity sensing data to judge the current operation state of the handheld terminal;

if the current operation state is judged to be the first operation state, setting a sensing channel trigger threshold value of the handheld terminal as a first threshold value, wherein the sensing channel trigger threshold value is a judgment value for switching the bright screen of the handheld terminal into the black screen;

if the current operation state is judged to be the second operation state, setting a sensing channel trigger threshold of the handheld terminal as a second threshold;

the first operating state comprises a call state and the second operating state comprises a pull-down status bar state;

and the first threshold is less than the second threshold.

2. The method of claim 1, wherein the step of comparing the current gravity sensing data with the first gravity sensing data and the second gravity sensing data to determine the current operating state of the handheld terminal comprises:

if the difference value between the current gravity sensing data and the first gravity sensing data is less than or equal to a first preset variable threshold, judging that the current operation state is the first operation state;

and if the difference value between the current gravity sensing data and the second gravity sensing data is less than or equal to a second preset variable threshold, judging that the current operation state is the second operation state.

3. A handheld terminal, characterized in that, the handheld terminal includes a touch screen and:

the base band chip is used for recording first gravity sensing data of the handheld terminal in a first operation state and second gravity sensing data of the handheld terminal in a second operation state in advance;

the gravity sensor is used for recording the current gravity sensing data of the handheld terminal after being started;

the baseband chip is further used for comparing the current gravity sensing data with the first gravity sensing data and the second gravity sensing data to judge the current operation state of the handheld terminal; if the current operation state is judged to be the first operation state, the baseband chip sets an induction channel trigger threshold value of the touch screen as a first threshold value, wherein the induction channel trigger threshold value is a judgment value of switching the touch screen from a bright screen to a black screen; if the current operation state is judged to be the second operation state, the baseband chip sets a triggering threshold value of an induction channel of the touch screen as a second threshold value;

the first operating state comprises a call state and the second operating state comprises a pull-down status bar state;

and the first threshold is less than the second threshold.

4. The handheld terminal according to claim 3, wherein if a difference between the current gravity sensing data and the first gravity sensing data is less than or equal to a first preset variable threshold, the baseband chip determines that the current operation state is the first operation state; and if the difference value between the current gravity sensing data and the second gravity sensing data is less than or equal to a second preset variable threshold, judging that the current operation state is the second operation state.

Images