WO2014026513A1

WO2014026513A1 - Operation interface adjustment method and device, and mobile terminal

Info

Publication number: WO2014026513A1
Application number: PCT/CN2013/078581
Authority: WO
Inventors: 吕中雷
Original assignee: 惠州Tcl移动通信有限公司
Priority date: 2012-08-17
Filing date: 2013-07-01
Publication date: 2014-02-20
Also published as: CN102880409A; CN102880409B

Abstract

Disclosed are an operation interface adjustment method and device, and a mobile terminal. The method comprises: acquiring a first thermal sensing value of a first thermal sensing area and a second thermal sensing value of a second thermal sensing area of a screen; comparing the first thermal sensing value to the second thermal sensing value and judging the holding manner of a user according to the comparison result accordingly; and dynamically adjusting the location of an interface element in an operation interface of the screen according to the holding manner. The present invention can achieve the purpose of dynamically adjusting an operation interface.

Description

Operation interface adjustment method, device and mobile terminal

Technical field

The present invention relates to the field of mobile devices, and in particular, to an operation interface adjustment method, apparatus, and mobile terminal.

Background technique

Nowadays, the competition of mobile terminals such as mobile phones and tablet computers has become more and more fierce. The hardware configuration of mobile terminals has become one of the main standards when consumers choose mobile terminals. Because the screen size is the most intuitive hardware configuration. Therefore, mobile terminals with larger screen sizes are favored by more consumers.

However, today's screen size is too large and the operation pages tend to be right-handed, making it very inconvenient for the user to operate with the left hand. The design of the operation interface is too fixed, and it is far from being able to meet the development of the personalized design of the operation interface.

Therefore, the prior art has yet to be improved and developed.

technical problem

The technical problem to be solved by the present invention is to provide an operation interface adjustment method, device and mobile terminal for realizing the above-mentioned defects of the prior art, so as to realize the function of dynamically adjusting the operation interface.

Technical solution

An operation interface adjustment method includes: dividing the screen into the first thermal sensing according to the horizontal screen state or the vertical screen state, in a case where the screen of the mobile terminal is in a horizontal screen state or a vertical screen state And a second heat sensing area; acquiring a first heat sensing value of the first heat sensing area of the screen of the mobile terminal and a second heat sensing value of the second heat sensing area; comparing the first heat sensing value with the Determining a size of the second heat sensing value and generating a comparison result; determining a user's holding mode according to the comparison result; and dynamically adjusting a position of the interface element in the operation interface of the screen according to the holding mode; The machine mode includes a first holding mode, a second holding mode, and a third holding mode, wherein the first holding mode and the second holding mode correspond to different ones in the left handheld device and the right handheld device The third holding mode corresponds to a dual handset.

In the operation interface adjustment method of the embodiment of the present invention, the step of comparing the magnitudes of the first thermal sensing value and the second thermal sensing value and generating a comparison result includes: subtracting the first thermal sensing value The second thermal sensing value obtains a thermal sensing difference and compares the thermal sensing difference with a predetermined value to generate the comparison result.

In the operation interface adjustment method of the embodiment of the present invention, the step of comparing the magnitudes of the first thermal sensing value and the second thermal sensing value and generating a comparison result further includes: the thermal sensing difference is positive And if the thermal sensing difference is greater than the predetermined value, adjusting a position of an interface element in the operation interface according to the first holding mode; and the thermal sensing difference is negative and the thermal sensing difference is In the case where the absolute value is greater than the predetermined value, the position of the interface element in the operation interface is adjusted according to the second holding mode.

In the operation interface adjustment method of the embodiment of the present invention, the step of comparing the magnitudes of the first thermal sensing value and the second thermal sensing value and generating a comparison result further includes: determining an absolute value of the thermal sensing difference When the value is less than the predetermined value, the operation interface is adjusted according to the third holding mode as the default operation interface of the system.

An operation interface adjustment method includes: acquiring a first thermal sensing value of a first thermal sensing area of a screen of the mobile terminal and a second thermal sensing value of the second thermal sensing area; comparing the first thermal sensing value and the Determining a magnitude of the second thermal sensing value and generating a comparison result; determining a user's holding mode according to the comparison result; and dynamically adjusting a position of the interface element in the operation interface of the screen according to the holding mode.

In the operation interface adjustment method of the embodiment of the present invention, the holding mode includes a first holding mode, a second holding mode, and a third holding mode, the first holding mode and the second holding mode The method corresponds to one of the left handset and the right handset, and the third handset mode corresponds to the dual handset.

In the operation interface adjustment method of the embodiment of the present invention, the method further includes: if the screen of the mobile terminal is in a horizontal screen state or a vertical screen state, according to the horizontal screen state or the vertical screen state The screen divides the first thermal sensing zone and the second thermal sensing zone.

An operation interface adjusting device includes: a sensing value acquiring module, configured to acquire a first heat sensing value of a first heat sensing area of a screen of the mobile terminal and a second heat sensing value of the second heat sensing area; The device mode determining module is configured to compare the size of the first heat sensing value and the second heat sensing value and generate a comparison result, and is configured to determine a user's holding mode according to the comparison result; and an interface adjusting module, A position for dynamically adjusting an interface element in an operation interface of the screen according to the holding mode.

In the operation interface adjusting device of the embodiment of the present invention, the holding mode includes a first holding mode, a second holding mode, and a third holding mode, the first holding mode and the second holding machine The method corresponds to one of the left handset and the right handset, and the third handset mode corresponds to the dual handset.

In the operation interface adjusting device of the embodiment of the present invention, the holding mode determining module is further configured to: subtract the second thermal sensing value from the first thermal sensing value to obtain a thermal sensing difference value, and use the The thermal induction difference is compared to a predetermined value to generate the comparison result.

In the operation interface adjusting device of the embodiment of the present invention, the holding mode determining module is further configured to: when the thermal sensing difference is positive and the thermal sensing difference is greater than the predetermined value, according to the The first holding mode adjusts a position of the interface element in the operation interface, and is configured to be used according to the second if the thermal sensing difference is negative and the absolute value of the thermal sensing difference is greater than the predetermined value Hold the machine to adjust the position of the interface elements in the operation interface.

In the operation interface adjusting device of the embodiment of the present invention, the holding mode determining module is further configured to adjust the operation interface according to the third holding mode if the absolute value of the thermal sensing difference is less than the predetermined value It is the default operation interface of the system.

In the operation interface adjusting device of the embodiment of the present invention, the device further includes: a sensing area dividing module, configured to: according to the horizontal screen, when the screen of the mobile terminal is in a horizontal screen state or a vertical screen state The state or vertical screen state divides the screen into the first thermal sensing zone and the second thermal sensing zone.

A mobile terminal, comprising: an operation interface adjusting device, the operation interface adjusting device comprising: a sensing value acquiring module, configured to acquire a first heat sensing value and a second temperature of a first heat sensing area of a screen of the mobile terminal a second heat sensing value of the heat sensing area; a holding mode determining module, configured to compare the size of the first heat sensing value and the second heat sensing value and generate a comparison result, and is used to determine according to the comparison result a user's holding mode; and an interface adjusting module for dynamically adjusting the position of the interface element in the operation interface of the screen according to the holding mode.

In the mobile terminal of the embodiment of the present invention, the holding mode includes a first holding mode, a second holding mode, and a third holding mode, where the first holding mode and the second holding mode correspond to The left handset and the right handset are different from each other, and the third handset mode corresponds to the dual handset.

In the mobile terminal of the embodiment of the present invention, the holding mode determining module is further configured to: subtract the second thermal sensing value from the first thermal sensing value to obtain a thermal sensing difference, and use the hot sensing difference according to the heat The sensing difference is compared with a predetermined value to generate the comparison result; the holding mode determining module is further configured to: when the thermal sensing difference is positive and the thermal sensing difference is greater than the predetermined value Adjusting a position of the interface element in the operation interface according to the first holding mode, and in a case where the thermal sensing difference is negative and the absolute value of the thermal sensing difference is greater than the predetermined value, according to The second holding mode adjusts the position of the interface element in the operation interface, and is used to adjust the operation interface according to the third holding mode as the system default if the absolute value of the thermal sensing difference is less than the predetermined value. Operation interface.

In the mobile terminal of the embodiment of the present invention, the mobile terminal further includes: a sensing area dividing module, configured to: according to the horizontal screen state, when the screen of the mobile terminal is in a horizontal screen state or a vertical screen state Or the vertical screen state divides the screen into the first thermal sensing zone and the second thermal sensing zone.

Beneficial effect

The operation interface adjustment method, device and mobile terminal provided by the invention adopt the heat sensing capability of the screen to determine the current holding mode of the user, thereby realizing the dynamic change of the operation interface of the mobile terminal, and making the operation interface more intelligent. , user-friendly, user-friendly.

DRAWINGS

1 is a flow chart of a method for adjusting an operation interface provided by the present invention.

2 is a schematic structural view of an operation interface adjusting device provided by the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION

The present invention will be further described in detail below with reference to the accompanying drawings. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the following description, specific embodiments of the present invention will be described with reference to the steps and symbols of the operations performed by one or more computer/mobile devices, unless otherwise stated. Thus, it will be appreciated that these steps and operations are referred to several times as being performed by a computer/mobile device, including being manipulated by a computer/mobile device processing unit that represents an electronic signal in a structured version of the data. . This manipulation converts the data or maintains it at a location in the memory system of the computer/mobile device, which can be reconfigured or otherwise alter the operation of the computer/mobile device in a manner well known to those skilled in the art. The data structure maintained by the data is the physical location of the memory, which has specific characteristics defined by the data format. However, the principles of the present invention are described in the above text, which is not intended to be a limitation, and those skilled in the art will appreciate that the various steps and operations described below can also be implemented in hardware.

The principles of the present invention operate using many other general purpose or special purpose computing, communication environments, or configurations. Examples of computing systems, environments, and configurations that are well known for use with embodiments of the present invention may include, but are not limited to, tablets, mobile phones, personal computers, servers, multi-processor systems, microcomputer-based systems, main architectures A computer, and a distributed computing environment, including any of the above systems or devices.

The term "module" or "unit" as used herein may be referred to as a software object or exemplification executed on the computing system. The various components, modules, engines, and services described herein can be implemented as objects or processes executing on the computing system. While the systems and methods described herein are preferably implemented as software, implementation in software and hardware or hardware is also possible and contemplated.

The operation interface adjustment method and device of the embodiment of the present invention may be run in a computer/mobile device, and the computer may be a combination of one or more of a personal computer, a server, etc., and the mobile device may be a tablet. Computer, mobile phone, PDA (Personal Digital A system in which one or more of Assistant, personal digital assistant, notebook computer, and the like are combined. The computer/mobile device can include any combination of a processor, a memory, a sensor, a switching device, a power supply, a clock signal generator, an input and output device, and the like. Any combination of a processor, a memory, a sensor, a switching device, a power supply, a clock signal generator, an input/output device, and the like in the above computer/mobile device for implementing the steps and an operation interface in the operation interface adjustment method of the embodiment of the present invention Adjust the function in the device.

In this embodiment, the software program instructions corresponding to the operation interface adjusting device are stored in a memory and executed by the processor to implement process management in the operating system.

In addition, the above-mentioned memory computer readable storage medium, which may be a magnetic disk, an optical disk, or a read-only storage memory (Read-Only) Memory, ROM) or Random Access Memory (RAM).

When the user's single handset is fixed by the palm of the hand, the temperature of the tiger's mouth is much higher than that of other auxiliary supports. The invention mainly uses the thermal sensing device of the mobile terminal to sense the temperature of different positions of the mobile phone, thereby judging the user's holding mode. Is the left handset, the right handset or the dual handset, and then dynamically adjust the position of the interface elements in the operation interface according to the holding mode, so that the operation interface is suitable for the operation of the corresponding gesture. Interface elements include various function keys in the operation interface, such as menu keys, option keys, exit keys, return keys, and the like. Also includes some application open keys.

The technical solutions of the embodiments of the present invention are discussed below:

The method for adjusting an operation interface of the embodiment of the present invention includes: acquiring a first thermal sensing value of a first thermal sensing area of a screen of the mobile terminal and a second thermal sensing value of the second thermal sensing area; comparing the first thermal sensing value with Determining a size of the second thermal sensing value and generating a comparison result; determining a user's holding mode according to the comparison result; and dynamically adjusting a position of the interface element in the operation interface of the screen according to the holding mode.

In the embodiment of the present invention, the holding mode includes a first holding mode, a second holding mode, and a third holding mode, wherein the first holding mode and the second holding mode correspond to a left handheld device One of the different handsets in the right handset, the third handset mode corresponds to the dual handset.

In the embodiment of the present invention, the step of comparing the magnitudes of the first thermal sensing value and the second thermal sensing value and generating a comparison result includes: subtracting the first thermal sensing value from the second thermal The sensed value obtains a thermally induced difference value and is compared to a predetermined value based on the thermally induced difference value to generate the comparison result.

In the embodiment of the present invention, the step of comparing the magnitudes of the first thermal sensing value and the second thermal sensing value and generating a comparison result further includes: the thermal sensing difference is positive and the thermal sensing If the difference is greater than the predetermined value, adjusting the position of the interface element in the operation interface according to the first holding mode; and when the thermal sensing difference is negative and the absolute value of the thermal sensing difference is greater than In the case of the predetermined value, the position of the interface element in the operation interface is adjusted according to the second holding mode.

In the embodiment of the present invention, the step of comparing the magnitudes of the first thermal sensing value and the second thermal sensing value and generating a comparison result further includes: the absolute value of the thermal sensing difference is less than the predetermined In the case of a value, the operation interface is adjusted according to the third holding mode as the default operation interface of the system.

In the embodiment of the present invention, the method further includes: dividing the screen according to the horizontal screen state or the vertical screen state, in a case where the screen of the mobile terminal is in a horizontal screen state or a vertical screen state a heat sensing zone and the second heat sensing zone.

The operation interface adjusting device of the embodiment of the present invention includes: a sensing value acquiring module, configured to acquire a first heat sensing value of the first heat sensing area of the screen of the mobile terminal and a second heat sensing value of the second heat sensing area; a holding mode determining module, configured to compare the size of the first thermal sensing value and the second thermal sensing value, and generate a comparison result, and configured to determine a user's holding mode according to the comparison result; and an interface adjusting module And for dynamically adjusting the position of the interface element in the operation interface of the screen according to the holding mode.

In the embodiment of the present invention, the holding mode determining module is further configured to: subtract the second thermal sensing value from the first thermal sensing value to obtain a thermal sensing difference, and use the thermal sensing difference according to the thermal sensing difference. A comparison is made with a predetermined value to generate the comparison result.

In the embodiment of the present invention, the holding mode determining module is further configured to: according to the first holding mode, if the thermal sensing difference is positive and the thermal sensing difference is greater than the predetermined value Adjusting a position of the interface element in the operation interface, and adjusting the operation according to the second holding mode if the thermal sensing difference is negative and the absolute value of the thermal sensing difference is greater than the predetermined value The location of the interface elements in the interface.

In the embodiment of the present invention, the holding mode determining module is further configured to: when the absolute value of the thermal sensing difference is less than the predetermined value, adjust the operation interface according to the third holding mode as a default operation of the system. interface.

In the embodiment of the present invention, the device further includes: a sensing area dividing module, configured to: according to the horizontal screen state or the vertical screen state, when the screen of the mobile terminal is in a horizontal screen state or a vertical screen state; The screen is divided into the first thermal sensing zone and the second thermal sensing zone.

The mobile terminal of the embodiment of the present invention includes: an operation interface adjusting device, where the operating interface adjusting device includes: a sensing value acquiring module, configured to acquire a first heat sensing value of the first heat sensing region of the screen of the mobile terminal and a second heat sensing value of the second heat sensing zone; a holding mode determining module configured to compare the sizes of the first heat sensing value and the second heat sensing value and generate a comparison result, and use the comparison result according to the comparison result Determining a user's holding mode; and an interface adjusting module for dynamically adjusting the position of the interface element in the operation interface of the screen according to the holding mode.

In the embodiment of the present invention, the holding mode determining module is further configured to: subtract the second thermal sensing value from the first thermal sensing value to obtain a thermal sensing difference, and use the thermal sensing difference according to the thermal sensing difference. Comparing with a predetermined value to generate the comparison result; the holding mode determining module is further configured to: when the thermal sensing difference is positive and the thermal sensing difference is greater than the predetermined value, according to The first holding mode adjusts the position of the interface element in the operation interface, and in the case that the thermal sensing difference is negative and the absolute value of the thermal sensing difference is greater than the predetermined value, according to the Adjusting the position of the interface element in the operation interface in the second holding mode, and in the case that the absolute value of the thermal sensing difference is less than the predetermined value, adjusting the operation interface according to the third holding mode is the default operation interface of the system .

In the embodiment of the present invention, the mobile terminal further includes: a sensing area dividing module, configured to: according to the horizontal screen state or the vertical screen, if the screen of the mobile terminal is in a horizontal screen state or a vertical screen state; The state divides the screen into the first thermal sensing zone and the second thermal sensing zone.

For the above discussion, the following examples illustrate:

Please refer to FIG. 1. FIG. 1 is a flowchart of an operation interface adjustment method provided by the present invention, including the following steps:

Step S100: The mobile terminal divides the screen into two left and right heat sensing zones according to the central axis, and senses a first heat sensing value of the left heat sensing zone and a second heat sensing value of the right heat sensing zone by the heat sensing device.

Step S200: Determine a user's holding mode according to the first heat sensing value and the second heat sensing value; and dynamically adjust the position of the interface element in the operation interface according to the holding mode.

The above steps are described and described in detail by taking a mobile phone as an example.

First, the mobile phone determines whether the current screen state is a horizontal screen or a vertical screen through its own gravity sensing device, and divides the screen into regions, and divides the screen into two equal heat sensing regions according to the central axis of the screen, where The heat sensing area on the left side is the first heat sensing area, and the heat sensing area on the right side is the second heat sensing area. Then, the first heat sensing zone and the second heat sensing zone are sensed by the heat sensing device, and the heat sensing values of the two heat sensing zones are respectively obtained as a first heat sensing value and a second heat sensing value.

Since the first thermal sensing value and the second thermal sensing value respectively represent the temperatures of the two left and right thermal sensing regions, by comparing the magnitudes of the two thermal sensing values, it can be determined whether the user is a left handheld device or a right handheld device, or Handheld, and when judging the dual handset, the two thermal sensing values will be similar. Simply comparing the two thermal sensing values cannot determine whether it is a dual handheld. Therefore, the present invention sets a predetermined value, subtracts the second thermal sensing value from the first thermal sensing value to obtain a thermal sensing difference, and determines the user's holding by comparing the thermal sensing difference with the predetermined value. Machine mode.

The specific judgment method is as follows:

When the thermal sensing difference is positive and the thermal sensing difference is greater than the predetermined value, determining that the user's holding mode is the left handset, adjusting the position of the interface element in the operation interface to be suitable for left-hand operation;

When the thermal sensing difference is negative and the absolute value thereof is greater than the predetermined value, determining that the user's holding mode is the right handheld, adjusting the position of the interface element in the operation interface to suit the right hand operation;

When the absolute value of the thermal sensing difference is less than the predetermined value, it is determined that the user's holding mode is a dual handset, and the adjustment operation interface is a system default operation interface.

The predetermined value is not too large, so as not to affect the judgment of the holding mode. The following determination example is used to set the predetermined value to 0.2, but is not limited to 0.2. If the first thermal sensing value is 18.5 and the second thermal sensing value is 16.3, the thermal sensing difference between the first thermal sensing value and the second thermal sensing value is 2.2, which is positive and greater than a predetermined value of 0.2, thus determining The user's holding mode is the left handset. Adjust the interface elements in the operation interface to make it suitable for left-hand operation. For example, if the menu button of the original operation interface is on the left side of the operation interface and the exit key is on the right side of the operation interface, adjust the menu key from the left side of the operation interface to the right. On the side, the exit button is adjusted from the right side of the operation interface to the left side, and vice versa. If the first thermal sensing value is 16.5 and the second thermal sensing value is 19.3, the thermal sensing difference between the first thermal sensing value and the second thermal sensing value is -2.8, which is negative and the absolute value is greater than a predetermined value of 0.2. Therefore, it is determined that the user's holding mode is the right handset. Adjust the interface elements in the operation interface to make it suitable for left-hand operation. For example, if the menu button of the original operation interface is on the right side of the operation interface and the exit key is on the left side of the operation interface, the menu key is adjusted from the right side of the operation interface to the left. On the side, the exit button is adjusted from the left side of the operation interface to the right side, and vice versa. If the first thermal sensing value is 16.5 and the second thermal sensing value is 16.4, the thermal sensing difference between the first thermal sensing value and the second thermal sensing value is 0.1, and the absolute value is less than a predetermined value of 0.2, thereby determining the user. The holding mode is dual-handheld, and the operation interface is the default operation interface.

Through the above manner, the operation interface of the system or application can be well realized, and the interface elements in the operation interface can be dynamically and dynamically adjusted according to different ways of the user's holding, thereby providing a more convenient operation interface for the user.

Of course, the operation interface adjustment function provided by the present invention can be activated by a hot key of the mobile terminal, thereby increasing the selectivity of the user operation.

Based on the operation interface adjustment method provided by the present invention, the present invention further provides an operation interface adjustment device. As shown in FIG. 2, the device includes:

The sensing device 10 is configured to sense a first thermal sensing value of the left thermal sensing area and a second thermal sensing value of the right thermal sensing area of the mobile terminal divided by the central axis;

The holding mode determining module 20 is configured to determine the user's holding mode according to the magnitude of the first heat sensing value and the second heat sensing value sensed by the sensing device 10;

The interface adjustment module 30 is configured to dynamically adjust the position of the interface element in the operation interface according to the user's holding mode obtained by the handheld mode determination module 20.

Further, the holding mode determining module 20 is further configured to subtract the second thermal sensing value from the first thermal sensing value to obtain a thermal sensing difference, and according to the thermal sensing difference value and a predetermined value. Determine the user's holding method.

Preferably, the present invention further provides a mobile terminal, which comprises the above-mentioned operation interface adjusting device provided by the present invention.

In summary, the present invention provides an operation interface adjustment method, apparatus, and mobile terminal. The mobile terminal divides the screen into two left and right heat sensing zones according to the central axis, and senses a first heat sensing value of the left heat sensing zone and a second heat sensing value of the right heat sensing zone by the heat sensing device; according to the first heat sensing value And determining the user's holding mode according to the size of the second heat sensing value; and dynamically adjusting the position of the interface element in the operating interface according to the holding mode. The operation interface of the mobile terminal is dynamically changed according to the change of the holding mode, so as to adapt to the operation of the user's corresponding gesture, the operation interface is more intelligent and user-friendly, and the user operation is convenient.

It is to be understood that the application of the present invention is not limited to the above-described examples, and those skilled in the art can make modifications and changes in accordance with the above description, all of which are within the scope of the appended claims.

Embodiments of the invention

Industrial applicability

Sequence table free content

Claims

An operation interface adjustment method includes:

In a case where the screen of the mobile terminal is in a horizontal screen state or a vertical screen state, the screen is divided into the first heat sensing region and the second heat sensing region according to the horizontal screen state or the vertical screen state;

Obtaining a first thermal sensing value of the first thermal sensing area of the screen of the mobile terminal and a second thermal sensing value of the second thermal sensing area;

Comparing the magnitudes of the first thermal sensing value and the second thermal sensing value and generating a comparison result;

Determining the user's holding mode based on the comparison result;

Dynamically adjusting a position of an interface element in an operation interface of the screen according to the holding mode;

The holding mode includes a first holding mode, a second holding mode, and a third holding mode, and the first holding mode and the second holding mode are corresponding to the left handheld device and the right handheld device. In one case different from each other, the third holding mode corresponds to a dual handset.
The operation interface adjusting method according to claim 1, wherein the step of comparing the sizes of the first heat sensing value and the second heat sensing value and generating a comparison result comprises:

Subtracting the first thermal sensing value from the second thermal sensing value to obtain a thermal sensing difference, and comparing the thermal sensing difference with a predetermined value to generate the comparison result.
The operation interface adjusting method according to claim 2, wherein the step of comparing the magnitudes of the first heat sensing value and the second heat sensing value and generating a comparison result further comprises:

Adjusting a position of an interface element in the operation interface according to the first holding mode, in a case that the thermal sensing difference is positive and the thermal sensing difference is greater than the predetermined value;

In a case where the thermal induction difference is negative and the absolute value of the thermal induction difference is greater than the predetermined value, the position of the interface element in the operation interface is adjusted according to the second holding mode.
The operation interface adjusting method according to claim 2, wherein the step of comparing the magnitudes of the first heat sensing value and the second heat sensing value and generating a comparison result further comprises:

In the case that the absolute value of the thermal sensing difference is less than the predetermined value, the operating interface is adjusted according to the third holding mode as the default operating interface of the system.
An operation interface adjustment method includes:

Obtaining a first thermal sensing value of the first thermal sensing area of the screen of the mobile terminal and a second thermal sensing value of the second thermal sensing area;

Comparing the magnitudes of the first thermal sensing value and the second thermal sensing value and generating a comparison result;

Determining the user's holding mode based on the comparison result;

The position of the interface element in the operation interface of the screen is dynamically adjusted according to the holding mode.
The operation interface adjustment method according to claim 5, wherein the holding mode comprises a first holding mode, a second holding mode, and a third holding mode, the first holding mode and the second holding The machine mode corresponds to one of the left handset and the right handset, and the third handset mode corresponds to the dual handset.
The operation interface adjusting method according to claim 6, wherein the step of comparing the sizes of the first heat sensing value and the second heat sensing value and generating a comparison result comprises:

Subtracting the first thermal sensing value from the second thermal sensing value to obtain a thermal sensing difference, and comparing the thermal sensing difference with a predetermined value to generate the comparison result.
The operation interface adjustment method according to claim 7, wherein the step of comparing the magnitudes of the first thermal sensing value and the second thermal sensing value and generating a comparison result further comprises:

Adjusting a position of an interface element in the operation interface according to the first holding mode, in a case that the thermal sensing difference is positive and the thermal sensing difference is greater than the predetermined value;

In a case where the thermal induction difference is negative and the absolute value of the thermal induction difference is greater than the predetermined value, the position of the interface element in the operation interface is adjusted according to the second holding mode.
The operation interface adjustment method according to claim 7, wherein the step of comparing the magnitudes of the first thermal sensing value and the second thermal sensing value and generating a comparison result further comprises:

In the case that the absolute value of the thermal sensing difference is less than the predetermined value, the operating interface is adjusted according to the third holding mode as the default operating interface of the system.
The method of adjusting an operation interface according to claim 5, wherein the method further comprises:

In a case where the screen of the mobile terminal is in a landscape state or a portrait state, the screen is divided into the first thermal sensing region and the second thermal sensing region according to the horizontal screen state or the vertical screen state.
An operation interface adjusting device includes:

An inductive value acquisition module, configured to acquire a first thermal sensing value of the first thermal sensing area of the screen of the mobile terminal and a second thermal sensing value of the second thermal sensing area;

a holding mode determining module, configured to compare the size of the first thermal sensing value and the second thermal sensing value and generate a comparison result, and configured to determine a user's holding mode according to the comparison result;

An interface adjustment module is configured to dynamically adjust a position of an interface element in an operation interface of the screen according to the holding mode.
The operation interface adjusting device according to claim 11, wherein the holding mode comprises a first holding mode, a second holding mode and a third holding mode, the first holding mode and the second holding The machine mode corresponds to one of the left handset and the right handset, and the third handset mode corresponds to the dual handset.
The operation interface adjusting device according to claim 12, wherein the holding mode determining module is further configured to subtract the second thermal sensing value from the first thermal sensing value to obtain a thermal sensing difference value, and The thermal induction difference is compared to a predetermined value to generate the comparison result.
The operation interface adjusting device according to claim 13, wherein the holding mode determining module is further configured to: when the thermal sensing difference is positive and the thermal sensing difference is greater than the predetermined value, The first holding mode adjusts the position of the interface element in the operation interface, and in the case that the thermal sensing difference is negative and the absolute value of the thermal sensing difference is greater than the predetermined value, according to the The second holding mode adjusts the position of the interface elements in the operation interface.
The operation interface adjusting device according to claim 13, wherein the holding mode determining module is further configured to adjust the operation according to the third holding mode if the absolute value of the thermal sensing difference is less than the predetermined value The interface is the default operation interface of the system.
The operation interface adjusting device according to claim 11, further comprising:

a sensing area dividing module, configured to divide the screen into the first heat sensing area according to the horizontal screen state or the vertical screen state, if the screen of the mobile terminal is in a horizontal screen state or a vertical screen state The second heat sensing zone.
A mobile terminal includes:

An operation interface adjusting device, the operation interface adjusting device comprising:

An inductive value acquisition module, configured to acquire a first thermal sensing value of the first thermal sensing area of the screen of the mobile terminal and a second thermal sensing value of the second thermal sensing area;

a holding mode determining module, configured to compare the size of the first thermal sensing value and the second thermal sensing value and generate a comparison result, and configured to determine a user's holding mode according to the comparison result;

An interface adjustment module is configured to dynamically adjust a position of an interface element in an operation interface of the screen according to the holding mode.
The mobile terminal according to claim 17, wherein the holding mode comprises a first holding mode, a second holding mode and a third holding mode, the first holding mode and the second holding mode Corresponding to one of the left handset and the right handset, the third handset mode corresponds to the dual handset.
The mobile terminal according to claim 18, wherein the holding mode determining module is further configured to subtract the second thermal sensing value from the first thermal sensing value to obtain a thermal sensing difference value, and The thermal sensing difference is compared to a predetermined value to generate the comparison result;

The holding mode determining module is further configured to: adjust the interface in the operation interface according to the first holding mode, if the thermal sensing difference is positive and the thermal sensing difference is greater than the predetermined value a position of the element, and configured to adjust an interface element in the operation interface according to the second holding mode if the thermal sensing difference is negative and an absolute value of the thermal sensing difference is greater than the predetermined value The position, and the method for adjusting the operation interface according to the third holding mode to be the default operating interface of the system, in the case that the absolute value of the thermal sensing difference is less than the predetermined value.
The mobile terminal of claim 17, wherein the mobile terminal further comprises:

a sensing area dividing module, configured to divide the screen into the first heat sensing area according to the horizontal screen state or the vertical screen state, if the screen of the mobile terminal is in a horizontal screen state or a vertical screen state The second heat sensing zone.