WO2015117329A1

WO2015117329A1 - Adaptive operation conversion method and device, mobile terminal and storage medium

Info

Publication number: WO2015117329A1
Application number: PCT/CN2014/087135
Authority: WO
Inventors: 马战胜
Original assignee: 中兴通讯股份有限公司
Priority date: 2014-07-29
Filing date: 2014-09-22
Publication date: 2015-08-13
Also published as: CN105320446A

Abstract

Disclosed are an adaptive operation conversion method and device, a mobile terminal and a computer storage medium. The method is applied to a mobile terminal, the front surface of the mobile terminal is provided with a touchscreen, and holding areas at two sides of the touchscreen of the mobile terminal are provided with light sensor arrays. The method comprises: respectively acquiring light data information which is detected by the light sensor arrays in the holding areas at the left side and the right side of the mobile terminal; determining a one-hand operating state of a current user according to the light data information; and enabling a corresponding one-hand operating mode according to the one-hand operating state of the current user.

Description

Adaptive operation conversion method and device, and mobile terminal and storage medium

Technical field

The present invention relates to a mobile communication terminal, and more particularly to an adaptive operation conversion method and apparatus, and a mobile terminal and a computer storage medium.

Background technique

In recent years, as mobile terminals such as mobile phones become more and more intelligent, people's lives are increasingly inseparable from the use of smart phones. At the same time, people are increasingly demanding smart phones, in addition to pursuing the diversity of mobile phone functions. In addition to sex, there is a high demand for the convenience of mobile phone operation.

According to research, about 49% of users currently use the mobile phone to operate the mobile phone by one-handed method. However, because there are certain differences between the left and right hands, the control range is different when using the left or right hand. This makes the user feel inconvenient when operating with one hand.

Summary of the invention

In order to solve the existing technical problems, an embodiment of the present invention provides an adaptive operation conversion method and apparatus, a mobile terminal, and a computer storage medium, and uses a light sensor to determine a mode of one-hand operation of the user to implement adaptive conversion, and improve the terminal. The convenience of operation enhances the user experience.

An embodiment of the present invention provides an adaptive operation conversion method, which is applied to a mobile terminal, where a front surface of the mobile terminal has a touch screen, and a holding area on both sides of the touch screen of the mobile terminal is provided with a light sensor array, and the adaptive Operation conversion methods include:

Acquiring the light data information detected by the light sensor array of the left and right holding regions of the mobile terminal;

Determining, according to the ray data information, a one-hand operation state of the current user;

The corresponding one-hand operation mode is enabled according to the one-hand operation state of the current user.

The information about the light data detected by the light sensor array of the left and right holding areas of the mobile terminal, respectively, includes:

Obtaining first ray data information in the detection range of the light sensor array of the holding area on the left side of the mobile terminal, where the first ray data information includes: the detected by the light sensor array of the holding area on the left side Light intensity values;

Obtaining second ray data information in the detection range of the light sensor array of the holding area on the right side of the mobile terminal, where the second ray data information includes: detecting the ray sensor array of the holding area on the right side Light intensity values.

The determining, according to the ray data information, the one-hand operation status of the current user, including:

Obtaining a first average value of the plurality of light intensity values detected by the light sensor array of the holding area on the left side;

Obtaining a second average value of the plurality of light intensity values detected by the light sensor array of the holding area on the right side;

If the first average value is greater than the second average value, it is determined to be a right-hand one-hand operation state, otherwise determined as a left-hand one-hand operation state.

The step of determining the one-hand operation state of the current user according to the ray data information includes:

Obtaining a third average value of the plurality of light intensity values detected by the light sensor array on the right side of the holding area at the first moment;

Obtaining a fourth average value of the plurality of light intensity values detected by the light sensor array of the holding area on the right side at a second time after the first time;

If the difference between the third average value and the fourth average value is greater than a preset value, it is determined to be a right-handed one-hand operation state, and otherwise determined as a left-hand one-hand operation state.

The method further includes:

After determining the one-hand operation state of the current user, the determined one-hand operation state of the current user is saved; and/or,

The determined one-hand operation status of the current user is sent to the corresponding application of the mobile terminal.

The enabling, according to the one-hand operation state of the current user, enabling the corresponding one-hand operation mode, including:

If the one-hand operation state of the current user is the right-hand one-hand operation state, the preset setting information of the right-hand one-hand operation mode is invoked; if the one-hand operation state of the current user is the left-hand one-hand operation state, the predefined left hand is invoked. Setting information for one-hand operation mode.

The setting information includes dial layout information.

The embodiment of the present invention further provides an adaptive operation conversion device, which is applied to a mobile terminal, where a front surface of the mobile terminal has a touch screen, and a holding area on both sides of the touch screen of the mobile terminal is provided with a light sensor array, The device includes:

The acquiring module is configured to respectively acquire the light data information detected by the light sensor array of the left and right holding regions of the mobile terminal;

a determining module, configured to determine a one-hand operation state of the current user according to the ray data information;

The execution module is configured to enable the corresponding one-hand operation mode according to the one-hand operation state of the current user.

The obtaining module includes:

a first acquiring sub-module configured to acquire first ray data information in the detection range of the light sensor array of the holding area on the left side of the mobile terminal, where the first ray data information includes: a holding area on the left side a plurality of light intensity values detected by the light sensor array;

a second acquiring sub-module configured to acquire second ray data information in the detection range of the light sensor array of the holding area on the right side of the mobile terminal, the second ray data packet Includes: Multiple light intensity values detected by the light sensor array in the grip area on the right.

The determining module includes:

a third obtaining submodule configured to obtain a first average value of the plurality of light intensity values detected by the light sensor array of the holding area on the left side;

a fourth obtaining submodule configured to obtain a second average value of the plurality of light intensity values detected by the light sensor array of the right holding region;

The first determining submodule is configured to determine that it is a right-hand one-hand operation state if the first average value is greater than the second average value, and otherwise determine a left-hand one-hand operation state.

The determining module includes:

a fifth obtaining submodule configured to obtain a third average value of the plurality of light intensity values detected by the light sensor array of the right holding region at the first moment;

a sixth obtaining submodule configured to acquire a fourth average value of the plurality of light intensity values detected by the light sensor array of the right holding region at a second time after the first time;

The second determining submodule is configured to determine that the right hand is in a one-hand operation state if the difference between the third average value and the fourth average value is greater than a preset value, and is determined to be a left-hand one-hand operation state.

Wherein, the device further comprises:

The saving module is configured to save the determined one-hand operation state of the current user after determining the one-hand operation state of the current user;

And a sending module, configured to send the determined one-hand operation status of the current user to the corresponding application of the mobile terminal.

The execution module is further configured to: if the one-hand operation state of the current user is a right-hand one-hand operation state, call the preset setting information of the right-hand one-hand operation mode; if the current user's one-hand operation state is a left-handed single In the hand operation state, the setting information of the predefined left-hand one-hand operation mode is called.

The embodiment of the invention further provides a mobile terminal, where the front side of the mobile terminal has a touch Screen, the holding area on both sides of the touch screen of the mobile terminal is provided with a light sensor array, and the mobile terminal comprises an adaptive operation switching device as described above.

The embodiment of the invention further provides a computer storage medium, wherein the computer storage medium stores computer executable instructions, and the computer executable instructions are used to execute the foregoing adaptive operation conversion method.

The beneficial effects of the above technical solutions of the embodiments of the present invention are as follows:

The adaptive operation conversion method and device, the mobile terminal and the computer storage medium of the embodiment of the present invention are provided with a light sensor array in the holding area on both sides of the touch screen of the mobile terminal, and the light sensor arrays of the holding areas on the left and right sides of the mobile terminal are obtained. The detected light data information is analyzed and determined to determine the one-hand operation state of the current user, and then the corresponding one-hand operation mode is enabled according to the one-hand operation state of the current user to implement adaptive conversion. In this way, the user can conveniently implement the operation control of the mobile terminal, thereby improving the user experience.

DRAWINGS

Figure 1 shows a schematic diagram of a right handed one-handed mobile phone;

Figure 2 is a schematic view showing the left hand one-handed operation of the mobile phone;

3 is a schematic diagram showing the steps of an adaptive operation conversion method according to an embodiment of the present invention;

4 is a schematic diagram showing the steps of application scenario 1 in the embodiment of the present invention;

FIG. 5 is a schematic diagram showing the steps of application scenario 2 in the embodiment of the present invention;

6 is a schematic diagram showing the layout of a right-handed one-hand operation mode of a dial panel in the

application scenarios

1 and 2 according to an embodiment of the present invention;

FIG. 7 is a schematic diagram showing the layout of the left-hand one-hand operation mode of the dial panel in the

application scenarios

1 and 2 according to the embodiment of the present invention;

FIG. 8 is a schematic structural diagram of an adaptive operation conversion apparatus according to an embodiment of the present invention; FIG.

FIG. 9 is a schematic diagram of a mobile terminal according to an embodiment of the present invention.

detailed description

The technical problems, the technical solutions, and the advantages of the present invention will be more clearly described in the following description.

The posture of a mobile terminal such as a mobile phone user to operate the mobile phone with one hand can be roughly divided into two types, as shown in FIG. 1 and FIG. 2: it can be clearly seen in FIG. 1 that when the user operates the mobile phone with his right hand, some areas are users during operation. Inconvenient to touch; the left-hand operation in Figure 2 shows that it is also obvious that some areas are also inconvenient for the user to access during operation.

The embodiment of the present invention provides a self-adaptive operation conversion method for a single operation mode of the existing mobile terminal, and provides an adaptive operation conversion method, and uses the light sensor to determine the mode of the user's one-hand operation to achieve self-adaptation. Sexual conversion, improve the convenience of terminal operation and enhance user experience.

As shown in FIG. 3, an embodiment of the present invention provides an adaptive operation conversion method, which is applied to a mobile terminal. As shown in FIG. 9, the front side of the mobile terminal has a touch screen 1, and the mobile terminal touch screen 1 The side holding area 2 is provided with a light sensor array, and the adaptive operation conversion method includes:

Step 11: acquiring light data information detected by the light sensor array of the left and right holding areas of the mobile terminal, respectively;

Step 12: Determine, according to the ray data information, a one-hand operation state of the current user;

In step 13, the corresponding one-hand operation mode is enabled according to the one-hand operation state of the current user.

The one-hand operation mode is divided into a left-hand one-hand operation mode and a right-hand one-hand operation mode according to the one-hand operation state of the user. The left-handed (right-handed) one-hand operation mode can be a pre-defined mode of the manufacturer, which is set according to the operating habits of most users' left-hand (right-handed), and the buttons or control buttons are set in an easily accessible area. Of course, users can also customize the settings in advance according to their own habits.

The adaptive operation conversion method of the embodiment of the present invention uses a light sensor to determine a user list. The hand-operated mode enables adaptive conversion. As shown in FIG. 1 and FIG. 2, the area held by the user on the mobile terminal is covered by the palm and the thumb, and the light in the area is significantly different from the uncovered area on the opposite side, so in step 11, In step 12, by acquiring and analyzing the light data information detected by the light sensor array of the left and right holding areas of the mobile terminal, the one-hand operation state of the current user can be determined. Then, according to step 13, the corresponding one-hand operation mode is enabled according to the one-hand operation state of the current user. In this way, the user can conveniently implement the operation control of the mobile terminal, thereby improving the user experience.

Wherein step 11 includes:

After the above steps are completed, it is necessary to analyze the obtained information to determine the one-hand operation status of the current user. As we all know, the analysis methods of light changes are various. Considering the convenience and practicability of collection and analysis, people often start from the intensity of light. In the embodiment of the present invention, the light intensity is also used to analyze the light change. Preferably, in an embodiment, the step 12 includes:

The first average value is greater than the second average value, that is, the light sensor array indicating the right holding area The acquired light is darker than the light sensor array in the left holding area to obtain the light, and it can be determined that the current user is the right-hand one-hand operation state, and vice versa, it can be determined as the left-hand one-hand operation state.

In another embodiment, step 12 includes:

By comparing whether the light intensity value on the same side has a significant change, it can be explained that the current side affects the significant change of the light intensity value due to the user's grip, thereby determining the current user's one-hand operation state, and vice versa, indicating that the current side has no The user's grip affects the apparent change in the light intensity value. The user holds the other side of the terminal and can also determine the current user's one-hand operation status.

Of course, the method for analyzing the light change by the light intensity is not limited to the above two types. The above two embodiments are only preferred implementations. For example, in the second embodiment, the light sensor of the left holding area can also be obtained. a fifth average of the plurality of light intensity values detected at the first time of the array; and a sixth average of the plurality of light intensity values detected by the light sensor array of the left hand holding region at a second time after the first time a value; if the difference between the fifth average value and the sixth average value is greater than a preset value, determining to be a left-hand one-hand operation state, otherwise determining to be a right-hand one-hand operation state. In addition, it can be implemented in many other ways, not enumerated here.

In the embodiment of the present invention, after the step 13, the adaptive operation conversion method further includes:

So, it is convenient for other application calls, other applications can display the corresponding layout according to the result. For users to use. Among them, the transmission method is also various, and is preferably transmitted in the form of a broadcast message.

After the one-hand operation state of the current user is determined, the corresponding one-hand operation mode can be enabled. Then, step 13 specifically includes:

The setting information includes dial layout information.

The setting information includes application layout information, and the one-hand operation mode can realize the layout of the application by setting the application layout information in the information, so that when the one-hand operation state of the current user is determined, only the corresponding setting information is called. To achieve the setting and display of the one-hand operation mode. Users can easily and quickly control the operation in an adaptive interface.

For example, in the setting information of the left-hand one-hand operation mode, the dial layout information is to concentrate the dial in the left area, so that when the current one-hand one-hand operation state is determined, the setting information of the left-hand one-hand operation mode is called, and the left hand is entered. In the one-hand operation mode, the dial panel will be laid out according to the layout information concentrated on the left side, as shown in FIG. 7, which is convenient for the one-hand operation of the user's left hand. Of course, the setting information includes not only the dial layout information, but also the main interface layout information, the address book layout information, and the like, which are not enumerated here.

It should be understood that although some users are accustomed to one-handed operation, many users are accustomed to using the existing operation mode. Therefore, the above adaptive operation conversion method needs to be activated after the user activates. Moreover, it is also necessary that the adaptive operation conversion is meaningful in the case where the user is using the mobile terminal. Whether the user is using the mobile phone can be judged by acquiring the lighting state of the current touch screen, or by whether the operation action on the touch screen can be detected, or of course, can be judged by other means, and will not be enumerated here.

The following describes an adaptive operation conversion method for adjusting a dial disk according to an embodiment of the present invention with reference to the accompanying drawings. Application scenario of the bureau:

Scene 1 As shown in FIG. 4, it is first determined whether the adaptive operation conversion has been activated. When the adaptive operation conversion is turned on, whether the terminal user is using the mobile phone or not by using the touch screen or other methods determines that the result is in use. After the phone, activate the adaptive operation conversion,

1. Start the light sensor array on both sides of the mobile phone to monitor the change of the light in the detection range, and record the light intensity value obtained by each light sensor; the light intensity value obtained by each light sensor in the light sensor array constitutes the light intensity Sequence value.

2. Record the light intensity sequence value of the left holding area of the mobile phone as LS, and the light intensity sequence value of the right holding area of the mobile phone is recorded as RS; when the average value of the LS is greater than the average value of the RS, the light sensor array obtains When the right side of the light is darker than the left side of the light, the mobile phone user is considered to be in the right hand one-handed operation state; otherwise, the mobile phone user is considered to be in the left hand one-handed operating state.

3. Save the judgment result in step 2 for other applications of the mobile phone; or send it to other applications in the form of a broadcast message; other applications display the corresponding layout according to the value for the user to use.

4. The dialpad module obtains the result in step 3. If the mobile phone user is in the right-hand one-hand operation state, the preset right-hand one-hand operation mode setting information can be invoked to complete the dialpad right-handed one-hand layout as shown in FIG. 6. Adaptive display; if the mobile phone user is in the left-hand one-hand operation state, the preset left-hand one-hand operation mode setting information may be invoked to complete the adaptive display of the left hand one-hand layout of the dial pad as shown in FIG. 7.

Scenario 2, as shown in FIG. 5, firstly, it is judged whether the adaptive operation conversion has been activated. When the adaptive operation conversion is turned on, whether the terminal user is using the mobile phone or not by using the touch screen or other methods determines that the result is in use. After the phone, activate the adaptive operation conversion,

2. The sequence value of the light intensity detected at the first moment of the holding area on the right side of the mobile phone is recorded as RS, and the sequence value of the light intensity detected in the second moment of the holding area on the right side of the mobile phone is recorded as RS'; The difference between the average value of RS' and the average value of RS' is greater than a preset value, that is, there is a significant change in the light intensity value at two moments, and the current user's right hand grip affects the light intensity value, and the mobile phone user is considered to be in the right-hand one-hand operation mode; Conversely, if the user currently holds the left hand and does not affect the light intensity value on the right side, the mobile phone user is considered to be in the left-hand one-hand operation mode. Of course, it is also possible to determine the one-hand operation state of the current user by comparing the changes in the light intensity values at different times on the left side.

As shown in FIG. 8, an embodiment of the present invention further provides an adaptive operation conversion apparatus, which is applied to a mobile terminal. As shown in FIG. 9, the front side of the mobile terminal has a touch screen 1, and the mobile terminal touch screen 1 The holding area 2 on both sides is provided with an array of light sensors, and the adaptive operation switching device comprises:

The obtaining module 10 is configured to respectively acquire the light data information detected by the light sensor array of the left and right holding regions of the mobile terminal;

The determining module 20 is configured to determine, according to the ray data information, a one-handed operation of the current user State of affairs

The execution module 30 is configured to enable the corresponding one-hand operation mode according to the one-hand operation state of the current user.

The obtaining module includes:

a second acquiring sub-module configured to acquire second ray data information in the detection range of the light sensor array of the holding area on the right side of the mobile terminal, where the second ray data information includes: a holding area on the right side A plurality of light intensity values detected by the light sensor array.

The determining module includes:

The determining module further includes:

The adaptive operation conversion device further includes:

The execution module is further configured to: if the one-hand operation state of the current user is a right-hand one-hand operation state, invoke setting information of a predefined right-hand one-hand operation mode; if the current user's one-hand operation state is a left-hand one-hand operation Status, the setting information of the predefined left-hand one-hand operation mode is called.

The setting information includes dial layout information.

Of course, although some users are accustomed to one-handed operation, many users are accustomed to using the existing operation mode. Therefore, the above-mentioned adaptive operation conversion device needs to be activated by the user. Moreover, it is also necessary that the adaptive operation conversion is meaningful in the case where the user is using the mobile terminal. Whether the user is using the mobile phone can be judged by acquiring the lighting state of the current touch screen, or by whether the operation action on the touch screen can be detected, or of course, can be judged by other means, and will not be enumerated here. Therefore, the adaptive operation conversion apparatus further includes an activation module configured to activate the adaptive operation conversion means in a state in which the activation operation of the user is detected and the current mobile terminal is in use.

It should be noted that the adaptive operation conversion device is a device to which the above-described adaptive operation conversion method is applied, and the implementation of the above-described adaptive operation conversion method can also achieve the same technical effect.

In an actual application, the obtaining module 10, the determining module 20, and the executing module 30 may each be a central processing unit (CPU), or a digital signal processing (DSP), or a microprocessor (MPU, Micro Processor Unit), or Field Programmable Gate Array (FPGA), etc.; the CPU, DSP, MPU, and FPGA can be built in a mobile terminal such as a mobile phone.

As shown in FIG. 9 , an embodiment of the present invention further provides a mobile terminal, where a front surface of the mobile terminal has a touch screen 1 , and a holding area 2 on both sides of the touch screen 1 of the mobile terminal is provided with a light sensor array, and the moving The terminal includes an adaptive operation conversion device as described above.

Similarly, the mobile terminal is a mobile terminal to which the above-described adaptive operation conversion method is applied, and the implementation manner of the above-described adaptive operation conversion method can also achieve the same technical effect in the mobile terminal.

The above is a preferred embodiment of the present invention, and it should be noted that those skilled in the art can also make several improvements and retouchings without departing from the principles of the present invention. It should be considered as the scope of protection of the present invention.

Industrial applicability

Claims

An adaptive operation conversion method is applied to a mobile terminal, wherein a front surface of the mobile terminal has a touch screen, and a holding area on both sides of the touch screen of the mobile terminal is provided with a light sensor array, and the method includes:

Acquiring the light data information detected by the light sensor array of the left and right holding regions of the mobile terminal;

Determining, according to the ray data information, a one-hand operation state of the current user;

The corresponding one-hand operation mode is enabled according to the one-hand operation state of the current user.
The adaptive operation conversion method according to claim 1, wherein the ray data information detected by the light sensor arrays of the left and right holding regions of the mobile terminal are respectively obtained, including:

Obtaining first ray data information in the detection range of the light sensor array of the holding area on the left side of the mobile terminal, where the first ray data information includes: the detected by the light sensor array of the holding area on the left side Light intensity values;

Obtaining second ray data information in the detection range of the light sensor array of the holding area on the right side of the mobile terminal, where the second ray data information includes: detecting the ray sensor array of the holding area on the right side Light intensity values.
The adaptive operation conversion method according to claim 2, wherein the determining the one-hand operation state of the current user according to the ray data information comprises:

Obtaining a first average value of the plurality of light intensity values detected by the light sensor array of the holding area on the left side;

Obtaining a second average value of the plurality of light intensity values detected by the light sensor array of the holding area on the right side;

If the first average value is greater than the second average value, it is determined to be a right-hand one-hand operation state, otherwise determined as a left-hand one-hand operation state.
The adaptive operation conversion method according to claim 2, wherein the determining the one-hand operation state of the current user according to the ray data information comprises:

Obtaining a third average value of the plurality of light intensity values detected by the light sensor array on the right side of the holding area at the first moment;

Obtaining a fourth average value of the plurality of light intensity values detected by the light sensor array of the holding area on the right side at a second time after the first time;

If the difference between the third average value and the fourth average value is greater than a preset value, it is determined to be a right-handed one-hand operation state, and otherwise determined as a left-hand one-hand operation state.
The adaptive operation conversion method according to claim 1, wherein the method further comprises:

After determining the one-hand operation state of the current user, the determined one-hand operation state of the current user is saved; and/or,

The determined one-hand operation status of the current user is sent to the corresponding application of the mobile terminal.
The adaptive operation conversion method according to claim 1 or 5, wherein the enabling the corresponding one-hand operation mode according to the one-hand operation state of the current user comprises:

If the one-hand operation state of the current user is the right-hand one-hand operation state, the preset setting information of the right-hand one-hand operation mode is invoked; if the one-hand operation state of the current user is the left-hand one-hand operation state, the predefined left hand is invoked. Setting information for one-hand operation mode.
The adaptive operation conversion method according to claim 6, wherein the setting information includes dial layout information.
An adaptive operation switching device is applied to a mobile terminal, wherein a front surface of the mobile terminal has a touch screen, and a holding area on both sides of the touch screen of the mobile terminal is provided with a light sensor array, and the device includes:

The acquiring module is configured to respectively acquire the light data information detected by the light sensor array of the left and right holding regions of the mobile terminal;

a determining module, configured to determine a one-hand operation state of the current user according to the ray data information;

The execution module is configured to enable the corresponding one-hand operation mode according to the one-hand operation state of the current user.
The adaptive operation conversion device according to claim 8, wherein the acquisition module comprises:

a first acquiring sub-module configured to acquire first ray data information in the detection range of the light sensor array of the holding area on the left side of the mobile terminal, where the first ray data information includes: a holding area on the left side a plurality of light intensity values detected by the light sensor array;

a second acquiring sub-module configured to acquire second ray data information in the detection range of the light sensor array of the holding area on the right side of the mobile terminal, where the second ray data information includes: a holding area on the right side A plurality of light intensity values detected by the light sensor array.
The adaptive operation conversion device according to claim 9, wherein the determining module comprises:

a third obtaining submodule configured to obtain a first average value of the plurality of light intensity values detected by the light sensor array of the holding area on the left side;

a fourth obtaining submodule configured to obtain a second average value of the plurality of light intensity values detected by the light sensor array of the right holding region;

The first determining submodule is configured to determine that it is a right-hand one-hand operation state if the first average value is greater than the second average value, and otherwise determine a left-hand one-hand operation state.
The adaptive operation conversion device according to claim 9, wherein the determining module comprises:

a fifth obtaining submodule configured to obtain a third average value of the plurality of light intensity values detected by the light sensor array of the right holding region at the first moment;

The sixth acquisition sub-module is configured to acquire the light sensor array of the right holding region at the a fourth average of the plurality of light intensity values detected at a second time after a moment;

The second determining submodule is configured to determine that the right hand is in a one-hand operation state if the difference between the third average value and the fourth average value is greater than a preset value, and is determined to be a left-hand one-hand operation state.
The adaptive operation conversion device according to claim 8, wherein the device further comprises:

The saving module is configured to save the determined one-hand operation state of the current user after determining the one-hand operation state of the current user;

And a sending module, configured to send the determined one-hand operation status of the current user to the corresponding application of the mobile terminal.
The adaptive operation conversion device according to claim 8 or 12, wherein the execution module is further configured to:

If the one-hand operation state of the current user is the right-hand one-hand operation state, the preset setting information of the right-hand one-hand operation mode is invoked; if the one-hand operation state of the current user is the left-hand one-hand operation state, the predefined left hand is invoked. Setting information for one-hand operation mode.
A mobile terminal, the front side of the mobile terminal has a touch screen, and the holding area on both sides of the touch screen of the mobile terminal is provided with a light sensor array, and the mobile terminal includes the self according to any one of claims 8 to 13 Adapt to the operation of the conversion device.
A computer storage medium having stored therein computer executable instructions for performing the adaptive operation conversion method of any one of claims 1 to 7.