WO2014135088A1 - Method, apparatus, and terminal for determining user operation mode on terminal - Google Patents

Abstract

A method, apparatus, and terminal for determining a user operation mode on a terminal are disclosed. The method comprises: obtaining feature information for operations a user performs on a screen; comparing the feature information to preset left-handed/right-handed operation feature information, and determining whether a first number, in the feature information, conforms to the left-handed operation feature information, and whether a second number, in the feature information, conforms to the right-handed operation feature information; determining whether the difference between the first number and the second number exceeds a number threshold; if the difference exceeds the threshold, determining that the favored operation mode of the user is the operation mode that corresponds to the larger number, wherein said operation mode comprises: a left-handed mode or a right-handed mode, the first number corresponding to the left-handed mode and the second number corresponding to the right-handed mode; and, if the current operation mode differs from the favored operation mode, changing the current operation mode. The present invention allows for intelligent determination of whether a user of a terminal favors the right hand or the left hand and allows for automatic corresponding adjustments to the system.

Description

The present invention relates to the field of communications, and in particular to a method, device, and terminal for determining a user operating mode based on a terminal. BACKGROUND With the development of science and technology, the terminal is more and more intelligent, and the screen is getting larger and larger, but since the interface display of most terminals does not distinguish whether the user is left-handed or right-handed, or partially distinguishes the display. Most of the interfaces need to be set manually, and the operation cannot fully reflect its intelligence. Moreover, the increasing size of the terminal screen also causes inconvenience to one-handed operation. Although the distinction between left and right hand habits on the interface display does not have a serious impact on the use of user functions, it is necessary to optimize the problem both in terms of intelligent development and user experience. The interface display for most terminals in the related art does not distinguish whether the user is left-handed or right-handed, or although it is capable of distinguishing but lacks intelligence, an effective solution has not been proposed yet. SUMMARY OF THE INVENTION The present invention provides a method, apparatus, and terminal for determining a user operation mode based on a terminal to solve at least the above problems. According to an aspect of the present invention, a method for determining a user operation mode based on a terminal is provided, including: acquiring feature information that a user performs a predetermined number of operations on a screen of the terminal; and the feature information and the preset left-hand operation feature information or The right hand operation feature information is compared to determine a first number of the feature information that matches the left hand operation feature information and a second number of the feature information that matches the right hand operation feature information; determining a difference between the first number and the second number If the value exceeds the threshold, if the judgment result is yes, it is determined that the operation mode that the user is accustomed to is the operation mode corresponding to the larger number of the first number and the second number, wherein the operation mode includes: Mode or right-hand mode, the first number corresponds to the left-hand mode, and the second number corresponds to the right-hand mode; when the current operating mode is different from the operating mode that the user is accustomed to, the current operating mode is changed. Preferably, acquiring feature information that the user performs a predetermined number of operations on the screen of the terminal includes: acquiring single feature information of each operation of the user on the screen; recording each individual feature information, and when the number of operations reaches a predetermined number of times, summarizing All individual feature information, get feature information. Preferably, comparing the feature information with the preset left-hand operation feature information or the right-hand operation feature information comprises: respectively, respectively, a single operation track corresponding to each single feature information in the feature information and a left-hand operation track shape preset by the system The right hand operation track shape is used for contrast recognition, wherein the left hand operation track shape belongs to one of the contents of the left hand operation feature information, and the right hand operation track shape belongs to one of the contents of the right hand operation feature information; the single operation track conforms to the left hand operation track shape. In the case where it is determined that the single feature information conforms to the left-hand operation feature information, and the count of the first number is incremented by one, and in the case that the single operation track conforms to the shape of the right-hand operation track, it is determined that the single feature information conforms to the right-hand operation feature information, and Add 1 to the count of the second number. Preferably, the method further comprises: maintaining the current operating mode if the current operating mode is the same as the operating mode that the user is accustomed to. Preferably, in a case that the current operation mode is different from the operation mode that the user is accustomed to, changing the current operation mode includes: setting the system setting and the screen display setting in the current operation mode in a case where the operation mode that the user is used to is the left-hand mode Adjust to the parameter setting for left-hand mode; adjust the system settings and screen display settings in the current operating mode to the parameter settings for right-hand mode when the user's customary operating mode is right-hand mode. According to another aspect of the present invention, a device for determining a user operation mode of a terminal is provided, which is located in a terminal, and includes: an acquiring module, configured to acquire feature information of a predetermined number of operations performed by a user on a screen of the terminal; The comparison module is configured to compare the feature information with the preset left-hand operation feature information or the right-hand operation feature information, and determine that the first number of the feature information that matches the left-hand operation feature information and the second feature that meets the right-hand operation feature information The judging module is configured to determine whether the difference between the first number and the second number exceeds a threshold value, and if the judgment result is yes, determine that the operation mode that the user is accustomed to is the first number and The larger of the second number corresponds to the operation mode, wherein the operation mode includes: a left-hand mode or a right-hand mode, the first number corresponds to the left-hand mode, and the second number corresponds to the right-hand mode; the processing module is set to be at the current When the operation mode is different from the operation mode that the user is accustomed to, the current operation mode is changed. Preferably, the obtaining module comprises: an obtaining unit, configured to acquire a single feature information of each operation of the user on the screen; a record summarizing unit configured to record each single feature information, and when the number of operations reaches a predetermined number of times, summarize all the Single feature information, and feature information is obtained. Preferably, the comparison module comprises: a comparison unit configured to compare the single operation trajectory corresponding to each individual feature information in the feature information with the left-hand operation trajectory shape and the right-hand operation trajectory shape preset by the system, wherein the left-hand operation The trajectory shape belongs to one of the contents of the left-hand operation feature information, and the right-hand operation trajectory shape belongs to one of the contents of the right-hand operation feature information; the determination of the counting unit is set to determine a single feature in the case where the single operation trajectory conforms to the shape of the left-hand operation trajectory The information conforms to the left hand operation feature information and will be the first The number of counts is incremented by one. In the case where the single operation trajectory coincides with the shape of the right-hand operation trajectory, it is determined that the single feature information conforms to the right-hand operation feature information, and the count of the second number is incremented by one. Preferably, the processing module is further arranged to maintain the current operating mode if the current operating mode is the same as the operating mode that the user is accustomed to. Preferably, the processing module comprises: an adjusting unit, configured to set the system setting and the screen display setting in the current operating mode if the current operating mode is different from the operating mode that the user is accustomed to, if the operating mode that the user is accustomed to is the left-hand mode Adjusted to apply to the parameter settings in left-hand mode. If the user is accustomed to the right-hand mode, adjust the system settings and screen display settings in the current operating mode to the parameter settings in right-hand mode. According to still another aspect of the present invention, a terminal is provided, the terminal comprising: the device for determining a user operation mode based on the terminal. According to the present invention, the manner of determining the operation mode of the user's habit is determined by comparing the feature information of the operation performed on the screen by the user multiple times with the hand operation feature information or the right hand operation feature information preset in the system, and the related manner is solved. The interface display of most terminals in the technology does not distinguish whether the user is left-handed or right-handed, or although it can distinguish but lacks intelligence, and thus can intelligently judge whether the terminal user is left-handed or right-handed, and automatically The system adjusts accordingly. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are set to illustrate,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, In the drawings: FIG. 1 is a flowchart of a method for determining a user operation mode based on a terminal according to an embodiment of the present invention; FIG. 2 is a structural block diagram of a device for determining a user operation mode based on a terminal according to an embodiment of the present invention; FIG. 4 is a schematic structural diagram of a terminal according to an embodiment of the present invention; FIG. 5 is a schematic diagram of a terminal according to an embodiment of the present invention; FIG. 5A is a schematic diagram of a terminal used in a smart terminal according to a preferred embodiment of the present invention; A general trajectory diagram 1 for right-hand operation; FIG. 5B is a general trajectory diagram 2 for a right-handed operation on a smart terminal in accordance with a preferred embodiment of the present invention; 6A is a general trajectory diagram 1 of a left-handed operation on a smart terminal according to a preferred embodiment of the present invention; FIG. 6B is a general trajectory diagram 2 of a left-handed operation on a smart terminal according to a preferred embodiment of the present invention; and FIG. 7 is A specific workflow diagram for automatically adjusting display according to operational habits in accordance with a preferred embodiment of the present invention. DETAILED DESCRIPTION OF THE INVENTION The present invention will be described in detail below with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. The invention relates to the field of intelligent terminals, which is used for autonomous detection and autonomous adjustment of an intelligent terminal system. Based on this status quo, the present invention proposes to record the user's operation characteristics on the screen on the smart machine, and utilize the difference between the left-hand operation and the right-hand operation to complete the judgment of whether the operation is left-handed or right-handed, and records the judgment. As a result, by statistic, judgment and autonomous learning of the judgment result of the record, it is analyzed whether the user is right-handed or left-handed, and then intelligently adjusts and displays the terminal system, thereby embodying the intelligence and humanization of the intelligent terminal, and improving the user experience. . The embodiment of the invention provides a method for determining a user operation mode based on a terminal. 1 is a flowchart of a method for determining a user operation mode of a terminal according to an embodiment of the present invention. As shown in FIG. 1, the method mainly includes the following steps (step S102 to step S108): Step S102: Acquire a user on a screen of the terminal. Characteristic information for performing a predetermined number of operations. Step S104, comparing the feature information with the preset left-hand operation feature information or the right-hand operation feature information, and determining the first number of the feature information that matches the left-hand operation feature information and the second number of the feature information that meets the right-hand operation feature information. . Step S106, determining whether the difference between the first number and the second number exceeds a threshold value. If the determination result is yes, determining that the operation mode that the user is accustomed to is the first number and the second number. The larger number corresponds to the operation mode, wherein the operation mode includes: a left hand mode or a right hand mode, the first number corresponds to the left hand mode, and the second number corresponds to the right hand mode. Step S108: In a case where the current operation mode is different from the operation mode that the user is accustomed to, the current operation mode is changed. Through the above various steps, the manner in which the user's habitual operation mode can be determined according to the manner in which the feature information of the operation performed by the user multiple times on the screen is compared with the hand operation feature information or the right hand operation feature information preset in the system can be performed. It is possible to intelligently judge whether the end user is left-handed or right-handed, and automatically adjust the system accordingly. In this embodiment, step S102 can be implemented in the following manner: acquiring single feature information of each operation of the user on the screen; recording each individual feature information, and summarizing all the single feature information when the number of operations reaches a predetermined number of times , get the feature information. In step S104 of the embodiment, when the feature information is compared with the preset left-hand operation feature information or the right-hand operation feature information, the following may be implemented: respectively, each single feature track corresponding to each single feature information in the feature information is respectively Comparing with the left-hand operation track shape and the right-hand operation track shape of the system preset, wherein the left-hand operation track shape belongs to one of the contents of the left-hand operation feature information, and the right-hand operation track shape belongs to one of the contents of the right-hand operation feature information; When the operation trajectory conforms to the shape of the left-hand operation trajectory, it is determined that the single feature information conforms to the left-hand operation feature information, and the count of the first number is incremented by 1, and when the single operation trajectory conforms to the shape of the right-hand operation trajectory, The single feature information conforms to the right hand operation feature information and increments the count of the second number by one. In the present embodiment, the current operation mode is maintained in the case where the current operation mode is the same as the operation mode that the user is accustomed to. In this embodiment, in the process of performing step S108, the process of changing the current operation mode may be implemented as follows: In the case that the operation mode that the user is accustomed to is the left-hand mode, the system setting and the screen display setting in the current operation mode may be set. Adjusted to apply to parameter settings in left-hand mode; In the case where the user's customary operating mode is right-hand mode, the system settings and screen display settings in the current operating mode can be adjusted to suit the parameter settings in right-hand mode. In order to facilitate the understanding of the implementation of the terminal-based user operation mode determination provided by the embodiment, the implementation process that can be adopted in practical applications is appropriately described. In practical applications, it can be implemented in the following manner: Briefly, by analyzing the user's operation on the terminal, using the difference between the left-hand operation and the right-hand operation, it is determined whether the user is using the right hand or the left hand. The operation is performed, the preliminary judgment is completed, and the judgment result is recorded and counted. When the difference in the number of records of the left and right hand operations in the record of certain statistical results exceeds the preset range (the number of left-hand operations is significantly more than the number of right-hand operations or the number of right-hand operations is significantly more than the number of left-hand operations), it can be determined that the user is accustomed to Whether it is left-handed or right-handed, intelligently switching between left and right hand system modes. Specifically, when the terminal is powered on for the first time, the display of the terminal is in the normal mode (the default mode), and the display at this time may be a right-hand mode that conforms to most users, or a mode that does not distinguish between left and right hands; When the terminal is used, normal touch, click, and screen operation will be performed on the terminal screen, and the terminal will automatically acquire and record the operation performed by the user on the screen, and judge the characteristics of the recorded user operation and the operation characteristics of the left hand and the right hand. According to the judgment result, the left hand statistics quantity or the right hand statistics quantity is counted in increments. Based on a certain number of statistics, it is finally determined whether the user is right-handed or left-handed, and then performs corresponding adjustments such as system setting and display. At the same time, in practical applications, it is necessary to combine the following aspects:

(1) The left-hand operation or the right-hand operation is judged based on the characteristics or statistical differences in the right and left hand operations and the gyro sensor-assisted judgment. Characteristics or statistical differences in so-called left and right hand operations, including differences in characteristics such as operation trajectory, shape, and starting and ending position when using left-hand or right-hand operation in an unconscious state due to physiological structures, etc. (such as left-handedness) The difference in the trajectory of the right hand on the screen) and the division of the terminal according to different principles, statistics of the statistical differences in clicks, strokes, etc. in each area (such as the central axis area of the terminal screen, the statistics fall on the screen) Touch, clicks, etc. in the left and right halves). The so-called gyro sensor for auxiliary judgment means that when one-hand operation is required, when the remote position is required to be operated by hand, the range of motion of the different positions of the mobile phone is different. For example: If the user rightly holds the machine and operates the terminal, When the phone is properly offset, the range of motion in the upper left corner will be larger than that in the lower right corner; otherwise, the range of motion in the upper right corner is larger. From this, it can be judged that the operation is performed by the left hand or the right hand.

(2) The judgment of the left-handed or the right-handed is judged based on certain statistical data. The judgment of the left-handed or right-handed is not based on a certain judgment, but is judged according to certain criteria or reference to actual test data within a certain number of statistics.

(3) System adjustments involving left and right hand differences can be automatically performed based on the judgment result. From the judgment result of obtaining the left-handed or right-handed right to the automatic adjustment of the system, the process of the judgment processing does not require the user to perform any specific or specified operation, and is completely performed automatically by the system.

(4) The system adjustment performed after judging the left and right hand mode is not limited to the display adjustment, including but not limited to the system setting that can be adjusted by the software such as interface display adjustment and dial keyboard adjustment. An embodiment of the present invention provides a device for determining a user operation mode based on a terminal, where the device is located at a terminal, and is used to implement the method for determining a user operation mode based on the terminal. 2 is a structural block diagram of a device for determining a user operation mode of a terminal according to an embodiment of the present invention. As shown in FIG. 2, the device mainly includes: an acquisition module 10, a comparison module 20, a determination module 30, and a processing module 40. The obtaining module 10 is configured to acquire feature information that the user performs a predetermined number of operations on the screen of the terminal; the comparing module 20 is connected to the acquiring module 10, and is configured to set the feature information and the preset left-hand operating feature information or the right The hand operation feature information is compared, and the first number of the feature information matching the left hand operation feature information and the second number of the feature information that meets the right hand operation feature information are determined; the determination module 30 is connected to the comparison module 20, and is set to determine Whether the difference between a number and the second number exceeds the threshold value, and if the judgment result is yes, it is determined that the operation mode that the user is accustomed to is the larger number of the first number and the second number. Corresponding operation mode, wherein the operation mode comprises: a left-hand mode or a right-hand mode, the first number corresponds to the left-hand mode, and the second number corresponds to the right-hand mode; the processing module 40 is connected to the determination module 30, and is set to be in the current operation mode In the case where the user's habitual operation mode is different, the current operation mode is changed. In the apparatus provided in this embodiment, the processing module 40 is further configured to maintain the current operating mode if the current operating mode is the same as the operating mode that the user is accustomed to. 3 is a structural block diagram of a device for determining a preferred terminal-based user operation mode according to an embodiment of the present invention. As shown in FIG. 3, in the preferred device, the obtaining module 10 includes: an obtaining unit 12 configured to acquire a user on the screen. The single feature information of each operation is performed; the record summary unit 14 is connected to the acquisition unit 12, and is configured to record each individual feature information. When the number of operations reaches a predetermined number of times, all the individual feature information is summarized to obtain the feature information. In the preferred apparatus, the comparison module 20 includes: a comparison unit 22 configured to compare and identify a single operation trajectory corresponding to each individual feature information in the feature information with a left-hand operation trajectory shape and a right-hand operation trajectory shape preset by the system Wherein, the left-hand operation track shape belongs to one of the contents of the left-hand operation feature information, and the right-hand operation track shape belongs to one of the contents of the right-hand operation feature information; the determination counting unit 24 is connected to the comparison unit 22, and is set to be in a single operation track and the left hand When the shape of the operation track is consistent, it is determined that the single feature information conforms to the left-hand operation feature information, and the count of the first number is incremented by 1. When the single operation track conforms to the shape of the right-hand operation track, it is determined that the single feature information is consistent. The right hand manipulates the feature information and increments the count of the second number by one. In this embodiment, the processing module 40 may further include: an adjusting unit 42 configured to set the current operating mode to be in a left-hand mode if the current operating mode is different from the operating mode that the user is accustomed to, in the current operating mode. The system settings and screen display settings are adjusted to suit the parameter settings in left-hand mode. If the user is accustomed to the right-hand mode, adjust the system settings and screen display settings in the current operating mode to the parameter settings for right-hand mode. . The embodiment of the invention provides a terminal. FIG. 4 is a schematic structural diagram of a terminal according to an embodiment of the present invention. As shown in FIG. 4, the terminal includes: a terminal-based user operation mode determining apparatus shown in FIG. 2 or FIG. The method and device for determining the terminal-based user operation mode provided by the above embodiment may be based on the feature information of the operation performed by the user on the screen multiple times and the hand operation feature information or the right hand preset in the system. The operation feature information is compared in a manner to determine the operation mode that the user is accustomed to, and the effect that the terminal user is used to the left hand or the right hand is intelligently determined, and the system is automatically adjusted accordingly. The implementation process of the terminal-based user operation mode determination method provided by the foregoing embodiment is described and illustrated in more detail below with reference to FIG. 5A to FIG. 7 and the preferred embodiment. In the following preferred embodiment, it is assumed that the user is accustomed to the left hand, and the initial state after the terminal is powered on is the normal (default) display mode (ie, the right-hand display is used), and the trajectory difference when the left and right hand is swiped is used to determine whether the user is left-handed or right-handed. In order to better explain, since the difference of the screen is more vivid, the difference of the trajectory when the left and right hand is screened will be described below. Of course, in the actual implementation process, all the differences in the left and right hand operations are judged to belong to the implementation of this embodiment. category. Assuming that the user unlocks and then goes to the main menu to find an application and uses the application, a series of left and right page flip operations are generated during the entire operation. The implementation process of the preferred embodiment includes the following steps:

(1) After the user unlocks, he enters the main menu (or main interface), and finds the corresponding application by performing a screen-drawing operation in the main menu (or main interface). When the user is found, a series of screens are also generated. Operation (such as e-book reading). (2) After the trajectory of each operation is recorded, it is judged according to the difference of the characteristics of the left and right hands. According to the assumption, the method used is judged to be the trajectory difference existing when the left and right hand draws the screen, that is, the left hand operation is mostly "\" in the "X". The shape (as shown in Figures 5A and 5B), and the right hand is mostly a "/" similar shape in "X" (as shown in Figures 6A and 6B). If the operation track conforms to the characteristics of the left-hand operation, it is considered that the operation is generated by the left hand, and the count of the left-hand operation is increased by 1; otherwise, it is considered to be caused by the right-hand operation, and the count of the number of right-hand operations is increased by 1. (3) After the user operation record reaches a certain number, the left hand and right hand operation counts are statistically judged. If the difference between the number of left-hand operations and the number of right-hand operations exceeds a predetermined fixed range, the user is considered to be more accustomed to using the left hand to operate; otherwise, the user is more accustomed to using the right hand to operate. The fixed number of statistics and the number of differences set in the judgment can be determined according to certain criteria or with reference to actual test data. For example, if it is judged that the number of recording operations by the practice verification statistics reaches 100 times, it is better to set the difference between the number of left-hand and right-hand operations more than 20, then if in the 100 records, it is judged that 80 times is left-hand operation. 20 times for right-handed operation, it is considered to be left-handed. If it is judged that 55 times is the left-hand operation and 45 times is the right-hand operation, it is considered that both the left and right hand operations are proficient, and the current situation can be maintained without system adjustment. After the judgment is completed, the judgment result is reported to the processing system.

(4) After the system receives the judgment result, the system adjusts accordingly. According to the assumption, here is the left-handed, you need to adjust the system to the left-handed mode. The adjustments include: Display of the system interface, such as common Press the button, confirm the button, etc. to display the left end; the left end (or right end) of the dial pad and system window display; other settings related to the left and right hands. The implementation process will be further described in detail below with reference to FIG. FIG. 7 is a specific working flowchart of automatically adjusting display according to an operating habit according to a preferred embodiment of the present invention. As shown in FIG. 7, the flow includes the following steps: Step S702, displaying a normal mode after powering on. Step S704, when the user operates the mobile phone normally, perform operations such as swiping, touching, and clicking. In step S706, the determination is made according to the difference existing in the left and right hand operations. If the left hand operation feature is met, step S708a is performed, and if the right hand operation feature is met, step S710a is performed. Step S708a, determining that the screen is a left-hand operation, and executing step S708b. In step S708b, the left-hand operation counts L=L+1, and step S712 is performed. Step S710a, determining that the screen is a right-hand operation, and executing step S710b. In step S710b, the right-hand operation counts R=+1, and step S712 is performed. In step S712, it is determined whether or not the LR ≥ number threshold is established within a certain number of statistics. If it is established, step S714a is performed, and if it is not established, step S716a is executed. In step S714a, it is determined that the left hand is used, and step S714b is performed. In step S714b, the system adjustment is performed in the left-hand mode. In step S716a, it is determined that the right hand is used, and step S716b is performed. In step S716b, the system adjustment is performed in the right-hand mode. Through the implementation of the preferred embodiment, the interface display of most terminals in the related art can well solve the problem that the user does not distinguish whether the user is left-handed or right-handed, or can distinguish but lacks intelligence, and can intelligently judge the terminal user. Left-handed or right-handed, and automatically adjust the system accordingly. It should be noted that each of the above modules can be implemented by hardware. For example: a processor, including the above modules, or each of the above modules is located in one processor. In another embodiment, software is also provided for performing the technical solutions described in the above embodiments and preferred embodiments. In another embodiment, a storage medium is provided, the software being stored, including but not limited to: an optical disk, a floppy disk, a hard disk, a rewritable memory, and the like. From the above description, it can be seen that the present invention achieves the following technical effects: the feature information according to the operation performed by the user multiple times on the screen is compared with the hand operation feature information or the right hand operation feature information preset in the system. The way to determine the user's accustomed mode of operation solves the problem that the interface display of most terminals in the related art does not distinguish whether the user is left-handed or right-handed, or can distinguish but lacks intelligence, and thus can achieve intelligence. Judging whether the end user is left-handed or right-handed, and automatically adjusts the system accordingly. Industrial Applicability According to the technical solution of the present invention, the operation mode of the user's habit can be determined according to the manner in which the feature information of the operation performed by the user on the screen is compared with the hand operation feature information or the right hand operation feature information preset in the system. The way, in turn, can intelligently determine whether the user of the terminal is left-handed or right-handed, and automatically adjusts the system accordingly. Obviously, those skilled in the art should understand that the above modules or steps of the present invention can be implemented by a general-purpose computing device, which can be concentrated on a single computing device or distributed over a network composed of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device, such that they may be stored in the storage device by the computing device and, in some cases, may be different from the order herein. The steps shown or described are performed, or they are separately fabricated into individual integrated circuit modules, or a plurality of modules or steps are fabricated as a single integrated circuit module. Thus, the invention is not limited to any specific combination of hardware and software. The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims

 Claims

A method for judging a user operation mode based on a terminal, comprising:

 Obtaining feature information that the user performs a predetermined number of operations on the screen of the terminal;

 Comparing the feature information with preset left-hand operation feature information or right-hand operation feature information, determining that the first number of the feature information that matches the left-hand operation feature information and the feature information meet the right-hand operation The second number of feature information;

 Determining whether the difference between the first number and the second number exceeds a threshold value, and if the determination result is yes, determining that the operation mode that the user is accustomed to is the first number and the a mode of operation corresponding to a larger number of the second number, where the operation mode includes: a left-hand mode or a right-hand mode, where the first number corresponds to the left-hand mode, and the second number corresponds to the Right hand mode; in the case where the current operation mode is different from the operation mode that the user is accustomed to, the current operation mode is changed.

2. The method according to claim 1, wherein acquiring feature information that the user performs a predetermined number of operations on the screen of the terminal comprises:

 Acquiring individual feature information of each operation of the user on the screen; recording each of the single feature information, and when the number of operations reaches the predetermined number of times, summarizing all the single feature information to obtain the feature information.

The method according to claim 2, wherein comparing the feature information with preset left-hand operating feature information or right-hand operating feature information comprises:

 Separating and identifying a single operation trajectory corresponding to each of the single feature information in the feature information with a left-hand operation trajectory shape and a right-hand operation trajectory shape preset by the system, wherein the left-hand operation trajectory shape belongs to a left-hand operation feature One of the contents of the information, the right hand operation track shape belongs to one of the contents of the right hand operation feature information;

Determining that the single feature information conforms to the left hand operation feature information, and adding a count of the first number to the single in the case that the single operation track conforms to the shape of the left hand operation track In a case where the operation trajectory conforms to the shape of the right-hand operation trajectory, it is determined that the single feature information conforms to the right-hand operation feature information, and the count of the second number is incremented by one. The method according to any one of claims 1 to 3, wherein the method further comprises: maintaining the current operating mode if the current operating mode is the same as the operating mode that the user is accustomed to. The method according to any one of claims 1 to 3, wherein, in a case where the current operation mode is different from the operation mode that the user is accustomed to, changing the current operation mode comprises:

 In a case where the operation mode that the user is accustomed to is the left-hand mode, the system setting and the screen display setting in the current operation mode are adjusted to be applicable to the parameter setting in the left-hand mode; In the case where the operation mode is the right-hand mode, the system settings and the screen display settings in the current operation mode are adjusted to be applicable to the parameter settings in the right-hand mode. A device for determining a user operation mode based on a terminal, located at the terminal, includes:

 Obtaining a module, configured to acquire feature information of a user performing a predetermined number of operations on a screen of the terminal; and comparing, configured to compare the feature information with preset left-hand operation feature information or right-hand operation feature information to determine the feature a first number in the information that matches the left-hand operation feature information and a second number in the feature information that matches the right-hand operation feature information;

 The determining module is configured to determine whether the difference between the first number and the second number exceeds a threshold value, and if the determination result is yes, determining that the operation mode that the user is accustomed to is the first An operation mode corresponding to a larger number of the second number, wherein the operation mode includes: a left-hand mode or a right-hand mode, the first number corresponding to the left-hand mode, and the second The number corresponds to the right hand mode;

 The processing module is configured to change the current operating mode if the current operating mode is different from the operating mode that the user is accustomed to. The device according to claim 6, wherein the obtaining module comprises:

 An obtaining unit, configured to acquire a single feature letter of each operation of the user on the screen, a recording summary unit, configured to record each of the single feature information, and when the number of operations reaches the predetermined number of times, summary All of the single feature information obtains the feature information. The device according to claim 7, wherein the comparison module comprises:

a comparison unit, configured to compare a single operation trajectory corresponding to each of the single feature information in the feature information with a left-hand operation trajectory shape and a right-hand operation trajectory shape preset by the system In addition, the left hand operation track shape belongs to one of the contents of the left hand operation feature information, and the right hand operation track shape belongs to one of the contents of the right hand operation feature information;

 Determining a counting unit, configured to determine that the single feature information conforms to the left hand operation feature information, and the count of the first number is added, in a case where the single operation track conforms to the left hand operation track shape 1. In a case that the single operation track conforms to the shape of the right-hand operation track, it is determined that the single feature information conforms to the right-hand operation feature information, and the count of the second number is incremented by one.

The apparatus according to any one of claims 6 to 8, wherein the processing module is further configured to maintain the current operation if the current operation mode is the same as the operation mode of the user's habit mode.

The apparatus according to any one of claims 6 to 8, wherein the processing module comprises:

 And an adjustment unit, configured to: if the current operation mode is different from an operation mode that the user is accustomed to, if the operation mode that the user is accustomed to is the left-hand mode, set the system setting in the current operation mode and The screen display setting is adjusted to be suitable for the parameter setting in the left-hand mode, and if the operation mode that the user is accustomed to is the right-hand mode, the system setting and the screen display setting in the current operation mode are adjusted to be applicable to the Parameter settings in right-hand mode.

A terminal comprising: the terminal-based user operation mode determining means according to any one of claims 6 to 10.