CN104580657A - A sensor user self-configuring method, and device and mobile terminal - Google Patents

Abstract

The present invention discloses a sensor user self-configuring method. A mobile terminal obtains a configuration of the sensor by a user, and adjusts parameters of the sensor according to the user; and the mobile terminal stores the adjusted parameters of the sensor, and operates in accordance with the stored parameters of the sensor. The present invention further discloses a sensor user self-configuring device and the mobile terminal. Via the solution of the present invention, the mobile terminal allows the user to automatically set the parameters of the sensor according to own needs, thereby enabling the function of the senor of the mobile terminal to arrive at an ideal effect of the user.

Description

Sensor user self-setting method and device and mobile terminal

Technical Field

The invention relates to the field of mobile terminals, in particular to a method and a device for self-setting of a sensor user and a mobile terminal.

Background

With the popularization and rapid development of mobile terminals, the uplink and downlink data rates supported by wireless networks are improved by times, and the mobile terminals with single functions are rapidly developed in the new application field, especially in the aspect of data services. Intelligent mobile terminals have become indispensable information terminals around people, and more people replace watches, cameras and electronic books with mobile terminals. The mobile terminal is more intelligent due to the sensor technology, the distance sensor senses the distance, the screen is automatically turned off when the user answers the call, and misoperation is avoided; the light sensor adjusts the brightness of the screen according to the external light.

However, some users may wish to have a particular algorithm tailored to them, some may want to close the screen further away when they wish to make a call, and some may want to close the screen. At this time, a uniform threshold cannot meet the requirements of the user; the light sensor is similar to the above situation, and some users want to be bright and some users want to be dark under the same brightness scene.

However, currently, a common practice is to set a sensor threshold for a user to use when the mobile terminal leaves a factory, so that the limitation is large. The problem may be more serious when the consistency of the device and the assembly is poor, such as: there is no way to adapt well to some user scenarios, resulting in batch backing or user complaints.

Disclosure of Invention

The embodiment of the invention mainly aims to provide a method, a device and a mobile terminal for user self-setting of a sensor, which allow a user to set a threshold value of the sensor independently and meet different requirements of the user.

The technical scheme of the invention is realized as follows:

the embodiment of the invention provides a method for self-setting of a sensor user, which comprises the following steps:

the mobile terminal acquires the setting of a user on the sensor and adjusts the parameters of the sensor according to the setting;

and the mobile terminal stores the adjusted parameters of the sensor and operates according to the stored parameters of the sensor.

In the above scheme, the mobile terminal obtains settings of the user on the sensor as follows: the mobile terminal provides a sensor setting option for a user on an operation interface, and the setting of the user on the sensor is acquired through the interface.

In the above solution, the operation interface includes: a sensor selection menu and a set up options menu under different sensor menus.

In the foregoing solution, the operation interface further includes: password setting for the sensor.

In the above scheme, the parameters of the mobile terminal adjusting the sensor according to the setting are as follows: the mobile terminal obtains the parameters of a new sensor according to the setting of a user on the sensor and the current data detected by the sensor; wherein the parameters of the sensor are a sensor threshold and an algorithm.

In the above solution, the parameters of the sensor after storage and adjustment are as follows: the mobile terminal configures a functional entity related to the sensor in the mobile terminal according to the adjusted sensor threshold and algorithm, simulates a scene and demonstrates the scene to a user, and waits for the user to confirm whether the adjusted threshold and algorithm are stored or not; and after the user confirms the storage, the mobile terminal stores the adjusted sensor threshold value and the algorithm.

In the above solution, the mobile terminal operates according to the stored parameters of the sensor, and is configured to: the mobile terminal reads a sensor threshold value and an algorithm in the memory and acquires current data detected by the sensor; operating in conjunction with the current data and the read sensor threshold and algorithm.

The embodiment of the invention also provides a device for the user to set by the sensor, which comprises: an Application Processor (AP), memory, sensors; wherein,

the AP is used for acquiring the setting of the sensor by the user, adjusting the parameters of the sensor according to the user setting and operating according to the parameters of the sensor stored in the memory;

and the memory is used for storing the adjusted parameters of the sensor.

In the above scheme, the AP is specifically configured to adjust the sensor threshold and the algorithm according to the setting of the sensor by the user and in combination with the current data detected by the sensor.

In the above scheme, the AP is further specifically configured to configure a functional entity related to the sensor in the mobile terminal according to the adjusted sensor threshold and the algorithm, simulate a scene and demonstrate to a user, wait for the user to confirm storage, and store the user into the memory after the user confirms.

The embodiment of the invention also provides a mobile terminal which comprises the device for the user to set by the sensor.

In the above scheme, the mobile terminal further comprises a display screen and an input device; wherein,

the display screen is specifically used for displaying an operation interface, and the mobile terminal provides a sensor setting menu for a user through the operation interface;

the input device is specifically used for a user to input a password or input the setting of the sensor.

The embodiment of the invention provides a method and a device for self-setting of a sensor user and a mobile terminal, wherein the mobile terminal acquires the setting of the sensor by the user and adjusts the parameters of the sensor according to the setting; the mobile terminal stores the adjusted parameters of the sensor and operates according to the stored parameters of the sensor; therefore, the mobile terminal can adapt to the user scene well after the user independently sets the sensor, the ideal effect of the user is achieved, the user experience is improved, and the user setting process is simple and easy to operate.

Drawings

FIG. 1 is a schematic flow chart of a method for user-self-configuration of a sensor according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a sensor user self-configuration device according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a mobile terminal configured by a sensor user according to an embodiment of the present invention;

fig. 4 is a schematic flowchart of a method for user-self-configuration of a proximity sensor of a mobile terminal according to an embodiment of the present invention;

fig. 5 is a schematic flowchart illustrating a process of adjusting a proximity sensor by a mobile terminal according to a user setting according to an embodiment of the present invention;

fig. 6 is a flowchart illustrating a method for user-setting a light sensor of a mobile terminal according to an embodiment of the present invention;

fig. 7 is a schematic flowchart illustrating a process of adjusting a light sensor by a mobile terminal according to a user setting according to an embodiment of the present invention;

fig. 8 is a schematic flowchart of a method for user-setting an acceleration sensor of a mobile terminal according to an embodiment of the present invention;

fig. 9 is a schematic flowchart of a process of adjusting an acceleration sensor by a mobile terminal according to a user setting according to an embodiment of the present invention.

Detailed Description

In the embodiment of the invention, a mobile terminal acquires the setting of a user on a sensor, and adjusts the parameter of the sensor according to the user setting; and the mobile terminal stores the adjusted parameters of the sensor and operates according to the stored parameters of the sensor.

The invention is further described in detail below with reference to the figures and the specific embodiments.

The embodiment of the invention realizes a method for self-setting of a sensor user, as shown in fig. 1, the method comprises the following steps:

step 101: the mobile terminal acquires the setting of a user on a sensor;

specifically, the mobile terminal provides a sensor self-setting option for a user on an operation interface through a display screen, and the interface acquires the setting of the user on the sensor;

the sensor self-setting options include: sensor type option menus such as proximity sensors, light sensors, acceleration sensors, etc.; specific setup options menus under different types of sensor menus, for example: under a proximity sensor setting menu on an interface, the mobile terminal provides an option for setting a proper distance for a user to answer a call in a mode of a progress bar, a numerical value and the like, and the user can set a distance sensor according to the requirement of the user; the mobile terminal provides options such as setting backlight brightness, duration and the like under a specific scene for a user in a mode of a progress bar, a numerical value and the like under a light sensor setting menu, and the user can set the light sensor according to the habit requirements of the user; the mobile terminal provides options such as sensitivity setting and the like for a user in a mode of a progress bar, a numerical value and the like under an acceleration sensor setting menu, and the user can set the acceleration sensor according to the requirements of the user;

the method also comprises the following steps: before the user enters the sensor setting menu, the mobile terminal can provide the password setting function of the sensor for the user on the interface, and the user selects whether to encrypt and store the own setting; the password may be in the form of a number, a pattern, a gesture, a symbol, etc.

Step 102: the mobile terminal adjusts parameters of the sensor according to the setting;

specifically, the mobile terminal obtains a new sensor threshold and an algorithm according to the setting performed by the user under the prompt of the interface and by combining the current data detected by the sensor; for example, the threshold may be a distance value of a proximity sensor, and the algorithm may be an automatic brightness change curve of a light sensor.

Step 103: the mobile terminal stores the adjusted parameters of the sensor;

specifically, the mobile terminal configures a functional entity related to the sensor in the mobile terminal according to the adjusted sensor threshold and algorithm in step 102, simulates a scene and demonstrates to a user, waits for the user to confirm whether to store the adjusted sensor threshold and algorithm, and stores the adjusted sensor threshold and algorithm in a nonvolatile memory of the mobile terminal after the user confirms to store the adjusted sensor threshold and algorithm;

the functional entities associated with the sensors, for example: brightness regulators associated with light sensors, or display screen controllers associated with proximity sensors, etc.;

the simulation scene is as follows: for example, a user sets a new distance for closing or lighting up a screen during a call under a proximity sensor setting option, the mobile terminal simulates a call scene, and the screen is closed or lit up when the user moves the mobile terminal to the distance set by the user; other types of sensors are similar.

Step 104: the mobile terminal operates according to the stored parameters of the sensor;

the mobile terminal reads a sensor threshold and an algorithm in the memory by using a default memory reading method, and obtains current data detected by the sensor, specifically, the current data may be distance data detected by a distance sensor, light data detected by a light sensor, acceleration data detected by an acceleration sensor, and the like, and the mobile terminal operates by combining the detected current data with the read threshold and the read algorithm.

In order to implement the foregoing method, an embodiment of the present invention further provides an apparatus for user-self-setting of a sensor, as shown in fig. 2, the apparatus includes: an Application Processor (AP) 21, a memory 22, a sensor 23; wherein,

the application processor 21 is configured to obtain a setting of the sensor 23 by the user, adjust a parameter of the sensor 23 according to the user setting, and operate according to the parameter of the sensor 23 stored in the memory 22;

the memory 22 is a non-volatile memory and is used for storing the adjusted parameters of the sensor 23;

the application processor 21 is specifically configured to acquire settings of a sensor performed by a user according to an interface prompt in a current scene, and adjust a sensor threshold and an algorithm according to the settings of the user and in combination with current data detected by the sensor 23;

the application processor 21 is further configured to configure a functional entity related to the sensor in the mobile terminal according to the adjusted threshold and the algorithm, simulate a scene and demonstrate to a user, wait for the user to confirm to store, and store the functional entity in the memory 22 after the user confirms.

Based on the above device, an embodiment of the present invention further provides a mobile terminal, as shown in fig. 3, where the mobile terminal includes the device 31 shown in fig. 2, which is set by the user of any one of the above sensors;

the mobile terminal further comprises a display screen 32 and an input device 33; wherein,

the display screen 32 is specifically used for displaying an operation interface, and the mobile terminal provides a sensor setting menu for a user through the operation interface;

the input device 33 is specifically used for a user to input a password or input the setting of the sensor; the input device may be a keyboard, a touch screen, etc., for example, through which a user sets the desired effect of the sensor on the sensor setting interface.

The flow of the method for the proximity sensor user self-setting of the mobile terminal provided by the embodiment of the invention is shown in fig. 4, and comprises the following steps:

step 401: a user opens a self-setting menu of the proximity sensor;

in the step, a user enters a sensor self-setting menu on an interface, selects a proximity sensor self-setting option under the menu, and enters a proximity sensor setting menu.

Step 402: setting by a user according to the prompt;

specifically, a user sets according to prompt options under a self-setting menu of the proximity sensor; for example, the mobile terminal provides the user with the following options on the proximity sensor setting interface: a setting option of closing or opening the screen at a proper distance from the head of the mobile terminal in the call, a setting option of closing time or opening time of the screen in the call and the like;

the options can be displayed on the interface by the mobile terminal in the forms of directly inputting numerical values, adding and subtracting numerical values or dragging a progress bar and the like for the user, for example, under the option that the mobile terminal is at a proper distance from the head in a call, the user can directly input an ideal distance, for example, the screen is closed when the mobile terminal is close to the head by 5cm, the screen is lightened when the mobile terminal is 10cm away from the head, or the adding and subtracting numerical values are operated on the interface to reach the ideal values, or the progress bar is dragged to reach the ideal values; under the option of setting the screen closing or screen lighting time, the mobile terminal can also provide any form of directly inputting numerical values, adding and subtracting numerical values or dragging a progress bar and the like for the user.

Step 403: the mobile terminal adjusts a proximity sensor threshold value and an algorithm according to the setting of a user on the proximity sensor;

specifically, for example, during a call, the mobile terminal originally closes the screen at a position 10cm away from the head, and lights up the screen at a position 15cm away from the head; the user changes the original threshold value through autonomous setting, the screen of the mobile terminal is closed at a position close to the head by 5cm, the screen is lightened at a position away from the head by 10cm, and the original proximity sensor threshold value and the algorithm are adjusted by the mobile terminal according to the setting of the user to be matched with the threshold value newly set by the user.

Step 404: the mobile terminal stores the adjusted proximity sensor threshold value and algorithm;

specifically, the mobile terminal configures a functional entity related to the proximity sensor in the mobile terminal according to the distance adjusted in step 403, simulates a scene and demonstrates to a user, waits for the user to confirm storage, and stores the adjusted threshold and algorithm in a nonvolatile memory in the mobile terminal after the user confirms storage.

The process of the mobile terminal adjusting the proximity sensor according to the setting of the user provided by the embodiment of the invention is shown in fig. 5, and comprises the following steps:

step 501: the proximity sensor is turned on; for example, when the user is talking, the proximity sensor is turned on.

Step 502: the mobile terminal reads a self proximity sensor threshold value and an algorithm;

specifically, the mobile terminal reads the proximity sensor threshold and the algorithm in a default memory reading manner.

Step 503: the mobile terminal operates according to the read proximity sensor threshold value and the algorithm;

specifically, during a call, the mobile terminal turns off the screen or lights up the screen at the distance set by the user according to the proximity sensor threshold and the algorithm read in step 502, and controls the time for turning off the screen or the time for turning on the screen according to the user setting, thereby achieving the most satisfactory effect of the user.

The flow of the method for setting the light sensor of the mobile terminal by the user provided by the embodiment of the invention is shown in fig. 6, and comprises the following steps:

step 601: a user opens a light sensor self-setting menu;

in the step, a user enters a sensor self-setting menu on an interface, selects a light sensor self-setting option under the menu, and enters the light sensor setting menu.

Step 602: setting by a user according to the prompt, and adjusting the most satisfactory screen brightness value, duration and the like of the user under the light condition of the existing scene;

specifically, the mobile terminal provides setting options such as screen brightness values, duration and the like for a user on a light sensor setting interface, the setting options can be displayed on the interface in the form of progress bars, numerical values and the like for the user, and the user sets the screen brightness values, the duration and the like by dragging the progress bars or modifying the numerical values;

for example, in an office scenario, the user sets the screen brightness value to 100 lumens (lm), or in a bedroom nighttime dim condition, sets the screen brightness value to 50 lumens (lm); the user may also set the duration to a desired value.

Step 603: the method comprises the steps that a mobile terminal obtains light data of a current scene and a screen brightness value set by a user;

specifically, the mobile terminal obtains light data of a current scene detected by a light sensor of the mobile terminal and a screen brightness value set by a user in the current scene.

Step 604: the mobile terminal adjusts the threshold value and the algorithm of the light sensor according to the user setting value;

specifically, the mobile terminal modifies an automatic brightness change curve according to the light data of the current scene and the screen brightness value set by the user, so that the most satisfactory effect of the user under the specific light and scene is achieved; for example, a user sets a screen brightness value to 100 lumens in an outdoor scene, the mobile terminal obtains a new automatic brightness change curve according to the light data of the outdoor scene and the user setting value of 100 lumens, and when the mobile terminal is in an indoor dim light scene, the screen brightness value in the scene is obtained according to the current indoor light data and the automatic brightness change curve.

Step 605: the mobile terminal stores the adjusted threshold value and algorithm of the light sensor;

specifically, the mobile terminal configures a functional entity related to the light sensor in the mobile terminal according to the adjusted threshold and the adjusted algorithm, simulates a scene and demonstrates the scene to a user, waits for the user to confirm storage, and stores the adjusted threshold and the adjusted algorithm in a nonvolatile memory in the mobile terminal after the user confirms storage; for example, in an outdoor scene, the user sets the brightness value of the screen to be 100 lumens, the mobile terminal configures the functional entity related to the light sensor so that the current display brightness of the screen is 100 lumens, and if the brightness effect of 100 lumens is satisfied, the user confirms to store the adjusted threshold value and algorithm, and if the brightness effect is not satisfied, the user returns to the setting menu to reset.

The flow of adjusting the light sensor by the mobile terminal according to the setting of the user is shown in fig. 7, and includes:

step 701: the light sensor is turned on; for example, when the user sets the mobile terminal to automatically adjust the screen brightness, the light sensor is turned on.

Step 702: the mobile terminal reads a light sensor threshold value and an algorithm set by a user;

specifically, the mobile terminal reads the threshold value and the algorithm of the light sensor in the memory in a default memory reading mode.

Step 703: the mobile terminal acquires current ambient light data;

specifically, the mobile terminal obtains the detected current ambient light data from its own light sensor.

Step 704: the mobile terminal matches a light sensor threshold value and an algorithm which are set by a user according to light and a scene;

specifically, the mobile terminal matches the light sensor threshold and the algorithm read in step 702 according to the obtained current ambient light data to obtain the brightness values of the screen under the current ambient light and the scene.

Step 705: the mobile terminal operates according to the matched light sensor threshold value and algorithm;

specifically, the mobile terminal configures the related functional entities according to the matched light sensor threshold and algorithm and the obtained screen brightness value in step 704, so that the screen brightness and duration of the mobile terminal achieve the ideal effect set by the user.

The flow of the method for the acceleration sensor user self-setting of the mobile terminal provided by the embodiment of the invention is shown in fig. 8, and comprises the following steps:

step 801: a user opens an acceleration sensor self-setting menu;

in the step, a user enters a sensor self-setting menu on an interface, selects an acceleration sensor self-setting option under the menu, and enters an acceleration sensor setting menu.

Step 802: setting by a user according to the prompt;

the mobile terminal provides sensitivity setting options and the like for a user on the interface, for example, the user shakes the mobile terminal up, down, left and right according to habits to operate a graphical pointer, so that the sensitivity of the acceleration sensor is set by the user.

Step 803: the method comprises the steps that a mobile terminal obtains X \ Y \ Z axis data of an acceleration sensor of the mobile terminal;

specifically, the mobile terminal acquires data of X \ Y \ Z axes detected by the acceleration sensor of the mobile terminal when a user shakes the mobile terminal.

Step 804: the mobile terminal adjusts the threshold value and the algorithm of the acceleration sensor according to the setting of a user;

specifically, when the user shakes the mobile terminal more intensely, the mobile terminal performs weighting weakening on the X \ Y \ Z data detected in step 803; when the user shakes the mobile terminal weakly, the mobile terminal performs weighting strengthening on the detected X \ Y \ Z data; and carrying out targeted optimization according to different degrees of shaking of the user, thereby achieving the purpose of adjusting the threshold value and the algorithm of the acceleration sensor.

Step 805: the mobile terminal stores the adjusted threshold value and algorithm of the acceleration sensor;

specifically, the mobile terminal configures a functional entity related to the acceleration sensor in the mobile terminal according to the adjusted threshold value and algorithm of the acceleration sensor, simulates a scene and demonstrates the scene to a user, waits for the user to confirm storage, and stores the adjusted threshold value and algorithm into a nonvolatile memory in the mobile terminal after the user confirms storage; for example, the mobile terminal simulates a game scene according to the adjusted acceleration sensor threshold and the algorithm to give the user experience, if the user is satisfied with the set sensitivity, the storage is confirmed, and if the user is not satisfied, the mobile terminal returns to the setting menu to reset.

The flow of the mobile terminal adjusting the acceleration sensor according to the setting of the user provided by the embodiment of the present invention is shown in fig. 9, and includes:

step 901: opening an acceleration sensor; for example, the acceleration sensor is turned on when the user plays a game.

Step 902: the mobile terminal reads an acceleration sensor threshold value and an algorithm set by a user;

specifically, the mobile terminal reads the acceleration sensor threshold and the algorithm set by the user in the memory of the mobile terminal in a default memory reading mode.

Step 903: the mobile terminal operates according to the read acceleration sensor threshold value and the algorithm;

for example, when playing a game, the mobile terminal determines the sensitivity according to the acceleration sensor threshold and the algorithm set by the user, which are read in step 902, so as to achieve the most satisfactory effect of the user.

In summary, the method for the user to set the sensor autonomously provided by the embodiment of the invention fills the blank of the application of the sensor user at present, and guides the user to set the threshold and the algorithm of the sensor through the sensor setting menu, so that the user can obtain the most expected effect when using the sensor function each time, and various user experience problems caused by the fact that the sensor of the mobile terminal cannot be set autonomously are improved to a great extent. Compared with the similar system, the system has obvious advantages and advantages.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (12)

1. A method of sensor user self-setting, the method comprising:

the mobile terminal acquires the setting of a user on the sensor and adjusts the parameters of the sensor according to the setting;

and the mobile terminal stores the adjusted parameters of the sensor and operates according to the stored parameters of the sensor.

2. The method of claim 1, wherein the mobile terminal obtains user settings for the sensor as: the mobile terminal provides a sensor setting option for a user on an operation interface, and the setting of the user on the sensor is acquired through the interface.

3. The method of claim 2, wherein the operator interface comprises:

a sensor selection menu and a set up options menu under different sensor menus.

4. The method of claim 3, wherein the operator interface further comprises: password setting for the sensor.

5. The method of claim 1, wherein the mobile terminal adjusts parameters of a sensor according to the settings as:

the mobile terminal obtains the parameters of a new sensor according to the setting of a user on the sensor and the current data detected by the sensor; wherein the parameters of the sensor are a sensor threshold and an algorithm.

6. The method of claim 1, wherein the storing the adjusted sensor parameters is:

the mobile terminal configures a functional entity related to the sensor in the mobile terminal according to the adjusted sensor threshold and algorithm, simulates a scene and demonstrates the scene to a user, and waits for the user to confirm whether the adjusted threshold and algorithm are stored or not;

and after the user confirms the storage, the mobile terminal stores the adjusted sensor threshold value and the algorithm.

7. The method of claim 1, wherein the mobile terminal operates in accordance with the stored parameters of the sensors to:

the mobile terminal reads a sensor threshold value and an algorithm in the memory and acquires current data detected by the sensor; operating in conjunction with the current data and the read sensor threshold and algorithm.

8. An apparatus for sensor user self-configuration, the apparatus comprising: an Application Processor (AP), memory, sensors; wherein,

the AP is used for acquiring the setting of the sensor by the user, adjusting the parameters of the sensor according to the user setting and operating according to the parameters of the sensor stored in the memory;

and the memory is used for storing the adjusted parameters of the sensor.

9. The apparatus of claim 8, wherein the AP is specifically configured to adjust the sensor threshold and the algorithm according to the user settings of the sensor and in combination with current data detected by the sensor.

10. The apparatus of claim 9, wherein the AP is further configured to configure a functional entity associated with the sensor in the mobile terminal according to the adjusted sensor threshold and the algorithm, simulate a scene and present to the user, wait for the user to confirm to store, and store the user into the memory after confirming.

11. A mobile terminal, characterized in that it comprises means for user-self-setting of the sensor according to any of claims 8 to 10.

12. The mobile terminal of claim 11, wherein the mobile terminal further comprises a display and an input device; wherein,

the display screen is specifically used for displaying an operation interface, and the mobile terminal provides a sensor setting menu for a user through the operation interface;

the input device is specifically used for a user to input a password or input the setting of the sensor.