CN105791563B - Bluetooth visibility control method of mobile terminal and mobile terminal - Google Patents

Abstract

The invention discloses a Bluetooth visibility control method of a mobile terminal and the mobile terminal. The control method comprises the following steps: monitoring whether the data collected by the sensor changes; when the data collected by the sensor is monitored to be changed, further detecting whether a Bluetooth module in the mobile terminal is in an open state; and when the Bluetooth module is detected to be in the opening state, the visibility of the Bluetooth module is automatically started. Through the mode, the visibility of the Bluetooth module can be automatically controlled without entering a setting interface of the Bluetooth module, so that the experience of a user in using the mobile terminal is improved.

Description

Bluetooth visibility control method of mobile terminal and mobile terminal

Technical Field

The present invention relates to the field of mobile terminals, and in particular, to a bluetooth visibility control method for a mobile terminal and a mobile terminal.

Background

In the prior art, in order to set the visibility of the bluetooth module in the mobile terminal, a user needs to enter a setting interface of the bluetooth module and manually open the visibility of the bluetooth module. In addition, in order to save the power consumption of the mobile terminal, the visibility of the bluetooth module cannot be in an open state all the time, otherwise, the bluetooth module monitors whether other bluetooth devices are performing searching operations all the time around, and at this time, the bluetooth module needs to enter a bluetooth module setting interface to manually close the visibility of the bluetooth module.

In the prior art, the operation on the visibility of the Bluetooth module needs to enter a setting interface of the Bluetooth module, and the visibility of the Bluetooth module is manually opened or closed, so that the operation is very complicated, and the experience of a user is reduced.

Disclosure of Invention

The invention mainly solves the technical problem of providing a mobile terminal and a Bluetooth visibility control method thereof, which can automatically control the visibility of a Bluetooth module without entering a setting interface of the Bluetooth module.

In order to solve the technical problems, the invention adopts a technical scheme that: provided is a Bluetooth visibility control method of a mobile terminal, the method including: monitoring whether the data collected by the sensor changes; when the data collected by the sensor is monitored to be changed, further detecting whether a Bluetooth module in the mobile terminal is in an open state; and when the Bluetooth module is detected to be in the opening state, the visibility of the Bluetooth module is automatically started.

When the data collected by the sensor is monitored to be changed, the method further comprises the following steps: monitoring whether the variation of the data collected by the sensor meets a first preset requirement; when the fact that the variation of the data collected by the sensor meets a first preset requirement is monitored, the operation of detecting whether the Bluetooth module in the mobile terminal is in an open state is executed.

Wherein, after the step of automatically turning on visibility of the Bluetooth module, the method further comprises: starting a timer to start timing; monitoring whether the variation of the data collected by the sensor meets a second preset requirement; when the monitored variation of the data collected by the sensor does not meet a second preset requirement, further detecting whether the timing of the timer reaches a preset time; and when the timing of the timer reaches the preset time, the visibility of the Bluetooth module is automatically closed.

And when the monitored variation of the data collected by the sensor meets a second preset requirement, restarting the timer to start timing.

Wherein, the sensor is at least one of a gravity sensor, an acceleration sensor, a direction sensor and a gyroscope sensor.

In order to solve the technical problem, the invention adopts another technical scheme that: there is provided a mobile terminal including: the first monitoring module is arranged in the mobile terminal, is connected with the sensor and is used for monitoring whether the data acquired by the sensor changes or not; the detection module is arranged in the mobile terminal, is connected with the first monitoring module and is used for further detecting whether the Bluetooth module in the mobile terminal is in an open state or not when the first monitoring module monitors that the data collected by the sensor changes; and the control module is arranged in the mobile terminal, is connected with the detection module and is used for automatically starting the visibility of the Bluetooth module when the detection module detects that the Bluetooth module in the mobile terminal is in an open state.

Wherein the mobile terminal further comprises: the second monitoring module is arranged in the mobile terminal, is connected with the first monitoring module and is used for further monitoring whether the variation of the data collected by the sensor meets a first preset requirement when the first monitoring module monitors that the data collected by the sensor is changed; when the second monitoring module monitors that the variation of the data collected by the sensor meets the first preset requirement, the detection module executes the operation of detecting whether the Bluetooth module in the mobile terminal is in an open state.

Wherein the mobile terminal further comprises: the timer is arranged in the mobile terminal, is connected with the control module and is used for starting timing after the control module automatically starts the visibility of the Bluetooth module; after the timer starts to time, the second monitoring module monitors whether the variation of the data collected by the sensor meets a second preset requirement; when the variation of the data collected by the sensor monitored by the second monitoring module does not meet a second preset requirement, the timer detects whether the timing reaches a preset time; when the timer detects that the timing reaches the preset time, the control module automatically closes the visibility of the Bluetooth module.

When the variation of the data collected by the sensor monitored by the second monitoring module meets a second preset requirement, the timer restarts timing.

Wherein, the sensor is at least one of a gravity sensor, an acceleration sensor, a direction sensor and a gyroscope sensor.

The invention has the beneficial effects that: different from the situation of the prior art, the Bluetooth visibility control method of the mobile terminal and the mobile terminal provided by the invention have the advantages that whether the data collected by the monitoring sensor changes or not is judged; when the data collected by the sensor is monitored to be changed, further detecting whether a Bluetooth module in the mobile terminal is in an open state; and when the Bluetooth module is detected to be in the opening state, the visibility of the Bluetooth module is automatically started. Through the mode, the visibility of the Bluetooth module can be automatically controlled without entering a setting interface of the Bluetooth module, so that the experience of a user in using the mobile terminal is improved.

Drawings

Fig. 1 is a flowchart of a bluetooth visibility control method of a mobile terminal according to an embodiment of the present invention;

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

fig. 3 is a schematic structural diagram of a physical device of a mobile terminal according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

Fig. 1 is a flowchart of a bluetooth visibility control method of a mobile terminal according to an embodiment of the present invention. It should be noted that the method of the present invention is not limited to the flow sequence shown in fig. 1 if the results are substantially the same. As shown in fig. 1, the method comprises the steps of:

step S101: monitoring whether the data collected by the sensor changes, if so, executing the step S102, otherwise, continuing to execute the step S101.

In step S101, the sensor may be at least one of a gravity sensor, an acceleration sensor, a direction sensor, or a gyro sensor. When the sensor is a gravity sensor, the data collected by the gravity sensor is an inclination angle relative to a horizontal plane caused by gravity; when the sensor is an acceleration sensor, the data acquired by the acceleration sensor is the acceleration caused by the movement of the mobile terminal; when the sensor is a direction sensor, the data collected by the direction sensor is the rotation angle of the mobile terminal; when the sensor is a gyroscope sensor, the data acquired by the gyroscope sensor is the rotating angular speed of the mobile terminal.

Step S102: monitoring whether the variation of the data collected by the sensor meets a first preset requirement, if so, executing the step S103, otherwise, continuing to execute the step S101.

In step S102, the step of monitoring whether the variation of the data collected by the sensor meets the first predetermined requirement specifically includes: when the sensor is a gravity sensor, monitoring whether the variation of the inclination angle relative to the horizontal plane, which is acquired by the gravity sensor and is caused by gravity, exceeds a preset inclination angle threshold value; when the sensor is an acceleration sensor, monitoring whether the variation of the acceleration, which is acquired by the acceleration sensor and is caused by the motion of the mobile terminal, exceeds a preset acceleration threshold value; when the sensor is a direction sensor, monitoring whether the variation of the rotation angle of the mobile terminal acquired by the direction sensor exceeds a preset rotation angle threshold value; and when the sensor is a gyroscope sensor, monitoring whether the variation of the rotating angular speed of the mobile terminal acquired by the gyroscope sensor exceeds a preset angular speed.

For example, when the sensor is a gravity sensor, when the user changes the mobile terminal from a horizontal position to a vertical position, the amount of change in the tilt angle relative to the horizontal plane due to gravity, which is collected by the gravity sensor, exceeds a predetermined tilt angle threshold value, so that the amount of change in the data collected by the sensor satisfies a first predetermined requirement; when the sensor is an angular velocity sensor, and when a user shakes the mobile terminal left and right quickly, the variation of the acceleration, which is acquired by the acceleration sensor and is caused by the motion of the mobile terminal, exceeds a preset acceleration threshold value, so that the variation of the data acquired by the sensor meets a first preset requirement; when a user rotates the mobile terminal by a certain angle along the horizontal direction, the variation of the rotation angle of the mobile terminal acquired by the direction sensor exceeds a preset rotation angle threshold value, so that the variation of data acquired by the sensor meets a first preset requirement; when a user turns over the mobile terminal quickly, the variation of the rotating angular speed of the mobile terminal, which is acquired by the gyroscope sensor, exceeds a predetermined angular speed, so that the variation of data acquired by the sensor meets a first predetermined requirement.

Step S103: and detecting whether a Bluetooth module in the mobile terminal is in an open state, if so, executing the step S104, otherwise, executing the step S101.

Step S104: the visibility of the bluetooth module is automatically turned on.

In step S104, when the variation of the data collected by the sensor in step S102 meets the first predetermined requirement and the bluetooth module is in the open state in step S103, the visibility of the bluetooth module is automatically opened, so that the bluetooth module of the mobile terminal can be searched by the surrounding bluetooth devices, and bluetooth communication between the mobile terminal and the surrounding bluetooth devices is further implemented.

For example, when the sensor is a direction sensor, when the user rotates the mobile terminal by a certain angle, for example, 90 degrees, in the horizontal direction, so that the direction sensor detects that the rotation angle of the mobile terminal, that is, 90 degrees, is greater than a predetermined rotation angle threshold, for example, 80 degrees, at this time, if the bluetooth module is in an open state, the visibility of the bluetooth module is automatically turned on.

Step S105: the timer is started to start timing.

In step S105, after the visibility of the bluetooth module is turned on, a timer is used to automatically turn off the visibility of the bluetooth module, so as to achieve the purpose of saving power consumption of the mobile terminal.

Step S106: monitoring whether the variation of the data collected by the sensor meets a second preset condition, if so, executing step S107, otherwise, executing step S108.

In step S106, when the timer is started in step S105, the opening time for realizing the visibility of the bluetooth module can be freely controlled, and it is further monitored whether the variation amount of the data collected by the sensor satisfies a second predetermined condition.

Step S106 is similar to step S102, and for brevity, will not be described in detail here. Those skilled in the art will appreciate that the second predetermined condition in step S106 and the first predetermined condition in step S102 may be the same or different. The sensor in step S106 and the sensor in step S102 may be the same or different, for example, the sensor in step S102 and the sensor in step S106 are the same direction sensor or the sensor in step S102 is the direction sensor, and the sensor in step S106 is the gravity sensor, etc.

Step S107: the restart timer starts counting time and continues to execute step S106.

In step S107, after the timer starts to count time in step S105, if it is monitored in step S106 that the variation of the data collected by the sensor satisfies the second predetermined condition, the timer is restarted to start counting time, so that the on time of the visibility of the bluetooth module is lengthened.

For example, when the sensor in step S102 and the sensor in step S106 are both direction sensors, after the user rotates the mobile terminal by a certain angle in the horizontal direction to automatically start the visibility of the bluetooth module, before starting the timer and the timer does not reach the predetermined timing time, if the user rotates the mobile terminal by a certain angle in the horizontal direction again, so that the direction sensor in step S106 detects that the rotation angle of the mobile terminal is greater than the predetermined rotation angle threshold, the timer restarts timing, thereby implementing free control of the opening time of the visibility of the bluetooth module.

For example, when the sensor in step S102 is a direction sensor and the sensor in step S106 is a gravity sensor, after the user rotates the mobile terminal by a certain angle in the horizontal direction to automatically start the visibility of the bluetooth module, before the timer is started and does not reach the predetermined timing time, if the user changes the mobile terminal from the horizontal placement to the vertical placement so that the gravity sensor in step S106 detects that the amount of change in the inclination angle of the mobile terminal with respect to the horizontal plane due to gravity is greater than the predetermined inclination angle threshold, the timer restarts timing, thereby implementing free control of the opening time of the visibility of the bluetooth module.

Step S108: and detecting whether the timing of the timer reaches a preset time, if not, continuing to execute the step S106, otherwise, executing the step S109.

Step S109: the visibility of the bluetooth module is automatically turned off.

In step S109, when it is detected in step S108 that the count of the timer reaches a predetermined time, the visibility of the bluetooth module is automatically turned off, wherein the turn-on time of the visibility of the bluetooth module is at least the predetermined time set by the timer.

Fig. 2 is a schematic structural diagram of a mobile terminal according to an embodiment of the present invention. As shown in fig. 2, the mobile terminal includes: the system comprises a sensor 11, a first monitoring module 12, a second monitoring module 13, a detection module 14, a control module 15 and a timer 16.

The sensor 11 is used for collecting data, wherein the sensor 11 is one of a gravity sensor, an acceleration sensor, a direction sensor and a gyroscope sensor. Specifically, when the sensor 11 is a gravity sensor, the data collected by the gravity sensor is an inclination angle relative to a horizontal plane due to gravity; when the sensor 11 is an acceleration sensor, the data collected by the acceleration sensor is the acceleration caused by the movement of the mobile terminal; when the sensor 11 is a direction sensor, the data collected by the direction sensor is the rotation angle of the mobile terminal; when the sensor 11 is a gyroscope sensor, the data collected by the gyroscope sensor is the angular velocity of the rotation of the mobile terminal.

The first monitoring module 12 is disposed in the mobile terminal, connected to the sensor 11, and configured to monitor whether data collected by the sensor 11 changes.

The second monitoring module 13 is disposed in the mobile terminal, connected to the first monitoring module 12, and configured to further monitor whether a variation of the data collected by the sensor 11 meets a first predetermined requirement when the first monitoring module 12 monitors that the data collected by the sensor 11 changes.

In another aspect, the first monitoring module 12 is configured to monitor whether the mobile terminal moves, and the second monitoring module 13 is configured to monitor whether a variation range of the movement of the mobile terminal meets a predetermined requirement.

The detection module 14 is disposed in the mobile terminal, is connected to the second monitoring module 13, and is configured to further detect whether the bluetooth module in the mobile terminal is in an open state when the second monitoring module 13 monitors that a variation of data collected by the sensor 11 meets a first predetermined requirement.

The control module 15 is disposed in the mobile terminal, connected to the detection module 14, and configured to automatically start the visibility of the bluetooth module when the detection module 14 detects that the bluetooth module in the mobile terminal is in an open state.

The timer 16 is disposed in the mobile terminal, connected to the control module 15 and the second monitoring module 13, and configured to start timing after the control module 15 automatically starts visibility of the bluetooth module. After the timer 16 starts counting time, the second monitoring module 13 monitors whether the variation of the data collected by the sensor 11 meets a second predetermined requirement. When the variation of the data collected by the sensor 11 monitored by the second monitoring module 13 does not meet the second predetermined requirement, the timer 16 detects whether the timing reaches a predetermined time; when the timer 16 detects that the count reaches a predetermined time, the control module 15 automatically turns off the visibility of the bluetooth module. When the second monitoring module 13 monitors that the variation of the data collected by the sensor 11 meets the second predetermined requirement, the timer 16 restarts timing.

The sensors monitored by the second monitoring module 13 before and after the timer 16 counts time may be the same sensor or different sensors, and when the same sensor is monitored by the second monitoring module 13, the first predetermined condition and the second predetermined condition may be the same or different.

Fig. 3 is a schematic structural diagram of a physical device of a mobile terminal according to an embodiment of the present invention, which can perform the steps of the method, and for related contents, reference is made to the detailed description of the method, which is not repeated herein.

The device includes: a sensor 21, a timer 22, a processor 23, a memory 24 coupled to the processor 23. Wherein, the processor 21 is connected with the sensor 21 and the timer 22 respectively.

The memory 24 is used for storing data collected by the sensor 21.

The processor 23 is used for monitoring whether the data collected by the sensor 21 changes; when the data collected by the sensor 21 is monitored to be changed, whether a Bluetooth module in the mobile terminal is in an open state is further detected; and when the Bluetooth module is detected to be in the opening state, the visibility of the Bluetooth module is automatically started.

The processor 23 is further configured to, when it is monitored that the data collected by the sensor 21 changes, further monitor whether the change amount of the data collected by the sensor meets a first predetermined requirement; when the processor 23 monitors that the variation of the data collected by the sensor 21 meets the first predetermined requirement, the operation of detecting whether the bluetooth module in the mobile terminal is in an open state is performed.

After the processor 23 automatically starts the visibility of the bluetooth module, the processor 23 is further configured to start a timer to start timing; monitoring whether the variation of the data collected by the sensor 21 meets a second preset requirement; when the monitored variation of the data collected by the sensor 21 does not meet the second predetermined requirement, further detecting whether the timing of the timer 22 reaches a predetermined time; when the timer 22 is detected to count for a predetermined time, the visibility of the bluetooth module is automatically turned off.

Wherein, the processor 23 is further configured to restart the timer 22 to start timing when it is monitored that the variation of the data collected by the sensor 21 meets the second predetermined requirement.

The sensor 21 is at least one of a gravity sensor, an acceleration sensor, a direction sensor, and a gyro sensor.

The invention has the beneficial effects that: different from the situation of the prior art, the Bluetooth visibility control method of the mobile terminal and the mobile terminal provided by the invention have the advantages that whether the data collected by the monitoring sensor changes or not is judged; when the data collected by the sensor is monitored to be changed, further detecting whether a Bluetooth module in the mobile terminal is in an open state; and when the Bluetooth module is detected to be in the opening state, the visibility of the Bluetooth module is automatically started. Through the mode, the visibility of the Bluetooth module can be automatically controlled without entering a setting interface of the Bluetooth module, so that the experience of a user in using the mobile terminal is improved.

In the several embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules or units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification, or applied to other related technical fields directly or indirectly, are included in the scope of the present invention.

Claims (4)

1. A Bluetooth visibility control method of a mobile terminal, the method comprising:

monitoring whether the variation of the data collected by the sensor meets a first preset requirement;

when the monitored variation of the data collected by the sensor meets a first preset requirement, executing an operation of detecting whether a Bluetooth module in the mobile terminal is in an open state;

when the Bluetooth module is detected to be in an open state, automatically starting the visibility of the Bluetooth module;

starting a timer to start timing;

monitoring whether the variation of the data collected by the sensor meets a second preset requirement;

when the monitored variation of the data collected by the sensor does not meet a second preset requirement, further detecting whether the timing of the timer reaches a preset time;

when the timer is detected to count for a preset time, the visibility of the Bluetooth module is automatically closed;

and when the monitored variation of the data collected by the sensor meets a second preset requirement, restarting the timer to start timing.

2. The control method according to claim 1, wherein the sensor is at least one of a gravity sensor, an acceleration sensor, a direction sensor, and a gyro sensor.

3. A mobile terminal, characterized in that the mobile terminal comprises:

the first monitoring module is arranged in the mobile terminal, is connected with the sensor and is used for monitoring whether the data acquired by the sensor changes or not;

the detection module is arranged in the mobile terminal, is connected with the first monitoring module and is used for further detecting whether the Bluetooth module in the mobile terminal is in an open state or not when the first monitoring module monitors that the data collected by the sensor changes;

the control module is arranged in the mobile terminal, is connected with the detection module and is used for automatically starting the visibility of the Bluetooth module when the detection module detects that the Bluetooth module in the mobile terminal is in an open state;

the second monitoring module is arranged in the mobile terminal, is connected with the first monitoring module and is used for further monitoring whether the variation of the data collected by the sensor meets a first preset requirement when the first monitoring module monitors that the data collected by the sensor is changed;

when the second monitoring module monitors that the variation of the data collected by the sensor meets a first preset requirement, the detection module executes an operation of detecting whether a Bluetooth module in the mobile terminal is in an open state;

the timer is arranged in the mobile terminal, is connected with the control module and is used for starting timing after the control module automatically starts the visibility of the Bluetooth module;

after the timer starts to time, the second monitoring module monitors whether the variation of the data collected by the sensor meets a second preset requirement;

when the variation of the data collected by the sensor monitored by the second monitoring module does not meet a second preset requirement, the timer detects whether the timing reaches a preset time;

when the timer detects that the timing reaches the preset time, the control module automatically closes the visibility of the Bluetooth module;

and when the second monitoring module monitors that the variation of the data collected by the sensor meets a second preset requirement, the timer restarts timing.

4. The mobile terminal of claim 3, wherein the sensor is at least one of a gravity sensor, an acceleration sensor, a direction sensor, and a gyroscope sensor.

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