CN105635476A

CN105635476A - Method and device for regulating and controlling mobile terminal position and determining placement angle value and terminal

Info

Publication number: CN105635476A
Application number: CN201610023969.XA
Authority: CN
Inventors: 蒋世民; 刘文杰; 吴丕和; 林华秋; 张强; 雷辉
Original assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Current assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority date: 2016-01-13
Filing date: 2016-01-13
Publication date: 2016-06-01
Anticipated expiration: 2036-01-13
Also published as: CN105635476B

Abstract

The invention discloses a method and a device for regulating and controlling a mobile terminal position and determining a placement angle value and a terminal. The method for regulating and controlling the mobile terminal position comprises the following steps: after a rotating device establishes a communication connection with a mobile terminal, receiving a rotating instruction sent by the mobile terminal, and controlling a rotating unit of the rotating device to rotate according to the rotating instruction to drive the mobile terminal to rotate at the same time; receiving an optimal rotation angle value sent by the mobile terminal; and controlling the rotating unit to rotate according to the optimal rotation angle value, thus allowing the mobile terminal to rotate to a position corresponding to the optimal rotation angle value. The method is used for automatically regulating the placement position of the mobile terminal, confirming the placement position of the mobile terminal when receiving an optimal satellite signal strength value, and guaranteeing the improvement of satellite signal receiving quality of the mobile terminal and the improvement of the GPS working performance of the mobile terminal.

Description

Method, device and terminal for regulating and controlling position of mobile terminal and determining placement angle value

Technical Field

The embodiment of the invention relates to the field of mobile terminals, in particular to a method, a device and a terminal for regulating and controlling the position of a mobile terminal and determining a placement angle value.

Background

The vehicle-mounted positioning navigation function is powerful, and to the user of driving mostly, the vehicle-mounted positioning navigation product has become the necessary driving appurtenance, but the map update in many vehicle-mounted positioning navigation products is inconvenient, and in addition, the function in many vehicle-mounted positioning navigation products is all the charge, and user experience is poor.

Along with the wide application and development innovation of the mobile terminals, many mobile terminals have the intelligent characteristic, can be used as a navigator for navigation, and compared with vehicle navigation products used by users, the electronic map integrated in the mobile terminal is easy to update, free to use and powerful in function, so that more convenience is brought to driving users. The mobile terminal can be used as a navigator for navigation, and the aim of positioning and navigation is achieved mainly by means of a GPS system integrated in the mobile terminal and by means of receiving satellite signals through a GPS antenna.

Because the mobile terminal has the limitations of self shape and physical size, the limitation of receiving satellite signals of a GPS antenna in the mobile terminal is limited, so that the mobile terminal can better receive the satellite signals only in a specific direction and can not receive the satellite signals in all directions without dead angles, and the positioning and navigation performances of the mobile terminal are further influenced.

Disclosure of Invention

The invention aims to provide a method, a device and a terminal for regulating and controlling the position of a mobile terminal and determining a placement angle value, so as to realize automatic regulation and control of the rotation position of the mobile terminal, improve the quality of satellite signals received by the mobile terminal and further improve the GPS working performance of the mobile terminal.

In a first aspect, an embodiment of the present invention provides a method for regulating and controlling a location of a mobile terminal, including:

after the communication connection between the rotating device and the mobile terminal is established, receiving a rotating instruction sent by the mobile terminal, and controlling a rotating unit of the rotating device to rotate according to the rotating instruction so as to drive the mobile terminal to rotate simultaneously;

receiving an optimal rotation angle value sent by the mobile terminal, wherein the optimal rotation angle value is a rotation angle value corresponding to the highest satellite signal strength value recorded when the mobile terminal rotates based on the rotation unit;

and controlling the rotation unit to rotate according to the optimal rotation angle value so as to enable the mobile terminal to rotate to a position corresponding to the optimal rotation angle value.

In a second aspect, an embodiment of the present invention provides a method for determining a placement angle value of a mobile terminal, including:

after a mobile terminal establishes communication connection with a rotating device and a GPS is started, a rotating instruction is sent to the rotating device, so that the rotating device drives the mobile terminal to rotate;

when the mobile terminal rotates based on the rotating device, monitoring satellite signals received by the mobile terminal based on a GPS antenna, and recording satellite signal strength values corresponding to the satellite signals;

and based on the recorded satellite signal strength value, sending a rotation angle value corresponding to the highest satellite signal strength value as an optimal rotation angle value to the rotating device, so that the rotating device drives the mobile terminal to rotate to a position corresponding to the optimal rotation angle value.

In a third aspect, an embodiment of the present invention further provides a device for regulating and controlling a position of a mobile terminal, where the device includes:

the first rotation control module is used for receiving a rotation instruction sent by the mobile terminal after the rotation device is in communication connection with the mobile terminal, and controlling a rotation unit of the rotation device to rotate according to the rotation instruction so as to drive the mobile terminal to rotate simultaneously;

the data receiving module is used for receiving an optimal rotation angle value sent by the mobile terminal, wherein the optimal rotation angle value is a rotation angle value corresponding to the highest satellite signal strength value recorded when the mobile terminal rotates based on the rotating unit;

and the second rotation control module is used for controlling the rotation unit to rotate according to the optimal rotation angle value so as to enable the mobile terminal to rotate to a position corresponding to the optimal rotation angle value.

In a fourth aspect, an embodiment of the present invention further provides an apparatus for determining a placement angle value of a mobile terminal, where the apparatus includes:

the instruction sending module is used for sending a rotation instruction to the rotating device after the mobile terminal establishes communication connection with the rotating device and the GPS is started so as to enable the rotating device to drive the mobile terminal to rotate;

the signal monitoring and recording module is used for monitoring satellite signals received by the mobile terminal based on a GPS antenna and recording satellite signal strength values corresponding to the satellite signals when the mobile terminal rotates based on the rotating device;

and the data sending module is used for sending the rotation angle value corresponding to the highest satellite signal strength value to the rotating device as the optimal rotation angle value based on the recorded satellite signal strength value, so that the rotating device drives the mobile terminal to rotate to the position corresponding to the optimal rotation angle value.

In a fifth aspect, an embodiment of the present invention also provides a rotating apparatus, including:

the method comprises the following steps: a rotation unit and a controller, wherein:

the rotating unit is used for placing the mobile terminal and driving the mobile terminal to rotate;

the controller is integrated with the device for regulating and controlling the position of the mobile terminal provided by the embodiment of the invention.

In a sixth aspect, an embodiment of the present invention further provides a mobile terminal, where the mobile terminal includes the apparatus for determining a placement angle value of the mobile terminal according to the embodiment of the present invention.

The embodiment of the invention provides a method, a device and a terminal for regulating and controlling the position of a mobile terminal and determining a placement angle value, wherein the method for regulating and controlling the position of the mobile terminal can be summarized as follows: after the communication connection between the rotating device and the mobile terminal is established, the rotating unit is controlled to rotate according to the received rotating instruction of the mobile terminal, so that the mobile terminal is driven to rotate simultaneously, and after the optimal rotation angle value sent by the mobile terminal is received, the rotating unit is controlled to rotate the mobile terminal to the position corresponding to the optimal rotation angle value. By utilizing the method, the automatic adjustment of the placement position of the mobile terminal is realized, so that the placement position of the mobile terminal when receiving the optimal satellite signal intensity value is confirmed, the quality of the satellite signal received by the mobile terminal is improved, and the GPS working performance of the mobile terminal is further improved; meanwhile, the method for determining the placement angle value of the mobile terminal in the invention can be summarized as follows: after the mobile terminal determines to establish communication connection with the rotating device and start the GPS function, a rotation instruction is sent to the rotating device, so that the rotating device drives the mobile terminal to rotate, in the rotating process of the mobile terminal, satellite signals received by the mobile terminal based on a GPS antenna are monitored, satellite signal strength values corresponding to the satellite signals are recorded, finally, the highest satellite signal strength value and the corresponding optimal rotation angle value are determined according to the recorded satellite signal strength values, and the optimal rotation angle value is sent to the rotating device, so that the rotating device drives the mobile terminal to rotate to the position corresponding to the optimal rotation angle value. By using the method, the optimal rotation angle value of the highest satellite strength value received by the mobile terminal is determined, accurate operation data is provided for improving the satellite signal receiving quality of the mobile terminal, and the practicability of improving the GPS working performance of the mobile terminal is further ensured.

Drawings

Fig. 1 is a schematic flowchart of a method for adjusting a position of a mobile terminal according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a method for adjusting and controlling a position of a mobile terminal according to a second embodiment of the present invention;

fig. 3 is a schematic flowchart of a method for adjusting and controlling a position of a mobile terminal according to a third embodiment of the present invention;

fig. 4 is a schematic flowchart of a method for determining a placement angle value of a mobile terminal according to a fourth embodiment of the present invention;

fig. 5 is a block diagram of a device for regulating a position of a mobile terminal according to a fifth embodiment of the present invention;

fig. 6 is a schematic structural diagram of a rotating apparatus according to a sixth embodiment of the present invention;

fig. 7 is a block diagram of a structure of an apparatus for determining a placement angle value of a mobile terminal according to an embodiment of the present invention.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a flowchart illustrating a method for regulating a position of a mobile terminal according to an embodiment of the present invention, where the method is suitable for controlling a position of the mobile terminal to be adjusted, and the method can be implemented by a device for regulating a position of the mobile terminal, where the device can be implemented by software and/or hardware and is generally integrated in a rotating device.

As shown in fig. 1, a method for regulating and controlling a position of a mobile terminal according to an embodiment of the present invention specifically includes the following operations:

step S101, after the communication connection between the rotating device and the mobile terminal is established, receiving a rotating instruction sent by the mobile terminal, and controlling a rotating unit of the rotating device to rotate according to the rotating instruction so as to drive the mobile terminal to rotate simultaneously.

In this embodiment, the rotating device may specifically refer to a rotating apparatus composed of a rotating unit and a controller provided in this embodiment of the present invention. Specifically, the rotating unit can be used for placing the mobile terminal and driving the mobile terminal to rotate; the controller is integrated with the device for regulating and controlling the position of the mobile terminal provided by the embodiment of the invention, and can control the rotation of the rotating unit. The automatic adjustment of the position of the mobile terminal placed on the rotating device can be realized through the rotating device. In addition, the mobile terminal may specifically refer to an electronic device such as a mobile phone and a tablet computer integrated with a GPS function.

In step S101, after the rotating device establishes a communication connection with the mobile terminal, the rotating device may receive a rotation instruction sent by the mobile terminal, and control the rotating unit to rotate according to the rotation instruction, so as to drive the mobile terminal placed thereon to rotate together, without manual control, thereby implementing automatic rotation of the mobile terminal.

In this embodiment, based on the operation of the rotation unit driving the mobile terminal to rotate, the rotation unit may be controlled to drive the mobile terminal to rotate vertically, and the mobile terminal may be driven to rotate back and forth within the set rotation end time, so as to ensure that the mobile terminal can completely record the satellite signal strength values received when the mobile terminal is located at different positions. It should be noted that the set rotation end time may be set based on actual conditions, and preferably, may be set to 5 minutes, 10 minutes or 15 minutes, and furthermore, the process of controlling the rotating unit to rotate the mobile terminal from rotation to stop may be understood as monitoring from the beginning of the rotation of the rotating unit to rotate the mobile terminal, and if the used rotation time reaches the set rotation end time, the rotation may be stopped.

Before step S101, an operation of establishing a communication connection between the rotating device and the mobile terminal is further included. Further, the rotating device establishes a communication connection with the mobile terminal, and includes:

when the mobile terminal is detected to be placed on a rotating unit of the rotating device, establishing wireless communication connection with the mobile terminal based on Bluetooth or Wi-Fi; or establishing a wired communication connection with the mobile terminal based on a universal serial bus.

In the present embodiment, as for the operation of controlling the automatic rotation of the mobile terminal, it is a precondition that the mobile terminal is placed on the rotating unit of the rotating device, and the mobile terminal and the rotating device establish a communication connection. Specifically, after the mobile terminal is detected to be placed on the rotating unit, wireless communication connection can be established with the mobile terminal through bluetooth or Wi-Fi, so that the rotating device can be considered to be integrated with bluetooth equipment and/or wireless routing equipment to realize wireless communication connection with the mobile terminal; or after the mobile terminal is placed in the rotating unit, the wire communication connection may be established with the mobile terminal through a Universal Serial Bus (USB), so that the rotating device may be considered to be integrated with a USB interface, and the wire communication connection with the mobile terminal is realized based on a data line.

And step S102, receiving an optimal rotation angle value sent by the mobile terminal, wherein the optimal rotation angle value is a rotation angle value corresponding to the highest satellite signal strength value recorded when the mobile terminal rotates based on the rotation unit.

In this embodiment, after the rotating unit is controlled to drive the mobile terminal to rotate based on step S101, the mobile terminal can receive satellite signals at different positions based on the GPS antenna, and can record satellite signal strength values corresponding to the satellite signals received by the mobile terminal at different rotating positions; after the rotating device stops rotating the mobile terminal or the mobile terminal stops recording the satellite signal strength value, the mobile terminal can determine the highest satellite strength value based on the recorded satellite signal strength value, and at the same time, can determine a rotation angle value corresponding to the highest satellite strength value, and send the rotation angle value as the optimal rotation angle value to the rotating device.

Therefore, in step S102, the specific operation is to receive the optimal rotation angle value sent by the mobile terminal.

And step S103, controlling the rotation unit to rotate according to the optimal rotation angle value so as to enable the mobile terminal to rotate to a position corresponding to the optimal rotation angle value.

In this embodiment, after receiving the optimal rotation angle value, the rotation unit of the rotation device may be controlled to rotate according to the optimal rotation angle value, so as to drive the mobile terminal placed thereon to rotate together, and finally, the mobile terminal may be rotated to a position corresponding to the optimal rotation angle, and then the rotation may be stopped. It should be noted that, in this embodiment, the received rotation instruction sent by the mobile terminal and the received optimal rotation angle value sent by the mobile terminal are both used to control the rotation unit to drive the mobile terminal to rotate, and it may be considered that the rotation instruction and the optimal rotation angle value may be included in each other or are in an independent relationship. Preferably, in this embodiment, the rotation instruction and the optimal rotation angle value are considered to be in an independent relationship, that is, after receiving the optimal rotation angle value sent by the mobile terminal, the rotation unit can be controlled to drive the mobile terminal to directly rotate to a position corresponding to the optimal rotation angle value, so as to ensure that the mobile terminal can receive the highest satellite signal strength value.

In addition, it should be noted that the location of the mobile terminal may be understood as a location where the received satellite signal strength value is optimal, but if the current location is not convenient for the vehicle driver to view the screen of the mobile terminal, fine adjustment of the location of the mobile terminal may also be considered. The fine tuning operation can be summarized as follows: and after receiving the fine adjustment instruction, controlling the rotating unit to drive the mobile terminal to realize fine adjustment of the mobile terminal within the range of plus and minus 3 degrees. At the moment, the influence on the received satellite signal strength is not great, but the condition that the driving personnel have a better visual angle to view the screen of the mobile terminal can be ensured.

In the method for regulating and controlling the position of the mobile terminal provided by the embodiment of the invention, after the communication connection between the rotating device and the mobile terminal is detected, the rotating unit is controlled to rotate according to the received rotating instruction of the mobile terminal, so that the mobile terminal is driven to rotate simultaneously, and after the optimal rotating angle value sent by the mobile terminal is received, the rotating unit is controlled to rotate the mobile terminal to the position corresponding to the optimal rotating angle value. By utilizing the method, the automatic adjustment of the placement position of the mobile terminal is realized, so that the confirmation of the placement position of the mobile terminal for receiving the optimal satellite signal intensity value is realized, the quality of the satellite signal received by the mobile terminal is improved, and the GPS working performance of the mobile terminal is improved.

Example two

Fig. 2 is a schematic flow chart of a method for adjusting and controlling a position of a mobile terminal according to a second embodiment of the present invention, where the second embodiment is optimized based on the above-mentioned second embodiment, in the second embodiment, the step of "receiving a rotation instruction sent by the mobile terminal, and controlling the rotation unit to rotate according to the rotation instruction to drive the mobile terminal to rotate simultaneously" is further optimized as follows: and receiving a rotation instruction sent by the mobile terminal, and controlling the rotation unit provided with the mobile terminal to vertically rotate within a set elevation angle range so as to drive the mobile terminal to rotate simultaneously.

Further, the step of controlling the rotation unit to rotate according to the optimal rotation angle value so that the mobile terminal rotates to a position corresponding to the optimal rotation angle value is embodied as: controlling a rotating unit provided with the mobile terminal to rotate according to the received optimal rotating angle value sent by the mobile terminal; and when the angle formed by the rear shell of the mobile terminal and the horizontal plane is the optimal placing angle value, controlling the rotating unit to stop rotating.

As shown in fig. 2, a method for regulating and controlling a position of a mobile terminal according to a second embodiment of the present invention specifically includes the following operations:

step S201, when the mobile terminal is placed on the rotating unit of the rotating device, wireless communication connection is established with the mobile terminal based on Bluetooth or Wi-Fi.

For example, in this embodiment, after the mobile terminal is placed in the rotating device, bluetooth or Wi-Fi is used to perform wireless communication connection between the rotating device and the mobile terminal.

Step S202, receiving a rotation instruction sent by the mobile terminal, and controlling a rotation unit provided with the mobile terminal to vertically rotate within a set elevation angle range so as to drive the mobile terminal to rotate simultaneously.

In this embodiment, after receiving the rotation command of the mobile terminal, the rotation unit is controlled to drive the mobile terminal to rotate, and further, the rotation unit on which the mobile terminal is placed is controlled to rotate vertically within a set elevation angle range, and the mobile terminal is driven to rotate simultaneously.

Specifically, the rotation driving the mobile terminal mainly enables the mobile terminal to receive satellite signals at different positions based on the GPS antenna. The different positions of the GPS antenna lead the receiving directions of the GPS antenna to be different, thereby leading the strength values of the received satellite signals to be different. Generally, the GPS antenna is mainly integrated on a main board of the mobile terminal, and the main board is mostly located on the back of the mobile terminal, and if the position of the mobile terminal is horizontally adjusted, the signal strength of a satellite signal received by the GPS antenna does not change significantly; therefore, in the embodiment, it is preferable to control the rotating unit to rotate vertically, so as to drive the mobile terminal to rotate vertically, thereby better changing the receiving direction of the GPS antenna. Correspondingly, the driving of the mobile terminal to rotate vertically can be understood as driving the mobile terminal to rotate, so that the angle formed by the rear shell of the mobile terminal and the horizontal plane changes along with the rotation.

In addition, in the process of driving the mobile terminal to rotate vertically, an available elevation angle range is set, and the elevation angle range can be understood as the tilt range of the screen of the mobile terminal, which can be observed by a driving user. Therefore, it is only necessary to control the rotation unit to vertically rotate within a set elevation angle range.

Further, the set elevation angle range is: the angle formed by the rear shell of the mobile terminal and the horizontal plane is greater than 0 degree and less than or equal to 95 degrees.

In this embodiment, the rotation unit is controlled to drive the mobile terminal to rotate within a set elevation angle range, where the set elevation angle range is specifically that an angle formed by a rear shell of the mobile terminal and a horizontal plane is greater than 0 ° and less than or equal to 95 °, and in this range, a driving user can see positioning or navigation content based on a GPS on a screen clearly and conveniently. When the mobile terminal is driven to rotate to the position outside the set elevation angle range, the satellite signal intensity value monitored by the mobile terminal has no practical significance, and a driving user cannot see the content on the screen of the mobile terminal when the mobile terminal is located at the position outside the range, so that the driving positioning or navigation can not be normally carried out based on the GPS function.

And step S203, receiving the optimal rotation angle value sent by the mobile terminal.

In this embodiment, the optimal rotation angle value is a rotation angle value corresponding to the highest satellite signal strength value recorded when the mobile terminal rotates based on the rotation unit.

And step S204, controlling a rotating unit provided with the mobile terminal to rotate according to the received optimal rotating angle value sent by the mobile terminal.

And S205, when the angle formed by the rear shell of the mobile terminal and the horizontal plane is the optimal placement angle value, controlling the rotating unit to stop rotating.

In the present embodiment, steps S204 and S205 may be summarized as an operation of controlling the rotation of the mobile terminal based on the optimal rotation angle value. Specifically, firstly, the rotation unit is controlled to rotate according to the received optimal rotation angle value sent by the mobile terminal so as to drive the mobile terminal to rotate; when the mobile terminal rotates, if the angle formed by the rear shell and the horizontal plane is the optimal placing angle value, the rotation of the rotating unit can be finished, and then the rotation of the mobile terminal is stopped.

The embodiment of the invention provides a method for regulating and controlling the position of a mobile terminal, which further embodies the operation process of driving the mobile terminal to rotate, so that after receiving a rotation instruction sent by the mobile terminal, a rotating unit is controlled to drive the mobile terminal to rotate within a set elevation angle range based on the rotation instruction; meanwhile, the embodiment also embodies the operation process of rotating the mobile terminal to the optimal position, so that the rotating unit is controlled to drive the mobile terminal to rotate after the optimal rotation angle value sent by the mobile terminal is received, and the rotation is stopped when the angle formed by the mobile terminal and the horizontal plane is the optimal placement angle value. By using the method, the automatic adjustment of the placement position of the mobile terminal is better realized, the placement position of the mobile terminal when receiving the optimal satellite signal intensity value is confirmed, the improvement of the satellite signal receiving quality of the mobile terminal is further ensured, and the improvement of the GPS working performance of the mobile terminal is also ensured.

EXAMPLE III

Fig. 3 is a schematic flowchart of a method for regulating a position of a mobile terminal according to a third embodiment of the present invention, where the third embodiment is based on the above embodiments, and in the third embodiment, after the rotating device establishes a communication connection with the mobile terminal and before receiving a rotation instruction sent by the mobile terminal, further optimization includes: acquiring a terminal model of the mobile terminal; determining an initial position of the mobile terminal based on the terminal model, and controlling the rotating unit to rotate so that the mobile terminal is at the initial position; acquiring a satellite signal strength value received when the mobile terminal is at the initial position; and if the satellite signal strength value is lower than a set signal strength threshold value, triggering the mobile terminal to start a functional application for determining the placement angle value.

Meanwhile, after the rotating unit is controlled to rotate according to the optimal rotation angle value so that the mobile terminal rotates to a position corresponding to the optimal rotation angle value, the optimization further includes: and prompting the current position of the mobile terminal to have the optimal satellite signal strength value through voice.

As shown in fig. 3, a method for regulating and controlling a position of a mobile terminal according to a third embodiment of the present invention specifically includes the following operations:

and S301, when the mobile terminal is detected to be placed on the rotating unit of the rotating device, establishing wired communication connection with the mobile terminal based on the USB.

For example, in the embodiment, after the mobile terminal is placed in the rotating device, the USB is used to perform the wired communication connection between the rotating device and the mobile terminal.

And step S302, acquiring the terminal model of the mobile terminal.

In this embodiment, after the rotating device establishes a communication connection with the mobile terminal, the terminal model of the mobile terminal may be obtained. The terminal model may be understood as an equipment model of the mobile terminal, and for example, the model of one of the OPPO handsets is OPPO 7s, and the OPPO 7s may be understood as the equipment model of the handset. If the mobile phone is placed on the rotating unit of the rotating device and is in communication connection with the rotating device, the mobile phone model of the mobile phone can be obtained.

Step S303, determining an initial position of the mobile terminal based on the terminal model, and controlling the rotating unit to rotate so as to enable the mobile terminal to be at the initial position.

In this embodiment, based on mobile terminals of different terminal models, the rotating device may determine a corresponding default initial position for the mobile terminal, where the initial position may be understood as a position where the mobile terminal can better receive satellite signals. If the current position of the mobile terminal is not the determined initial position, the rotating unit is controlled to rotate first, and the mobile terminal is driven to rotate to the corresponding initial position.

And step S304, obtaining a satellite signal strength value received when the mobile terminal is at the initial position.

In this embodiment, after the mobile terminal is at the corresponding initial position, the mobile terminal may be triggered to determine the strength value of the satellite signal received by the GPS antenna when the mobile terminal is at the current initial position. After the mobile terminal determines the satellite signal strength value corresponding to the current initial position, the rotating device can obtain the satellite signal strength value.

And step S305, if the satellite signal strength value is lower than a set signal strength threshold value, triggering the mobile terminal to start a function application for determining the placement angle value.

In this embodiment, the obtained satellite signal strength value is compared with a set signal strength threshold value to determine. Specifically, it can be understood that if the obtained satellite signal strength value reaches or is higher than the set signal strength threshold value, the position of the mobile terminal may be kept unchanged, and the navigation or positioning of the GPS may be performed at the position; if the obtained satellite signal strength value is lower than the set signal strength threshold value, the mobile terminal needs to be triggered to start the functional application for determining the placement angle value.

The functional application for determining the placement angle value may be specifically understood as an application operation performed by the device for determining a placement angle value integrated in a mobile terminal provided by the embodiment of the present invention. The set signal strength threshold may be set based on actual conditions, and is preferably-166 DBM.

In this embodiment, when the mobile terminal is triggered to start the function application for determining the placement angle value, the following steps may be performed.

And S306, receiving a rotation instruction sent by the mobile terminal, and controlling the rotation unit provided with the mobile terminal to vertically rotate within a set elevation angle range so as to drive the mobile terminal to rotate simultaneously.

And step S307, receiving the optimal rotation angle value sent by the mobile terminal.

And step S308, controlling the rotation unit to rotate according to the optimal rotation angle value so as to enable the mobile terminal to rotate to a position corresponding to the optimal rotation angle value.

In this embodiment, the specific operations of the steps S306 to S308 can refer to the descriptions related to the first embodiment or the second embodiment, and are not described in detail here.

And S309, prompting that the satellite signal intensity value corresponding to the current position where the mobile terminal is located is optimal through voice.

In this embodiment, when the rotation unit of the rotation device is controlled to rotate vertically to drive the mobile terminal to rotate, and the rotation of the mobile terminal is stopped based on the received optimal rotation angle value, so that the mobile terminal is located at a position corresponding to the optimal rotation angle value, a voice prompt may be performed to notify a driving user that the received satellite signal strength value at the current position of the mobile terminal is optimal, thereby ensuring that the GPS performance of the mobile terminal at the current position is optimal.

Specifically, the content of the voice prompt may be summarized as follows: the satellite signal strength value corresponding to the current position of the mobile terminal is optimal.

In the method for regulating and controlling the position of the mobile terminal provided by the third embodiment of the present invention, before the operation of driving the mobile terminal to rotate is performed, a determination operation of determining the placement angle value is performed, and meanwhile, after the operation of rotating the mobile terminal to the optimal position is performed, a voice prompt operation is performed. By utilizing the method, the operation step of automatically adjusting the rotating position of the mobile terminal is further perfected, so that the placing position of the mobile terminal when receiving the optimal satellite signal intensity value is better confirmed, the quality of the mobile terminal for receiving the satellite signal is improved, and the GPS working performance of the mobile terminal is improved.

Example four

Fig. 4 is a flowchart illustrating a method for determining a placement angle value of a mobile terminal according to a fourth embodiment of the present invention, where the method is applied to a case where the placement angle value of the mobile terminal is determined based on a satellite signal strength value received by the mobile terminal, and can be executed by a device for determining the placement angle value of the mobile terminal. Wherein the apparatus may be implemented by software and/or hardware and is generally integrated in a mobile terminal.

As shown in fig. 4, a method for determining a placement angle value of a mobile terminal according to an embodiment of the present invention specifically includes the following operations:

the embodiment of the invention mainly provides an operation process of the method for determining the placement angle value of the mobile terminal after the rotating device triggers the mobile terminal to start the function application for determining the placement angle value.

Step S401, after the mobile terminal and the rotating device establish communication connection and the GPS is started, a rotating instruction is sent to the rotating device, so that the rotating device drives the mobile terminal to rotate.

In this embodiment, after the mobile terminal establishes a communication connection with the rotating device and the GPS is turned on, a rotation command needs to be sent to the rotating device, so that the rotating device can control the rotating unit to rotate, thereby driving the mobile terminal to rotate.

Specifically, the operation of establishing the communication connection between the mobile terminal and the rotating device may be summarized as follows: after the mobile terminal is placed on a rotating unit of the rotating device, wireless communication connection is established with the rotating device based on Bluetooth or Wi-Fi; or, after the mobile terminal is placed on the rotating unit of the rotating device, the mobile terminal establishes wireless communication connection with the rotating device based on the USB. The GPS of the mobile terminal can be specifically understood as a system that uses a GPS positioning satellite to perform positioning and navigation in real time in a global range, and therefore, it is necessary to ensure that the GPS function is in an on state. In addition, after the rotation device performs function triggering, a rotation command is firstly sent to the rotation device so as to ensure that the subsequent operation is performed normally.

Step S402, when the mobile terminal rotates based on the rotating device, monitoring satellite signals received by the mobile terminal based on a GPS antenna, and recording satellite signal strength values corresponding to the satellite signals.

In this embodiment, the mobile terminal rotates based on the rotating device, which may be understood as the mobile terminal being in different positions based on the rotating unit. Specifically, it can be understood that when the rotating device drives the mobile terminal to rotate within a set elevation angle range, satellite signals received based on the GPS antenna at different positions can be monitored; and satellite signal strength values corresponding to satellite signals received by the mobile terminal at different rotation angles can be recorded. It should be noted that the set elevation angle range is not fixed, and is greater than 0 ° and less than or equal to 95 ° as a preferred range, and the user can set the elevation angle range according to actual situations.

Further, when recording the satellite signal strength corresponding to the satellite signal, the method further includes:

and controlling an indicator lamp of the intelligent mobile terminal to display different colors based on the difference of the satellite signal strength values.

In this embodiment, in the process of recording different satellite signal strength values, based on the method provided in this embodiment, the mobile terminal indicator lamp may also be controlled to perform a prompt operation. Generally, if the mobile terminal is at different rotation angles and the satellite signal strength values are different, the indicator light will display different colors, and it can be considered that a corresponding satellite signal strength value range is preset for one display color of the indicator light. For example, the satellite signal strength value range corresponding to the red display of the indicator light may be less than-166 DBM, indicating that the received satellite signal is weak, and the yellow display of the indicator light may be equal to-166 DBM, or the green display of the indicator light may be greater than-166 DBM, indicating that the received satellite signal is strong. It should be noted that the color of the indicator light may also be continuous, and the change from red to green may be regarded as the change of the satellite signal intensity from weak to strong.

Step S403, based on the satellite signal strength value, sending the rotation angle value of the mobile terminal corresponding to the highest satellite signal strength value as an optimal rotation angle value to the rotating device, so that the rotating device drives the mobile terminal to rotate to a position corresponding to the optimal rotation angle value.

In this embodiment, when the rotating device drives the mobile terminal to rotate within the set elevation angle range, after satellite strength values of different positions of the mobile terminal are recorded, the highest satellite signal strength value may be determined based on the recorded satellite signal strength values, and the operation process may be summarized as follows: based on corresponding satellite signal strength values of the mobile terminal at different rotation angles, sorting the satellite signal strength values from high to low; and determining the highest satellite intensity value and the corresponding rotation angle value of the mobile terminal.

After the rotation angle value corresponding to the highest satellite signal strength value is determined, the rotation angle value can be sent to the rotating device as an optimal rotation angle value, so that the rotating device controls the rotating unit to rotate based on the received optimal rotation angle value and drives the mobile terminal to rotate to a position corresponding to the optimal rotation angle value.

In the method for determining the placement angle value of the mobile terminal according to the fourth embodiment of the present invention, after the mobile terminal determines that the communication connection with the rotating device is established and the GPS is turned on, a rotation instruction is sent to the rotating device, so that the rotating device drives the mobile terminal to rotate, during the rotation process of the mobile terminal, a satellite signal received by the mobile terminal based on the GPS antenna is monitored, a satellite signal strength value corresponding to the satellite signal is recorded, and finally, according to the recorded satellite signal strength value, the highest satellite signal strength value and the corresponding optimal rotation angle value are determined, and the optimal rotation angle value is sent to the rotating device, so that the rotating device drives the mobile terminal to rotate to a position corresponding to the optimal rotation angle value. By using the method, the optimal rotation angle value when the mobile terminal receives the highest satellite intensity value is determined, accurate operation data is provided for improving the quality of the mobile terminal for receiving satellite signals, and the practicability of improving the GPS working performance of the mobile terminal is further ensured.

EXAMPLE five

Fig. 5 is a block diagram of a device for regulating a position of a mobile terminal according to a fifth embodiment of the present invention. The device may be implemented by software and/or hardware and is typically integrated into the rotating device. The embodiment is suitable for controlling the position adjustment of the mobile terminal, and as shown in fig. 5, the specific structure of the device is as follows: a first rotation control module 51, a data receiving module 52 and a second rotation control module 53. Wherein,

the first rotation control module 51 is configured to receive a rotation instruction sent by the mobile terminal after the rotation device establishes a communication connection with the mobile terminal, and control a rotation unit of the rotation device to rotate according to the rotation instruction so as to drive the mobile terminal to rotate simultaneously;

a data receiving module 52, configured to receive an optimal rotation angle value sent by the mobile terminal, where the optimal rotation angle value is a rotation angle value corresponding to a highest satellite signal strength value recorded when the mobile terminal rotates based on the rotation unit;

the second rotation control module 53 is configured to control the rotation unit to rotate according to the optimal rotation angle value, so that the mobile terminal rotates to a position corresponding to the optimal rotation angle value.

Further, the device for regulating and controlling the position of the mobile terminal further comprises the following structural modules: a communication connection establishment module 50, a prompting module 54, and an application triggering module 55. Wherein,

a communication connection establishing module 50, configured to establish a wireless communication connection with a mobile terminal based on bluetooth or Wi-Fi when it is detected that the mobile terminal is placed on a rotating unit of the rotating apparatus; or establishing a wired communication connection with the mobile terminal based on a universal serial bus.

And the prompting module 54 is configured to prompt the mobile terminal to obtain the optimal satellite signal strength value corresponding to the current location through voice.

The application triggering module 55 is configured to obtain a terminal model of the mobile terminal after the rotating apparatus establishes a communication connection with the mobile terminal and before a rotation instruction sent by the mobile terminal is received; determining an initial position of the mobile terminal based on the terminal model, and controlling the rotating unit to rotate so that the mobile terminal is at the initial position; acquiring a satellite signal strength value received when the mobile terminal is at the initial position; and if the satellite signal strength value is lower than a set signal strength threshold value, triggering the mobile terminal to start a functional application for determining the placement angle value.

In this embodiment, the apparatus first detects whether the mobile terminal is placed on the rotating unit through the communication connection establishing module 50, and establishes a communication connection with the mobile terminal when the mobile terminal is placed on the rotating unit, and generally establishes a wireless communication connection with the mobile terminal based on bluetooth or Wi-Fi; or establishing wired communication connection with the mobile terminal based on a universal serial bus; then, the application triggering module 55 is further required to perform a determination operation on whether to trigger the starting of the functional application for determining the placement angle value, and after the functional application starting condition is met, the first rotation control module 51 controls the rotation unit to drive the mobile terminal to rotate after receiving a rotation instruction sent by the mobile terminal; then, the data receiving module 52 receives the optimal rotation angle value sent by the mobile terminal; finally, the second rotation control module 53 controls the rotation unit to rotate according to the received optimal rotation angle value, so that the mobile terminal rotates to the position corresponding to the optimal rotation angle value, and the prompt module 54 prompts that the satellite signal strength value corresponding to the current position where the mobile terminal is located is optimal through voice.

Further, the first rotation control module 51 is specifically configured to:

after the communication connection between the rotating device and the mobile terminal is established, the rotating device receives a rotating instruction sent by the mobile terminal, and controls the rotating unit provided with the mobile terminal to vertically rotate within a set elevation angle range so as to drive the mobile terminal to rotate simultaneously.

On the basis of the above embodiment, the second rotation control module 52 is specifically configured to:

controlling a rotating unit provided with the mobile terminal to rotate according to the received optimal rotating angle value sent by the mobile terminal; and when the angle formed by the rear shell of the mobile terminal and the horizontal plane is the optimal placing angle value, controlling the rotating unit to stop rotating.

In the device for regulating and controlling the position of the mobile terminal provided by the fifth embodiment of the present invention, after the communication connection is established between the rotating device and the mobile terminal through the first rotation control module, the rotating unit is controlled to rotate according to the received rotation instruction of the mobile terminal, so as to drive the mobile terminal to rotate simultaneously, the data receiving module receives the optimal rotation angle value sent by the mobile terminal, and finally, the second rotation control module controls the rotating unit to rotate the mobile terminal to the position corresponding to the optimal rotation angle value after receiving the optimal rotation angle value sent by the mobile terminal. By utilizing the device, the automatic adjustment of the placement position of the mobile terminal is better realized, the placement position of the mobile terminal when receiving the optimal satellite signal intensity value is confirmed, the improvement of the satellite signal receiving quality of the mobile terminal is further ensured, and the improvement of the GPS working performance of the mobile terminal is also ensured.

Further, a fifth embodiment of the present invention further provides a rotating apparatus, as shown in fig. 6, where the rotating apparatus includes: a rotation unit 61 and a controller 62, wherein:

the rotating unit 61 is used for placing the mobile terminal and driving the mobile terminal to rotate;

the controller 62 is integrated with the device for regulating and controlling the position of the mobile terminal provided by the embodiment of the invention.

In this embodiment, the rotating device may be fixedly disposed on a placing platform of a vehicle, and may be used for a driver to place a mobile terminal integrated with a GPS function, so that the mobile terminal may receive satellite signals and the driver may view positioning or navigation information.

Specifically, the rotating unit 61 of the rotating device may be a rotating bracket having a structure including a base 611, a rotating base 612 and a bracket 613, and the bracket 613 of the rotating unit 61 may be used for placing the mobile terminal and the rotating base 612 drives the mobile terminal to rotate; the controller 62 of the rotating device is fixedly disposed inside the base 611 of the rotating unit 61, and the controller 62 integrates the device for adjusting and controlling the position of the mobile terminal provided by the embodiment of the present invention, and can be used to control the rotation of the rotating base 612 of the rotating unit, so as to drive the mobile terminal to rotate automatically.

The rotating device provided by the fifth embodiment of the invention comprises a rotating unit and a controller integrated with the device for regulating and controlling the position of the mobile terminal provided by the fifth embodiment of the invention, and the automatic regulation and control of the mobile terminal can be realized through the rotating device based on the communication connection established with the mobile terminal, so that the mobile terminal can be positioned at the optimal position for receiving satellite signals, the quality of the mobile terminal for receiving the satellite signals is improved, and the GPS working performance of the mobile terminal is further improved.

EXAMPLE six

Fig. 7 is a block diagram of a device for determining a placement angle value of a mobile terminal according to an embodiment of the present invention, where the device may be implemented by software and/or hardware, is generally integrated in a mobile terminal, and is suitable for determining a placement angle value of a mobile terminal. As shown in fig. 7, the specific structure of the device is as follows: an instruction sending module 71, a signal monitoring and recording module 72 and a data sending module 73. Wherein,

the instruction sending module 71 is configured to send a rotation instruction to the rotating device after the mobile terminal establishes a communication connection with the rotating device and the GPS is turned on, so that the rotating device drives the mobile terminal to rotate.

And a signal monitoring and recording module 72, configured to monitor a satellite signal received by the mobile terminal based on the GPS antenna when the mobile terminal rotates based on the rotating device, and record a satellite signal strength value corresponding to the satellite signal.

And a data sending module 73, configured to send, based on the satellite signal strength value, the rotation angle value corresponding to the highest satellite signal strength value as an optimal rotation angle value to the rotating device, so that the rotating device drives the mobile terminal to rotate to a position corresponding to the optimal rotation angle value.

In this embodiment, the device firstly sends a rotation instruction to the rotating device through the instruction sending module 71 after the mobile terminal establishes communication connection with the rotating device and the GPS is turned on, so that the rotating device drives the mobile terminal to rotate; then, when the mobile terminal rotates based on the rotating device, the signal monitoring and recording module 72 monitors the satellite signal received by the mobile terminal based on the GPS antenna and records a satellite signal strength value corresponding to the satellite signal; finally, the rotation angle value corresponding to the highest satellite signal strength value is sent to the rotating device as the optimal rotation angle value through the data sending module 73, so that the rotating device drives the mobile terminal to rotate to the position corresponding to the optimal rotation angle value.

On the basis of the above embodiment, the signal monitoring and recording module 72 may further be configured to:

and controlling an indicator lamp of the intelligent mobile terminal to display different colors based on the difference of the satellite signal strength values while recording the satellite signal strength corresponding to the satellite signal.

According to the device for determining the placement angle value of the mobile terminal, firstly, after the mobile terminal determines that communication connection is established with the rotating device and the GPS is started through the instruction sending module, a rotation instruction is sent to the rotating device, the rotating device drives the mobile terminal to rotate, then, in the rotating process of the mobile terminal, the satellite signals received by the mobile terminal based on the GPS antenna are monitored through the signal monitoring and recording module, the satellite signal strength value corresponding to the satellite signals is recorded, finally, the highest satellite signal strength value and the corresponding optimal rotation angle value are determined according to the recorded satellite signal strength value through the data sending module, the optimal rotation angle value is sent to the rotating device, and the rotating device drives the mobile terminal to rotate to the position corresponding to the optimal rotation angle value. By using the method, the optimal rotation angle value of the highest satellite strength value received by the mobile terminal is determined, accurate operation data is provided for improving the satellite signal receiving quality of the mobile terminal, and the practicability of improving the GPS working performance of the mobile terminal is further ensured.

Furthermore, a sixth embodiment of the present invention further provides a mobile terminal, where the mobile terminal integrates the device for determining the placement angle value of the mobile terminal provided in the embodiment of the present invention.

In this embodiment, the mobile terminal provided in the embodiment of the present invention mainly integrates the device for determining the placement angle value of the mobile terminal provided in the above embodiment, and after establishing a communication connection with the rotating device and determining that the GPS is turned on, the mobile terminal may obtain and record the satellite signal strength values of the mobile terminal at different positions according to the rotation of the mobile terminal, and may also determine the optimal rotation angle value corresponding to the highest satellite signal strength value, and provide the optimal rotation angle value to the rotating device, so as to control the mobile terminal to adjust to the position corresponding to the optimal rotation angle value. Therefore, accurate operation data are provided for improving the quality of satellite signals received by the mobile terminal, and the feasibility of improving the GPS working performance of the mobile terminal is further ensured.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims

1. A method for regulating and controlling the position of a mobile terminal is characterized by comprising the following steps:

2. The method of claim 1, wherein establishing a communication connection between the rotating device and the mobile terminal comprises:

3. The method according to claim 1, wherein after the rotating device establishes a communication connection with the mobile terminal, and before receiving the rotation instruction sent by the mobile terminal, the method further comprises:

acquiring a terminal model of the mobile terminal;

determining an initial position of the mobile terminal based on the terminal model, and controlling the rotating unit to rotate so that the mobile terminal is at the initial position;

acquiring a satellite signal strength value received when the mobile terminal is at the initial position;

and if the satellite signal strength value is lower than a set signal strength threshold value, triggering the mobile terminal to start a functional application for determining the placement angle value.

4. The method according to any one of claims 1 to 3, wherein the receiving a rotation instruction sent by the mobile terminal, and controlling the rotation unit to rotate according to the rotation instruction to drive the mobile terminal to rotate simultaneously comprises:

and receiving a rotation instruction sent by the mobile terminal, and controlling the rotation unit provided with the mobile terminal to vertically rotate within a set elevation angle range so as to drive the mobile terminal to rotate simultaneously.

5. The method according to claim 4, wherein the controlling the rotation unit to rotate according to the optimal rotation angle value to rotate the mobile terminal to a position corresponding to the optimal rotation angle value specifically comprises:

controlling a rotating unit provided with the mobile terminal to rotate according to the received optimal rotating angle value sent by the mobile terminal;

and when the angle formed by the rear shell of the mobile terminal and the horizontal plane is the optimal placing angle value, controlling the rotating unit to stop rotating.

6. The method according to claim 5, wherein after the controlling the rotation unit to rotate according to the optimal rotation angle value to rotate the mobile terminal to a position corresponding to the optimal rotation angle value, further comprising:

and prompting the current position of the mobile terminal to have the optimal satellite signal strength value through voice.

7. The method of claim 4, wherein the set elevation range is: the angle formed by the rear shell of the mobile terminal and the horizontal plane is greater than 0 degree and less than or equal to 95 degrees.

8. A method for determining a mobile terminal placement angle value, comprising:

and based on the satellite signal strength value, sending the rotation angle value of the mobile terminal corresponding to the highest satellite signal strength value as an optimal rotation angle value to the rotating device, so that the rotating device drives the mobile terminal to rotate to a position corresponding to the optimal rotation angle value.

9. The method of claim 8, wherein the recording of the satellite signal strength of the satellite signal further comprises:

and controlling an indicator lamp of the mobile terminal to display different colors based on the difference of the satellite signal strength values.

10. An apparatus for regulating and controlling a position of a mobile terminal, comprising:

11. The apparatus of claim 10, further comprising:

the communication connection establishing module is used for establishing wireless communication connection with the mobile terminal based on Bluetooth or Wi-Fi when the mobile terminal is detected to be placed on the rotating unit of the rotating device; or establishing a wired communication connection with the mobile terminal based on a universal serial bus.

12. The apparatus of claim 10, further comprising:

the application triggering module is used for acquiring the terminal model of the mobile terminal after the communication connection is established between the rotating device and the mobile terminal and before the rotation instruction sent by the mobile terminal is received; determining an initial position of the mobile terminal based on the terminal model, and controlling the rotating unit to rotate so that the mobile terminal is at the initial position; acquiring a satellite signal strength value received when the mobile terminal is at the initial position; and if the satellite signal strength value is lower than a set signal strength threshold value, triggering the mobile terminal to start a functional application for determining the placement angle value.

13. The device according to any one of claims 10 to 12, wherein the first rotation control module is specifically configured to:

14. The apparatus of claim 13, wherein the second rotation control module is specifically configured to:

15. The apparatus of claim 14, further comprising:

and the prompting module is used for prompting the satellite signal strength value corresponding to the current position of the mobile terminal to be optimal through voice.

16. The apparatus of claim 13, wherein the set elevation angle range is: the angle formed by the rear shell of the mobile terminal and the horizontal plane is greater than 0 degree and less than or equal to 95 degrees.

17. An apparatus for determining a mobile terminal placement angle value, comprising:

and the data sending module is used for sending the rotation angle value of the mobile terminal corresponding to the highest satellite signal strength value to the rotating device as an optimal rotation angle value based on the satellite signal strength value, so that the rotating device drives the mobile terminal to rotate to a position corresponding to the optimal rotation angle value.

18. The apparatus of claim 17, wherein the signal monitoring and recording module is further configured to:

19. A rotary device, comprising: a rotation unit and a controller, wherein:

the controller is integrated with the device for controlling the pose adjustment of the mobile terminal according to any one of claims 10 to 16.

20. A mobile terminal characterized by comprising means for determining a mobile terminal placement angle value according to claim 17 or 18.