CN108390734B - Network data transmission method and user terminal - Google Patents

Abstract

The embodiment of the invention discloses a network data transmission method and a user terminal, which can comprise the following steps: controlling the rotating antenna to rotate to a plurality of preset rotating angles to measure the signal strength, and obtaining the signal strength values of the plurality of rotating angles; selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna; and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle. The embodiment of the invention can improve the signal quality of the user terminal.

Description

Network data transmission method and user terminal

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a network data transmission method and a user terminal.

Background

With the development of communication technology, more and more communication terminals are provided, and the base station deployment is also more and more intensive. Thus, the signal strength received by the user terminal at different postures may be different when the user terminal is at the same position, for example: the signal strength of the current attitude of the user terminal may be the best when the antenna of the user terminal is oriented toward the base station, and the signal strength of the current attitude of the user terminal may be the worst when the antenna of the user terminal is oriented toward the opposite direction of the base station. However, in practical applications, the user does not know the direction of the base station, or the user may not know that the antennas are oriented to different received signal strengths of the antennas. Thus, the user terminal may often not be in the optimal posture when using the network, resulting in poor signal quality of the user terminal.

Disclosure of Invention

The embodiment of the invention provides a network data transmission method and a user terminal, which can improve the signal quality of the user terminal.

In a first aspect, an embodiment of the present invention provides a network data transmission method, including:

controlling the rotating antenna to rotate to a plurality of preset rotating angles to measure the signal strength, and obtaining the signal strength values of the plurality of rotating angles;

selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna;

and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle.

Wherein the method may further comprise:

when the rotating antenna is controlled to rotate to the data transmission angle, recording the current geographical position information of the user terminal, and associating the data transmission angle with the geographical position information;

and when the user terminal is detected to be at the geographic position represented by the geographic position information, controlling the rotating antenna to rotate to the data transmission angle.

Wherein the method may further comprise:

detecting whether a user terminal uses a rotating antenna for network data transmission at present, and executing the step of controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement when detecting that the user terminal uses the rotating antenna for network data transmission at present.

Wherein the method may further comprise:

when detecting that the user terminal does not use the rotating antenna to transmit network data currently, controlling the rotating antenna to rotate to a plurality of preset rotating angles to measure signal strength, and obtaining signal strength values of the plurality of rotating angles;

selecting a rotation angle with the lowest signal strength value from the plurality of rotation angles as a transmission waiting angle of the rotating antenna;

controlling the rotating antenna to rotate to the transmission waiting angle.

Wherein the method may further comprise:

generating a data transmission track of network data transmission of the user terminal, wherein the data transmission track comprises a transmission condition of the user terminal for network data transmission;

when the user terminal is detected to meet the transmission condition, controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement, and obtaining signal strength values of the plurality of rotating angles;

selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna;

and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle.

Wherein the method may further comprise:

when the user terminal is detected not to meet the transmission condition, controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement, and obtaining signal strength values of the plurality of rotating angles;

selecting a rotation angle with the lowest signal strength value from the plurality of rotation angles as a transmission waiting angle of the rotating antenna;

controlling the rotating antenna to rotate to the transmission waiting angle.

The user terminal performs network data transmission to enable the user terminal and the network side to perform a data network, or the user terminal performs network access or uses the network.

In a second aspect, an embodiment of the present invention provides a user terminal, including: first measuring unit, first selection unit and first transmission unit, wherein:

the first measuring unit is used for controlling the rotating antenna to rotate to a plurality of preset rotating angles to measure the signal strength, so as to obtain the signal strength values of the plurality of rotating angles;

the first selecting unit is configured to select a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna;

the first transmission unit is configured to control the rotating antenna to rotate to the data transmission angle, and perform network data transmission by using the rotating antenna rotated to the data transmission angle.

Wherein, the user terminal may further include:

the recording unit is used for recording the current geographical position information of the user terminal and associating the data transmission angle with the geographical position information when the rotating antenna is controlled to rotate to the data transmission angle;

and the first control unit is used for controlling the rotating antenna to rotate to the data transmission angle when the user terminal is detected to be at the geographic position represented by the geographic position information.

Wherein, the user terminal may further include:

the detection unit is used for detecting whether the user terminal uses the rotating antenna to transmit network data currently;

the first measurement unit is configured to control the rotating antenna to rotate to a plurality of preset rotation angles to perform signal strength measurement when the detection unit detects that the user terminal currently uses the rotating antenna to perform network data transmission, so as to obtain signal strength values of the plurality of rotation angles.

Wherein, the user terminal may further include:

a second measuring unit, configured to control the rotating antenna to rotate to a plurality of preset rotation angles to perform signal strength measurement when the detecting unit detects that the user terminal does not currently use the rotating antenna for network data transmission, so as to obtain signal strength values of the plurality of rotation angles;

a second selection unit configured to select a rotation angle having a lowest signal strength value as a transmission waiting angle of the rotating antenna from among the plurality of rotation angles measured by the second measurement unit;

and a second control unit for controlling the rotation of the rotating antenna to the transmission waiting angle selected by the second selection unit.

Wherein, the user terminal may further include:

a generating unit, configured to generate a data transmission trajectory for network data transmission of the user terminal, where the data transmission trajectory includes a transmission condition for network data transmission performed by the user terminal;

a third measurement unit, configured to control the rotating antenna to rotate to a plurality of preset rotation angles to perform signal strength measurement when it is detected that the user terminal meets the transmission condition, so as to obtain signal strength values of the plurality of rotation angles;

a third selecting unit configured to select a rotation angle having a highest signal strength value as a data transmission angle of the rotating antenna from among the plurality of rotation angles measured by the third measuring unit;

and the second transmission unit is used for controlling the rotating antenna to rotate to the third selection unit to select the data transmission angle and carrying out network data transmission by using the rotating antenna rotated to the data transmission angle.

Wherein, the user terminal may further include:

a fourth measuring unit, configured to control the rotating antenna to rotate to a plurality of preset rotation angles for performing signal strength measurement when it is detected that the user terminal does not satisfy the transmission condition, so as to obtain signal strength values of the plurality of rotation angles;

a fourth selecting unit configured to select a rotation angle having a lowest signal strength value as a transmission waiting angle of the rotating antenna from among the plurality of rotation angles measured by the fourth measuring unit;

a third control unit, configured to control the rotating antenna to rotate to the transmission waiting angle selected by the fourth selection unit.

The user terminal performs network data transmission to enable the user terminal and the network side to perform a data network, or the user terminal performs network access or uses the network.

In a third aspect, a computer-readable storage medium is provided, where program instructions are stored in the computer-readable storage medium, and the program instructions are used for a computer to call and then execute a network data transmission method, where the network data transmission method includes: controlling the rotating antenna to rotate to a plurality of preset rotating angles to measure the signal strength, and obtaining the signal strength values of the plurality of rotating angles; selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna; and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle.

In the technical scheme, the rotating antenna is controlled to rotate to a plurality of preset rotation angles for signal strength measurement, and signal strength values of the rotation angles are obtained; selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna; and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle. Therefore, the rotating antenna of the user terminal can be rotated to the angle with the highest signal when the user terminal carries out network data transmission, and the signal quality of the user terminal can be improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a network data transmission method according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of another network data transmission method according to an embodiment of the present invention;

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

fig. 4 is a schematic structural diagram of another ue according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another ue according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another ue according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of another user terminal according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic flow chart of a network data transmission method according to an embodiment of the present invention, as shown in fig. 1, including the following steps:

s101, controlling the rotating antenna to rotate to a plurality of preset rotating angles to measure signal strength, and obtaining signal strength values of the plurality of rotating angles.

The rotating antenna may be controlled by the user terminal to rotate, for example: the rotation of 360 degrees may be performed on the same plane, or the rotation of any angle may be performed in a three-dimensional space, which is not limited in this embodiment.

The preset rotation angles may be any rotation angles at which a rotating antenna preset by the user terminal can rotate, for example: rotate one revolution at intervals of 90 degrees. The preset rotation angles may be any rotation angles at which the rotating antenna set by the user terminal receiving an operation command input by the user can rotate.

In this embodiment, in step S101, each time the rotating antenna rotates to a rotation angle, the ue uses the rotating antenna to perform signal strength measurement, so as to obtain a signal strength value of the rotation angle.

Step S101 may be executed at any time when the user terminal connects to the network, for example: step S101 may be performed when the network is camped on, data is transmitted, or the standby state is performed.

And S102, selecting the rotation angle with the highest signal strength value from the plurality of rotation angles as the data transmission angle of the rotating antenna.

In this embodiment, the signal strength value may represent signal quality, that is, the rotation angle with the highest signal strength may be understood as the rotation angle with the highest signal quality.

S103, controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotating to the data transmission angle.

When the rotation angle with the highest signal strength value is selected in step S102, step S103 rotates the antenna to the rotation angle with the highest signal strength value, so that the ue can perform network data transmission at the angle with the best signal quality.

In this embodiment, the user terminal may be any intelligent device with internet access function and antenna rotation function, for example: the intelligent device comprises a mobile phone, a tablet personal computer, an electronic reader, a remote controller, vehicle-mounted equipment, a network television, wearable equipment and the like, wherein the mobile phone, the tablet personal computer, the electronic reader, the remote controller, the vehicle-mounted equipment, the network television, the wearable equipment and the like have internet surfing functions and a rotating antenna function.

In this embodiment, the rotating antenna is controlled to rotate to a plurality of preset rotation angles to measure the signal strength, so as to obtain the signal strength values of the rotation angles; selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna; and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle. Therefore, the rotating antenna of the user terminal can be rotated to the angle with the highest signal when the user terminal carries out network data transmission, and the signal quality of the user terminal can be improved.

Referring to fig. 2, fig. 2 is a schematic flow chart of another network data transmission method according to an embodiment of the present invention, as shown in fig. 2, including the following steps:

s201, detecting whether the user terminal uses the rotating antenna to transmit network data currently.

The network data transmission performed by the ue may be performed by the ue and a network side (e.g., a base station or an access point device) through a data network, or the network data transmission performed by the ue may be understood as network access performed by the ue or network usage performed by the ue. In addition, the network data transmission may be data transmission in the process of making a call, sending a short message, or surfing the internet, or the like, that is, the detection of whether the user terminal uses the rotating antenna to perform the network data transmission may be the detection of whether the user terminal is making a call, sending a short message, surfing the internet, or the like.

S202, when it is detected that the user terminal uses the rotating antenna to transmit network data currently, the rotating antenna is controlled to rotate to a plurality of preset rotating angles to measure signal strength, and signal strength values of the plurality of rotating angles are obtained.

In this embodiment, the rotating antenna may be an antenna connected to a rotating module on the user terminal, so that the rotating module can drive the antenna to rotate; or the rotating antenna can be an antenna connected to the rotating camera, so that the rotating camera can drive the antenna to rotate; or the rotating antenna may be an antenna provided with a rotation control.

And S203, selecting the rotation angle with the highest signal strength value from the plurality of rotation angles as the data transmission angle of the rotating antenna.

And S204, controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle.

In this embodiment, the method may further include the following steps:

s205, when it is detected that the user terminal does not use the rotating antenna for network data transmission at present, controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement, and obtaining signal strength values of the plurality of rotating angles.

And S206, selecting the rotation angle with the lowest signal strength value from the plurality of rotation angles as the transmission waiting angle of the rotating antenna.

It should be noted that, in step S206, the rotation angle with the lowest signal strength value is selected from the plurality of rotation angles measured in step S205 as the transmission waiting angle of the rotating antenna.

And S207, controlling the rotating antenna to rotate to the transmission waiting angle.

In this embodiment, when the user terminal does not perform network data transmission, that is, when the user terminal does not make a call, send a short message, or access a network, the rotating antenna is rotated to the angle with the lowest signal intensity, and the radiation of the user terminal is smaller as the signal intensity is lower, so that the radiation to the user can be reduced.

In this embodiment, the method may further include the following steps:

generating a data transmission track of network data transmission of the user terminal, wherein the data transmission track comprises a transmission condition of the user terminal for network data transmission;

when the user terminal is detected to meet the transmission condition, controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement, and obtaining signal strength values of the plurality of rotating angles;

selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna;

and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle.

The transmission condition may be a transmission time, a transmission location, or a transmission operation of the network data transmission performed by the user terminal. For example: the transmission condition may be that the user terminal performs network data transmission at a specific time or at a specific location, or the transmission condition may be that the user terminal performs network data transmission when receiving a specific instruction (for example, an instruction to unlock, start an address book, or an instruction to establish information transmission).

In this embodiment, when the user terminal meets the transmission condition, the rotating antenna can be directly controlled to rotate to a plurality of preset rotation angles for signal strength measurement, and whether the user terminal needs to transmit network data currently is not detected, so that the user terminal can be predicted to transmit the network data in advance, and the rotating antenna can be rapidly rotated to the rotation angle with the highest signal strength.

In this embodiment, the method may further include the steps of:

when the user terminal is detected not to meet the transmission condition, controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement, and obtaining signal strength values of the plurality of rotating angles;

selecting a rotation angle with the lowest signal strength value from the plurality of rotation angles as a transmission waiting angle of the rotating antenna;

controlling the rotating antenna to rotate to the transmission waiting angle.

In this embodiment, when it is detected that the user terminal does not satisfy the transmission condition, it may be predicted in advance that the user terminal does not currently need to perform network data transmission, so as to control the rotating antenna to rotate to a rotation angle with the lowest signal strength, thereby reducing radiation.

In this embodiment, the method may further include the following steps:

when the rotating antenna is controlled to rotate to the data transmission angle, recording the current geographical position information of the user terminal, and associating the data transmission angle with the geographical position information;

and when the user terminal is detected to be at the geographic position represented by the geographic position information, controlling the rotating antenna to rotate to the data transmission angle.

In this embodiment, when the ue is at the same position again, the ue can automatically and quickly rotate the rotating antenna to the data transmission angle with the highest signal strength, so as to perform network data transmission using the rotation angle with the best signal quality.

Of course, the above controlling the rotating antenna to rotate to the data transmission angle when the user terminal is detected to be at the geographic position indicated by the geographic position information includes:

and when the user terminal is detected to be at the geographic position indicated by the geographic position information and the user terminal is detected to be required to transmit network data currently, controlling the rotating antenna to rotate to the data transmission angle.

In addition, in this embodiment, the current geographical location information may also be recorded when the rotating antenna is controlled to rotate to the data transmission angle or the waiting transmission angle. Therefore, when the user terminal is located at the geographical position again, the user terminal does not need to measure a plurality of angles again, whether the user terminal carries out network data transmission at present is directly judged, and the rotating antenna can be rotated to a corresponding angle, so that the signal quality is improved and the radiation is reduced.

In this embodiment, various optional implementations are added to the embodiment shown in fig. 1, and all of them can improve the signal quality.

For convenience of description, only the relevant parts of the embodiments of the present invention are shown, and details of the specific technology are not disclosed.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a user terminal according to an embodiment of the present invention, as shown in fig. 3, including: a first measurement unit 31, a first selection unit 32 and a first transmission unit 33, wherein:

the first measurement unit 21 is configured to control the rotating antenna to rotate to a plurality of preset rotation angles to perform signal strength measurement, so as to obtain signal strength values of the plurality of rotation angles.

The rotating antenna may be controlled by the user terminal to rotate, for example: the rotation of 360 degrees may be performed on the same plane, or the rotation of any angle may be performed in a three-dimensional space, which is not limited in this embodiment.

The preset rotation angles may be any rotation angles at which a rotating antenna preset by the user terminal can rotate, for example: rotate one revolution at intervals of 90 degrees. The preset rotation angles may be any rotation angles at which the rotating antenna set by the user terminal receiving an operation command input by the user can rotate.

In this embodiment, in the first measurement unit 31, each time the rotating antenna rotates to a rotation angle, the user terminal uses the rotating antenna to perform signal strength measurement to obtain a signal strength value of the rotation angle.

A first selecting unit 32, configured to select a rotation angle with the highest signal strength value from the plurality of rotation angles as the data transmission angle of the rotating antenna.

In this embodiment, the signal strength value may represent signal quality, that is, the rotation angle with the highest signal strength may be understood as the rotation angle with the highest signal quality.

And a first transmission unit 33, configured to control the rotating antenna to rotate to the data transmission angle, and perform network data transmission by using the rotating antenna rotated to the data transmission angle.

When the first selection unit 32 selects the rotation angle with the highest signal strength value, the first transmission unit 33 rotates the antenna to the rotation angle with the highest signal strength value, so that the ue can perform network data transmission at the angle with the best signal quality.

In this embodiment, the user terminal may be any intelligent device with internet access function and antenna rotation function, for example: the intelligent device comprises a mobile phone, a tablet personal computer, an electronic reader, a remote controller, vehicle-mounted equipment, a network television, wearable equipment and the like, wherein the mobile phone, the tablet personal computer, the electronic reader, the remote controller, the vehicle-mounted equipment, the network television, the wearable equipment and the like have internet surfing functions and a rotating antenna function.

In this embodiment, the rotating antenna is controlled to rotate to a plurality of preset rotation angles to measure the signal strength, so as to obtain the signal strength values of the rotation angles; selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna; and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle. Therefore, the rotating antenna of the user terminal can be rotated to the angle with the highest signal when the user terminal carries out network data transmission, and the signal quality of the user terminal can be improved.

Referring to fig. 4, fig. 4 is a schematic structural diagram of another ue according to an embodiment of the present invention, as shown in fig. 4, including: a detection unit 41, a first measurement unit 42, a first selection unit 43 and a first transmission unit 44, wherein:

the detecting unit 41 is configured to detect whether the user terminal currently uses a rotating antenna for network data transmission.

The network data transmission performed by the ue may be performed by the ue and a network side (e.g., a base station or an access point device) through a data network, or the network data transmission performed by the ue may be understood as network access performed by the ue or network usage performed by the ue. In addition, the network data transmission may be data transmission in the process of making a call, sending a short message, or surfing the internet, or the like, that is, the detection of whether the user terminal uses the rotating antenna to perform the network data transmission may be the detection of whether the user terminal is making a call, sending a short message, surfing the internet, or the like.

A first measuring unit 42, configured to control the rotating antenna to rotate to a plurality of preset rotation angles for performing signal strength measurement when it is detected that the user terminal currently uses the rotating antenna for network data transmission, so as to obtain signal strength values of the plurality of rotation angles.

In this embodiment, the rotating antenna may be an antenna connected to a rotating module on the user terminal, so that the rotating module can drive the antenna to rotate; or the rotating antenna can be an antenna connected to the rotating camera, so that the rotating camera can drive the antenna to rotate; or the rotating antenna may be an antenna provided with a rotation control.

A first selecting unit 43, configured to select a rotation angle with the highest signal strength value from the plurality of rotation angles as the data transmission angle of the rotating antenna.

And a first transmission unit 44, configured to control the rotating antenna to rotate to the data transmission angle, and perform network data transmission by using the rotating antenna rotated to the data transmission angle.

In this embodiment, the user terminal may further include:

a second measuring unit 45, configured to control the rotating antenna to rotate to a plurality of preset rotation angles for performing signal strength measurement when the detecting unit 41 detects that the user terminal does not currently use the rotating antenna for network data transmission, so as to obtain signal strength values of the plurality of rotation angles;

a second selecting unit 46 configured to select a rotation angle having the lowest signal strength value from among the plurality of rotation angles measured by the second measuring unit 45 as a transmission waiting angle of the rotating antenna;

a second control unit 47, configured to control the rotation of the rotating antenna to the transmission waiting angle selected by the second selecting unit 46.

In this embodiment, when the user terminal does not perform network data transmission, that is, when the user terminal does not make a call, send a short message, or access a network, the rotating antenna is rotated to the angle with the lowest signal intensity, and the radiation of the user terminal is smaller as the signal intensity is lower, so that the radiation to the user can be reduced.

In this embodiment, as shown in fig. 5, the user terminal may further include:

a generating unit 48, configured to generate a data transmission trajectory for network data transmission of the user terminal, where the data transmission trajectory includes a transmission condition for network data transmission performed by the user terminal;

a third measuring unit 49, configured to control the rotating antenna to rotate to a plurality of preset rotation angles for performing signal strength measurement when it is detected that the user terminal meets the transmission condition, so as to obtain signal strength values of the plurality of rotation angles;

a third selecting unit 410, configured to select a rotation angle with the highest signal strength value from the plurality of rotation angles measured by the third measuring unit 39 as the data transmission angle of the rotating antenna;

a second transmission unit 411, configured to control the rotating antenna to rotate to the third selection unit 310 to select a data transmission angle, and perform network data transmission by using the rotating antenna rotated to the data transmission angle.

The transmission condition may be a transmission time, a transmission location, or a transmission operation of the network data transmission performed by the user terminal. For example: the transmission condition may be that the user terminal performs network data transmission at a specific time or at a specific location, or the transmission condition may be that the user terminal performs network data transmission when receiving a specific instruction (for example, an instruction to unlock, start an address book, or an instruction to establish information transmission).

In this embodiment, when the user terminal meets the transmission condition, the rotating antenna can be directly controlled to rotate to a plurality of preset rotation angles for signal strength measurement, and whether the user terminal needs to transmit network data currently is not detected, so that the user terminal can be predicted to transmit the network data in advance, and the rotating antenna can be rapidly rotated to the rotation angle with the highest signal strength.

In this embodiment, the user terminal may further include:

a fourth measuring unit 412, configured to control the rotating antenna to rotate to a plurality of preset rotation angles for performing signal strength measurement when it is detected that the user terminal does not satisfy the transmission condition, so as to obtain signal strength values of the plurality of rotation angles;

a fourth selecting unit 413 configured to select a rotation angle with a lowest signal strength value from among the plurality of rotation angles measured by the fourth measuring unit 412 as a transmission waiting angle of the rotating antenna;

a third control unit 414, configured to control the rotating antenna to rotate to the transmission waiting angle selected by the fourth selection unit 413.

In this embodiment, when it is detected that the user terminal does not satisfy the transmission condition, it may be predicted in advance that the user terminal does not currently need to perform network data transmission, so as to control the rotating antenna to rotate to a rotation angle with the lowest signal strength, thereby reducing radiation.

In this embodiment, as shown in fig. 6, the user terminal may further include:

a recording unit 415, configured to record current geographical location information of the user terminal when the rotating antenna is controlled to rotate to the data transmission angle, and associate the data transmission angle with the geographical location information;

a first control unit 416, configured to control the rotating antenna to rotate to the data transmission angle when it is detected that the user terminal is located at the geographic position indicated by the geographic position information.

In this embodiment, when the ue is at the same position again, the ue can automatically and quickly rotate the rotating antenna to the data transmission angle with the highest signal strength, so as to perform network data transmission using the rotation angle with the best signal quality.

In addition, in this embodiment, the current geographical location information may also be recorded when the rotating antenna is controlled to rotate to the data transmission angle or the waiting transmission angle. Therefore, when the user terminal is located at the geographical position again, the user terminal does not need to measure a plurality of angles again, whether the user terminal carries out network data transmission at present is directly judged, and the rotating antenna can be rotated to a corresponding angle, so that the signal quality is improved and the radiation is reduced.

In this embodiment, various optional implementations are added to the embodiment shown in fig. 3, and all of them can achieve improvement of signal quality.

Referring to fig. 7, fig. 7 is a schematic structural diagram of another ue according to an embodiment of the present invention, configured to execute the network data transmission method. As shown in fig. 7, the method for a terminal may include: at least one processor 100, at least one input device 200, at least one output device 300, memory 500, etc. Wherein the components are communicatively coupled via one or more buses 400. Those skilled in the art will appreciate that the configuration of the terminal shown in fig. 7 is not intended to limit embodiments of the present invention, and may be a bus configuration, a star configuration, a combination of more or fewer components than those shown, or a different arrangement of components. Wherein:

the processor 100 is a control center of the terminal, connects various parts of the entire terminal using various interfaces and lines, and performs various functions of the terminal and processes data by operating or executing programs and/or modules stored in the memory 500 and calling data stored in the memory 500. The processor 100 may be composed of an Integrated Circuit (IC), for example, a single packaged IC, or a plurality of packaged ICs connected with the same or different functions. For example, the processor 100 may include only a Central Processing Unit (CPU), or may be a combination of a CPU, a Digital Signal Processor (DSP), a Graphics Processing Unit (GPU), and various control chips. In the embodiment of the present invention, the CPU may be a single operation core, or may include multiple operation cores.

The input device 200 may include a standard touch screen, keyboard, camera, etc., and may also include a wired interface, wireless interface, etc.

The output device 300 may include a display screen, a speaker, etc., and may also include a wired interface, a wireless interface, etc.

The memory 500 may be used to store software programs and modules, and the processor 100, the input device 200, and the output device 300 execute various functional applications of the terminal and implement data processing by calling the software programs and modules stored in the memory 500. The memory 500 mainly includes a program storage area and a data storage area, wherein the program storage area may store an operating system, an application program required for at least one function, and the like; the data storage area may store data created according to the use of the terminal, and the like. In the embodiment of the present invention, the operating system may be an Android system, an iOS system, a Windows operating system, or the like.

Specifically, the processor 100 calls an application program stored in the memory 500 for executing the following steps:

controlling the rotating antenna to rotate to a plurality of preset rotating angles to measure the signal strength, and obtaining the signal strength values of the plurality of rotating angles;

selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna;

and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle.

In this embodiment, the steps performed by the processor 100 may further include:

when the rotating antenna is controlled to rotate to the data transmission angle, recording the current geographical position information of the user terminal, and associating the data transmission angle with the geographical position information;

and when the user terminal is detected to be at the geographic position represented by the geographic position information, controlling the rotating antenna to rotate to the data transmission angle.

In this embodiment, the steps performed by the processor 100 may further include:

detecting whether a user terminal uses a rotating antenna for network data transmission at present, and executing the step of controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement when detecting that the user terminal uses the rotating antenna for network data transmission at present.

In this embodiment, the steps performed by the processor 100 may further include:

when detecting that the user terminal does not use the rotating antenna to transmit network data currently, controlling the rotating antenna to rotate to a plurality of preset rotating angles to measure signal strength, and obtaining signal strength values of the plurality of rotating angles;

selecting a rotation angle with the lowest signal strength value from the plurality of rotation angles as a transmission waiting angle of the rotating antenna;

controlling the rotating antenna to rotate to the transmission waiting angle.

In this embodiment, the steps performed by the processor 100 may further include:

generating a data transmission track of network data transmission of the user terminal, wherein the data transmission track comprises a transmission condition of the user terminal for network data transmission;

when the user terminal is detected to meet the transmission condition, controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement, and obtaining signal strength values of the plurality of rotating angles;

selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna;

and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle.

In this embodiment, the steps performed by the processor 100 may further include:

when the user terminal is detected not to meet the transmission condition, controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement, and obtaining signal strength values of the plurality of rotating angles;

selecting a rotation angle with the lowest signal strength value from the plurality of rotation angles as a transmission waiting angle of the rotating antenna;

controlling the rotating antenna to rotate to the transmission waiting angle.

In this embodiment, the user terminal may be any intelligent device with internet access function and antenna rotation function, for example: the intelligent device comprises a mobile phone, a tablet personal computer, an electronic reader, a remote controller, vehicle-mounted equipment, a network television, wearable equipment and the like, wherein the mobile phone, the tablet personal computer, the electronic reader, the remote controller, the vehicle-mounted equipment, the network television, the wearable equipment and the like have internet surfing functions and a rotating antenna function.

In the embodiment, whether the user terminal uses the rotating antenna to transmit network data is detected; when detecting that the user terminal uses the rotating antenna to transmit network data currently, controlling the rotating antenna to rotate to a plurality of preset rotating angles to measure signal strength, and obtaining signal strength values of the plurality of rotating angles; selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna; and controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle. Therefore, the rotating antenna of the user terminal can be rotated to the angle with the highest signal when the user terminal carries out network data transmission, and the signal quality of the user terminal can be improved.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (13)

1. A method for network data transmission, comprising:

when detecting that the user terminal meets the transmission condition, controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement to obtain signal strength values of the plurality of rotating angles;

selecting a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna;

controlling the rotating antenna to rotate to the data transmission angle, and performing network data transmission by using the rotating antenna rotated to the data transmission angle;

when the user terminal is detected not to meet the transmission condition, controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement, and obtaining signal strength values of the plurality of rotating angles;

selecting a rotation angle with the lowest signal strength value from the plurality of rotation angles as a transmission waiting angle of the rotating antenna;

controlling the rotating antenna to rotate to the transmission waiting angle.

2. The method of claim 1, wherein the method further comprises:

when the rotating antenna is controlled to rotate to the data transmission angle, recording the current geographical position information of the user terminal, and associating the data transmission angle with the geographical position information;

and when the user terminal is detected to be at the geographic position represented by the geographic position information, controlling the rotating antenna to rotate to the data transmission angle.

3. The method of claim 1 or 2, wherein the method further comprises:

detecting whether a user terminal uses a rotating antenna for network data transmission at present, and executing the step of controlling the rotating antenna to rotate to a plurality of preset rotating angles for signal strength measurement when detecting that the user terminal uses the rotating antenna for network data transmission at present.

4. The method of claim 3, wherein the method further comprises:

when detecting that the user terminal does not use the rotating antenna to transmit network data currently, controlling the rotating antenna to rotate to a plurality of preset rotating angles to measure signal strength, and obtaining signal strength values of the plurality of rotating angles;

selecting a rotation angle with the lowest signal strength value from the plurality of rotation angles as a transmission waiting angle of the rotating antenna;

controlling the rotating antenna to rotate to the transmission waiting angle.

5. The method of claim 1 or 2, wherein the method further comprises:

and generating a data transmission track of the network data transmission of the user terminal, wherein the data transmission track comprises a transmission condition of the network data transmission of the user terminal.

6. The method of claim 1, wherein the network data transmission performed by the user terminal is data network transmission performed by the user terminal and a network side, or network access performed by the user terminal or a network used by the user terminal.

7. A user terminal, comprising: a third measurement unit, a third selection unit, a second transmission unit, a fourth measurement unit, a fourth selection unit and a third control unit, wherein:

the third measurement unit is configured to, when it is detected that the user terminal meets a transmission condition, control the rotating antenna to rotate to a plurality of preset rotation angles for performing signal strength measurement, so as to obtain signal strength values of the plurality of rotation angles;

the third selecting unit is configured to select a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna;

the second transmission unit is configured to control the rotating antenna to rotate to the data transmission angle, and perform network data transmission by using the rotating antenna rotated to the data transmission angle;

the fourth measuring unit is configured to, when it is detected that the user terminal does not satisfy the transmission condition, control the rotating antenna to rotate to a plurality of preset rotation angles for performing signal strength measurement, so as to obtain signal strength values of the plurality of rotation angles;

the fourth selecting unit is configured to select a rotation angle with a lowest signal strength value from among the plurality of rotation angles measured by the fourth measuring unit, as the transmission waiting angle of the rotating antenna;

the third control unit is configured to control the rotating antenna to rotate to the transmission waiting angle selected by the fourth selection unit.

8. The user terminal of claim 7, wherein the user terminal further comprises:

the recording unit is used for recording the current geographical position information of the user terminal and associating the data transmission angle with the geographical position information when the rotating antenna is controlled to rotate to the data transmission angle;

and the first control unit is used for controlling the rotating antenna to rotate to the data transmission angle when the user terminal is detected to be at the geographic position represented by the geographic position information.

9. The user equipment according to claim 7 or 8, wherein the user equipment further comprises a first measurement unit, a first selection unit and a first transmission unit:

the detection unit is used for detecting whether the user terminal uses the rotating antenna to transmit network data currently;

the first measurement unit is configured to control the rotating antenna to rotate to a plurality of preset rotation angles to perform signal strength measurement when the detection unit detects that the user terminal currently uses the rotating antenna to perform network data transmission, so as to obtain signal strength values of the plurality of rotation angles;

the first selecting unit is configured to select a rotation angle with the highest signal strength value from the plurality of rotation angles as a data transmission angle of the rotating antenna;

the first transmission unit is configured to control the rotating antenna to rotate to the data transmission angle, and perform network data transmission by using the rotating antenna rotated to the data transmission angle.

10. The user terminal of claim 9, wherein the user terminal further comprises:

a second measuring unit, configured to control the rotating antenna to rotate to a plurality of preset rotation angles to perform signal strength measurement when the detecting unit detects that the user terminal does not currently use the rotating antenna for network data transmission, so as to obtain signal strength values of the plurality of rotation angles;

a second selection unit configured to select a rotation angle having a lowest signal strength value as a transmission waiting angle of the rotating antenna from among the plurality of rotation angles measured by the second measurement unit;

and a second control unit for controlling the rotation of the rotating antenna to the transmission waiting angle selected by the second selection unit.

11. The user terminal of claim 7 or 8, wherein the user terminal further comprises:

a generating unit, configured to generate a data transmission trajectory for network data transmission of the user terminal, where the data transmission trajectory includes a transmission condition for network data transmission performed by the user terminal.

12. The UE of claim 7, wherein the UE performs network data transmission for the UE performing network transmission with a network side, or the UE performs network access or uses a network.

13. A computer-readable storage medium, in which program instructions are stored, the program instructions being for causing a computer, when invoked, to perform the network data transmission method according to any one of claims 1 to 6.

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