CN112333747A - 5G signal receiving and dispatching control system based on mobile 5G micro base station - Google Patents

Abstract

The invention provides a mobile 5G signal receiving and transmitting control system based on a mobile 5G micro base station, which comprises a controller module, a 5G receiving and transmitting module, a satellite communication module, a WIFI module and a cloud control terminal, wherein the controller module, the 5G receiving and transmitting module, the satellite communication module and the WIFI module are arranged in the mobile 5G micro base station; the controller module is connected with the cloud control terminal through the WIFI module, the satellite communication module is connected with a Beidou satellite through a satellite receiving antenna, and the 5G receiving and transmitting module is connected with the upper-stage movable 5G micro base station and/or the lower-stage movable 5G micro base station through the 5G receiving and transmitting antenna. According to the invention, the position of each mobile 5G micro base station is obtained through the satellite communication module, and then the cloud control terminal can control which mobile 5G micro base stations receive and transmit 5G signals or enter a standby state according to the distribution condition of the mobile 5G micro base stations, so that a 5G signal coverage network is formed, and the power consumption of other mobile 5G micro base stations can be saved.

Description

5G signal receiving and dispatching control system based on mobile 5G micro base station

Technical Field

The invention relates to the technical field of 5G base stations, in particular to a 5G signal receiving and transmitting control system based on a mobile 5G micro base station.

Background

At present, the 5G service construction is still in a primary stage, and the problems of small base station quantity, unstable signals, single terminal and the like exist. The coverage area of a base station is related to the signal frequency, and the higher the signal frequency is, the smaller the coverage radius of the base station is. The frequency of the 5G signal is about 2 to 3 times higher than that of the existing 4G signal, so that the signal coverage range is limited, and the coverage radius of the base station is about 100 meters to 300 meters. If high frequency signals are used in mobile communication, the transmission distance is greatly shortened, the coverage capability is greatly reduced, and the signal penetration is also greatly reduced. By analogy, if the same size area is to be covered, the number of required 5G base stations will far exceed 4G, and the 5G base stations will be built more densely.

Under the existing building pattern, certain areas may not have enough area to build the signal tower, so that only miniature versions of 5G base stations can be installed in many places, or old signal towers are fully utilized to directly install 5G base stations thereon. Based on the mobile 5G micro base stations installed on the top of the cars or buses, since the cars or buses are driven to a place with dense traffic flow, the distance between the cars or buses is relatively short, and each mobile 5G micro base station does not necessarily receive and transmit a 5G signal, therefore, the 5G signal transceiving of the mobile 5G micro base stations needs to be controlled.

Disclosure of Invention

In order to solve the above-mentioned disadvantages of the prior art, an object of the present invention is to provide a mobile 5G micro base station-based 5G signal transceiving control system, so as to overcome the disadvantages of the prior art.

In order to achieve the above object, the invention provides a 5G signal transceiving control system based on a mobile 5G micro base station, wherein the 5G signal transceiving control system comprises a controller module, a 5G transceiving module, a satellite communication module, a WIFI module and a cloud control terminal, which are arranged in the mobile 5G micro base station; the WIFI module is electrically connected and in signal connection with the controller module, and is connected with the cloud control terminal, so that the controller module controls the WIFI module to connect the mobile 5G micro base station with the cloud control terminal; the satellite communication module is electrically connected and in signal connection with the controller module and is connected with a Beidou satellite through a satellite receiving antenna, so that the controller module controls the satellite communication module to receive satellite signals to acquire the position information of the mobile 5G micro base station; the position information is sent to a cloud control terminal through a WIFI module, and the cloud control terminal sends a control instruction to the mobile 5G micro base stations according to the position distribution of each mobile 5G micro base station; the 5G transceiver module is electrically connected and in signal connection with the controller module, and the 5G transceiver module is connected with the upper-stage mobile 5G micro base station and/or the lower-stage mobile 5G micro base station through the 5G transceiver antenna, so that the controller module controls the 5G transceiver module to receive the 5G signal of the upper-stage mobile 5G micro base station and/or transmit the 5G signal to the lower-stage mobile 5G micro base station according to the control instruction.

Through the technical scheme, the mobile 5G signal transceiving control system based on the mobile 5G micro base station is used at the top of a car or a bus, the existing traffic flow is utilized to provide a carrier for the mobile 5G micro base station, and the mobile 5G micro base station at the top of the car or the bus does not need to receive and transmit 5G signals in an area with dense traffic flow, so that the mobile 5G micro base station is connected with the mobile 5G micro base station through the cloud control terminal, the position of each mobile 5G micro base station and the number and distribution conditions of the mobile 5G micro base stations in a certain area can be obtained through the satellite communication module, the cloud control terminal can control the mobile 5G micro base stations of which vehicles to receive and transmit 5G signals, and the mobile 5G micro base stations of which vehicles enter a standby state, so that a 5G signal coverage network is formed, the power consumption of other mobile 5G micro base stations can be saved.

As a further description of the mobile 5G micro base station-based 5G signal transceiving control system according to the present invention, preferably, the cloud control terminal includes a wireless transceiving module, a location information analyzing module, and an instruction generating module; the wireless transceiver module is electrically connected with the position information analysis module and is in signal connection with the position information analysis module, and the wireless transceiver module is used for receiving the position information from each mobile 5G micro base station and transmitting the position information to the position information analysis module; the position information analysis module is electrically connected and in signal connection with the instruction generation module, and is used for analyzing the position information of each mobile 5G micro base station and determining a previous mobile 5G micro base station, a next mobile 5G micro base station and a standby mobile 5G micro base station according to the 5G signal coverage range of each mobile 5G micro base station; the instruction generation module is electrically connected and in signal connection with the wireless transceiver module, the wireless transceiver module is electrically connected and in signal connection with the WIFI module, and the instruction generation module is used for generating corresponding control instructions according to the determined upper-stage mobile 5G micro base station, the determined lower-stage mobile 5G micro base station and the determined standby mobile 5G micro base station and sending the control instructions to the corresponding mobile 5G micro base stations through the wireless transceiver module.

Through the technical scheme, the cloud control terminal acquires the position information of each mobile 5G micro base station through the wireless transceiving module, the position information analyzing module can analyze the position information of each mobile 5G micro base station to generate the position distribution map of all mobile 5G micro base stations in the area, and calculates the optimal transmitting-receiving node of the 5G signal coverage network according to the 5G signal coverage range of each mobile 5G micro base station, therefore, it is determined which mobile 5G micro base station of the vehicle is used as the upper mobile 5G micro base station, which mobile 5G micro base station of the vehicle is used as the lower mobile 5G micro base station, which mobile 5G micro base station of the vehicle does not transmit and receive 5G signal as the standby mobile 5G micro base station, therefore, a 5G signal coverage network is formed, and the power consumption of other mobile 5G micro base stations can be saved.

As a further description of the mobile 5G micro base station-based 5G signal transceiving control system of the present invention, preferably, the mobile 5G signal transceiving control system further includes an electric quantity detection module disposed in the mobile 5G micro base station, the electric quantity detection module is electrically connected and in signal connection with the controller module, the electric quantity detection module is configured to detect an electric quantity of the mobile 5G micro base station in real time, and when the electric quantity of the mobile 5G micro base station is low, the electric quantity detection module generates a prompt signal, and the prompt signal is sent to the cloud control terminal through the WIFI module.

Through above-mentioned technical scheme, detect in real time through the electric quantity detection module the electric quantity of the little basic station of portable 5G, high in the clouds control terminal can control the little basic station of portable 5G that the electric quantity is low and get into standby state like this, avoids the unstable problem of connection to appear in the 5G signal receiving and dispatching process.

As a further description of the mobile 5G micro base station-based 5G signal transceiving control system of the present invention, preferably, the mobile 5G signal transceiving control system further includes a fault detection module disposed in the mobile 5G micro base station, the fault detection module is electrically connected and in signal connection with the controller module, the fault detection module is configured to detect a working state of the mobile 5G micro base station in real time, and when the mobile 5G micro base station has a fault, the fault detection module generates an alarm signal, and the alarm signal is sent to the cloud control terminal through the WIFI module.

Through the technical scheme, the working state of the mobile 5G micro base station is detected in real time through the fault detection module, so that the cloud control terminal can control the mobile 5G micro base station with a fault to enter a standby state, and the problem of connection interruption in the 5G signal receiving and transmitting process is avoided.

As a further description of the mobile 5G micro base station-based 5G signal transceiving control system according to the present invention, preferably, the mobile 5G signal transceiving control system further includes an air kinetic energy power generation module disposed in the mobile 5G micro base station, the air kinetic energy power generation module is electrically connected and in signal connection with the controller module, and the air kinetic energy power generation module is configured to generate wind energy during a driving process of an automobile and supply power to the mobile 5G micro base station.

Through the technical scheme, the power supply of the mobile 5G micro base station is realized through the air kinetic energy power generation module, the air kinetic energy power generation is formed by utilizing the air flow generated in the running process of the automobile, and the power utilization problem of the mobile 5G micro base station part is solved.

As a further description of the mobile 5G micro base station-based 5G signal transceiving control system of the present invention, preferably, the air kinetic energy power generation module includes a turbine blade, a micro generator, and a storage battery; the rotation direction of the turbine fan blade is the same as the driving direction of the automobile, the rotating shaft of the turbine fan blade is connected with the rotating shaft of the micro generator, the micro generator is connected with the storage battery, so that the turbine fan blade rotates in the driving process of the automobile, and the micro generator converts the kinetic energy of the turbine fan blade into electric energy which is stored in the storage battery to realize wind power generation.

Through the technical scheme, the turbine blades are arranged to rotate by utilizing airflow in the driving process of the automobile, the kinetic energy of the turbine blades is converted into electric energy to be stored in the storage battery to realize wind power generation, and the power utilization problem of the mobile 5G micro base station part is solved.

The invention has the following beneficial effects: the invention relates to a mobile 5G signal transceiving control system based on a mobile 5G micro base station, wherein the mobile 5G micro base station is used at the top of a car or a bus, the existing traffic flow is utilized to provide a carrier for the 5G micro base station, and the mobile 5G micro base station at the top of the car or the bus does not need to receive and transmit 5G signals in an area with dense traffic flow, so that the mobile 5G micro base station is connected with the mobile 5G micro base station through a cloud control terminal, the position of each mobile 5G micro base station and the quantity and the distribution condition of the mobile 5G micro base stations in a certain area can be obtained through a satellite communication module, the cloud control terminal can control the mobile 5G micro base stations of which cars to receive and transmit 5G signals, and the mobile 5G micro base stations of which cars enter a standby state, and a 5G signal coverage network is formed, the power consumption of other mobile 5G micro base stations can be saved.

Drawings

Fig. 1 is a block diagram of a mobile 5G micro base station-based 5G signal transceiving control system according to the present invention.

Fig. 2 is a block diagram of the cloud control terminal according to the present invention.

Fig. 3 is a block diagram of the air kinetic energy power generation module according to the present invention.

Detailed Description

To further understand the structure, characteristics and other objects of the present invention, the following detailed description is given with reference to the accompanying preferred embodiments, which are only used to illustrate the technical solutions of the present invention and are not to limit the present invention.

As shown in fig. 1, a mobile 5G signal transceiving control system based on a mobile 5G micro base station includes a controller module 1, a 5G transceiving module 2, a satellite communication module 3, a WIFI module 4, and a cloud control terminal 5, which are disposed in the mobile 5G micro base station. The mobile 5G micro base station is installed at the top of a car or a bus, the cloud control terminal 5 is arranged at a far end, the cloud control terminal 5 is connected with the cloud control terminal 5, the cloud control terminal 5 can also be connected with the mobile 5G micro base station through the fixed 5G base station to form a 5G signal coverage network, when the car or the bus runs to a place with dense traffic, the mobile 5G micro base station at the top of the car or the bus does not need to receive and transmit 5G signals, therefore, the mobile 5G micro base station is connected with the mobile 5G micro base station through the cloud control terminal 5, and the mobile 5G micro base station is connected with hardware to realize the 5G signal receiving and sending control of the mobile 5G micro base station.

WIFI module 4 is connected with controller module 1 electricity and signal connection, and WIFI module 4 is connected with high in the clouds control terminal 5 to make controller module 1 control WIFI module 4 will portable 5G little basic station is connected with high in the clouds control terminal 5.

The satellite communication module 3 is electrically connected and in signal connection with the controller module 1, and the satellite communication module 3 is connected with a Beidou satellite through a satellite receiving antenna, so that the controller module 1 controls the satellite communication module 3 to receive satellite signals to acquire the position information of the mobile 5G micro base stations, the position of each roof mobile 5G micro base station can be acquired through the satellite communication module 3, and the number and the distribution condition of the roof mobile 5G micro base stations in a certain area can be acquired. The position information is sent to a cloud control terminal 5 through a WIFI module 4, and the cloud control terminal 5 sends a control instruction to the mobile 5G micro base stations according to the position distribution of each mobile 5G micro base station.

The 5G transceiver module 2 is electrically connected and in signal connection with the controller module 1, and the 5G transceiver module 2 is connected with the upper-stage mobile 5G micro base station and/or the lower-stage mobile 5G micro base station through the 5G transceiver antenna, so that the controller module 1 controls the 5G transceiver module 2 to receive the 5G signal of the upper-stage mobile 5G micro base station and/or transmit the 5G signal to the lower-stage mobile 5G micro base station according to the control instruction. Therefore, the cloud control terminal 5 can control the mobile 5G micro base stations of the vehicles to receive and transmit the 5G signals, and the mobile 5G micro base stations of the vehicles enter a standby state, so that a 5G signal coverage network is formed, and the power consumption of other mobile 5G micro base stations can be saved.

As shown in fig. 2, the cloud control terminal 5 includes a wireless transceiver module 51, a position information analysis module 52, and an instruction generation module 53; the wireless transceiver module 51 is electrically connected and in signal connection with the position information analysis module 52, and the wireless transceiver module 51 is configured to receive position information from each mobile 5G micro base station and transmit the position information to the position information analysis module 52; the position information analyzing module 52 is electrically connected and in signal connection with the instruction generating module 53, and the position information analyzing module 52 is configured to analyze position information of each mobile 5G micro base station and determine a previous mobile 5G micro base station, a next mobile 5G micro base station, and a standby mobile 5G micro base station according to a 5G signal coverage range of each mobile 5G micro base station; the instruction generation module 53 is electrically connected and in signal connection with the wireless transceiver module 51, the wireless transceiver module 51 is electrically connected and in signal connection with the WIFI module 4, and the instruction generation module 53 is configured to generate a corresponding control instruction according to the determined upper-stage mobile 5G micro base station, the determined lower-stage mobile 5G micro base station, and the determined standby mobile 5G micro base station, and send the control instruction to the corresponding mobile 5G micro base station through the wireless transceiver module 51. The cloud control terminal 5 acquires the position information of each mobile 5G micro base station, so that a position distribution map of all mobile 5G micro base stations in the area can be generated, and a transmitting and receiving node of an optimal 5G signal coverage network is calculated, so that the mobile 5G micro base stations of which vehicles are used as the mobile 5G micro base stations of the previous stage, the mobile 5G micro base stations of which vehicles are used as the mobile 5G micro base stations of the next stage, and the mobile 5G micro base stations of which vehicles are not used for transmitting and receiving 5G signals as the mobile 5G micro base stations to be standby are determined, so that a 5G signal coverage network is formed, and the power consumption of other mobile 5G micro base stations can be saved.

Further, as shown in fig. 1, the 5G signal transceiving control system further includes an electric quantity detection module 6 disposed in the mobile 5G micro base station, the electric quantity detection module 6 is electrically connected with the controller module 1 and is connected with a signal, the electric quantity detection module 6 is used for detecting the electric quantity of the mobile 5G micro base station in real time, and when the electric quantity of the mobile 5G micro base station is low, the electric quantity detection module 6 generates a prompt signal, and the prompt signal is sent to the cloud control terminal 5 through the WIFI module 4. Through electric quantity detection module real-time detection the electric quantity of little basic station of portable 5G, high in the clouds control terminal can control the little basic station of portable 5G that the electric quantity is low and get into standby state like this, avoids 5G signal receiving and dispatching in-process to appear connecting unstable problem.

Further, as shown in fig. 1, the 5G signal transceiving control system further includes a fault detection module 7 disposed in the mobile 5G micro base station, the fault detection module 7 is electrically connected and in signal connection with the controller module 1, the fault detection module 7 is configured to detect the working state of the mobile 5G micro base station in real time, and when the mobile 5G micro base station fails, the fault detection module 7 generates an alarm signal, and the alarm signal is sent to the cloud control terminal 5 through the WIFI module 4. Through fault detection module real-time detection the operating condition of portable 5G little basic station, the portable 5G little basic station that like this high in the clouds control terminal can control the trouble gets into standby state, avoids the problem that 5G signal receiving and dispatching in-process appears connecting the interrupt.

Further, as shown in fig. 1, the 5G signal transceiving control system further includes an air kinetic energy power generation module 8 disposed in the mobile 5G micro base station, the air kinetic energy power generation module 8 is electrically connected and signal-connected with the controller module 1, the air kinetic energy power generation module 8 is used for generating power by wind energy during the driving process of the automobile, and supplies power to the mobile 5G micro base station by the air kinetic energy power generation module, and generates power by air kinetic energy by using air flow generated during the driving process of the automobile, thereby solving the problem of power consumption of the mobile 5G micro base station. Preferably, the air kinetic energy power generation module 8 comprises a turbine fan blade 81, a micro generator 82 and a storage battery 83; the rotating direction of the turbine blade 81 is the same as the automobile driving direction, the rotating shaft of the turbine blade 81 is connected with the rotating shaft of the micro generator 82, the micro generator 82 is connected with the storage battery 83, so that the turbine blade 81 rotates in the automobile driving process, and the micro generator 82 converts the kinetic energy of the turbine blade 81 into electric energy to be stored in the storage battery 83 to realize wind power generation.

It should be noted that the above summary and the detailed description are intended to demonstrate the practical application of the technical solutions provided by the present invention, and should not be construed as limiting the scope of the present invention. Various modifications, equivalent substitutions, or improvements may be made by those skilled in the art within the spirit and principles of the invention. The scope of the invention is to be determined by the appended claims.

Claims (6)

1. A5G signal transceiving control system based on a mobile 5G micro base station is characterized in that the 5G signal transceiving control system comprises a controller module (1), a 5G transceiving module (2), a satellite communication module (3), a WIFI module (4) and a cloud control terminal (5), wherein the controller module, the 5G transceiving module (2), the satellite communication module and the WIFI module are arranged in the mobile 5G micro base station; wherein the content of the first and second substances,

the WIFI module (4) is electrically connected and in signal connection with the controller module (1), and the WIFI module (4) is connected with the cloud control terminal (5) so that the controller module (1) controls the WIFI module (4) to connect the mobile 5G micro base station with the cloud control terminal (5);

the satellite communication module (3) is electrically connected and in signal connection with the controller module (1), and the satellite communication module (3) is connected with a Beidou satellite through a satellite receiving antenna, so that the controller module (1) controls the satellite communication module (3) to receive satellite signals to obtain the position information of the mobile 5G micro base station;

the position information is sent to a cloud control terminal (5) through a WIFI module (4), and the cloud control terminal (5) sends a control instruction to the mobile 5G micro base stations according to the position distribution of each mobile 5G micro base station;

the 5G transceiver module (2) is electrically connected and in signal connection with the controller module (1), and the 5G transceiver module (2) is connected with the upper-stage mobile 5G micro base station and/or the lower-stage mobile 5G micro base station through the 5G transceiver antenna, so that the controller module (1) controls the 5G transceiver module (2) to receive the 5G signal of the upper-stage mobile 5G micro base station and/or transmit the 5G signal to the lower-stage mobile 5G micro base station according to the control instruction.

2. The mobile 5G signal transceiving control system based on the 5G micro base station according to claim 1, wherein the cloud control terminal (5) comprises a wireless transceiving module (51), a location information parsing module (52) and a command generating module (53); wherein the content of the first and second substances,

the wireless transceiving module (51) is electrically connected and in signal connection with the position information analysis module (52), and the wireless transceiving module (51) is used for receiving the position information from each mobile 5G micro base station and transmitting the position information to the position information analysis module (52);

the position information analysis module (52) is electrically connected and in signal connection with the instruction generation module (53), and the position information analysis module (52) is used for analyzing the position information of each mobile 5G micro base station and determining an upper-stage mobile 5G micro base station, a lower-stage mobile 5G micro base station and a standby mobile 5G micro base station according to the 5G signal coverage range of each mobile 5G micro base station;

the instruction generation module (53) is electrically connected and in signal connection with the wireless transceiver module (51), the wireless transceiver module (51) is electrically connected and in signal connection with the WIFI module (4), and the instruction generation module (53) is used for generating a corresponding control instruction according to the determined upper-stage mobile 5G micro base station, the determined lower-stage mobile 5G micro base station and the determined standby mobile 5G micro base station, and sending the control instruction to the corresponding mobile 5G micro base station through the wireless transceiver module (51).

3. The system according to claim 2, wherein the 5G signal transceiving control system further comprises a power detection module (6) disposed in the mobile 5G micro base station, the power detection module (6) is electrically connected and in signal connection with the controller module (1), the power detection module (6) is configured to detect the power of the mobile 5G micro base station in real time, and when the power of the mobile 5G micro base station is low, the power detection module (6) generates a prompt signal, and the prompt signal is sent to the cloud control terminal (5) through the WIFI module (4).

4. The system according to claim 3, wherein the 5G signal transceiving control system further comprises a fault detection module (7) disposed in the mobile 5G micro base station, the fault detection module (7) is electrically and signal-connected to the controller module (1), the fault detection module (7) is configured to detect an operating state of the mobile 5G micro base station in real time, and when the mobile 5G micro base station fails, the fault detection module (7) generates an alarm signal, and the alarm signal is sent to the cloud control terminal (5) through the WIFI module (4).

5. The 5G signal transceiving control system based on the mobile 5G micro base station according to claim 4, wherein the 5G signal transceiving control system further comprises an air kinetic energy power generation module (8) arranged in the mobile 5G micro base station, the air kinetic energy power generation module (8) is electrically and signal-connected with the controller module (1), and the air kinetic energy power generation module (8) is used for generating wind energy to supply power to the mobile 5G micro base station during the driving process of the automobile.

6. The mobile 5G micro base station-based 5G signal transceiving control system according to claim 5, wherein the air kinetic energy power generation module (8) comprises a turbine blade (81), a micro generator (82) and a storage battery (83); the rotating direction of the turbine fan blade (81) is the same as the driving direction of an automobile, a rotating shaft of the turbine fan blade (81) is connected with a rotating shaft of the micro generator (82), the micro generator (82) is connected with the storage battery (83) so that the turbine fan blade (81) rotates in the driving process of the automobile, and the micro generator (82) converts kinetic energy of the turbine fan blade (81) into electric energy to be stored in the storage battery (83) to achieve wind power generation.

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