CN115695059B

CN115695059B - 5G micro base station power utilization control method, device and system of intelligent lamp post

Info

Publication number: CN115695059B
Application number: CN202211432138.XA
Authority: CN
Inventors: 廖志梅; 辛平野; 辛瀑
Original assignee: Guangdong Correctitude Power Currency Electric Co ltd
Current assignee: Guangdong Correctitude Power Currency Electric Co ltd
Priority date: 2022-11-16
Filing date: 2022-11-16
Publication date: 2023-05-26
Anticipated expiration: 2042-11-16
Also published as: CN115695059A

Abstract

The invention provides a 5G micro base station electricity utilization control method, device and system of a smart lamp post, which comprises the following steps: acquiring a plurality of intelligent lamp poles connected with the 5G micro base station, acquiring illumination brightness corresponding to each intelligent lamp pole, analyzing sub-required electric quantity corresponding to each intelligent lamp pole according to the illumination brightness corresponding to each intelligent lamp pole, analyzing total required electric quantity of the 5G micro base station at the current moment according to the sub-required electric quantity, providing electric quantity for the 5G micro base station according to the total required electric quantity, analyzing respective required electric quantity according to working states of the 5G micro base station and the intelligent street lamp, and then supplying power for the 5G micro base station and the intelligent street lamp simultaneously to ensure daily work of the 5G micro base station and the intelligent street lamp.

Description

5G micro base station power utilization control method, device and system of intelligent lamp post

Technical Field

The invention relates to the technical field of 5G micro base stations, in particular to a 5G micro base station power utilization control method, device and system of a smart lamp post.

Background

The traditional street lamp has the characteristics of daytime outage and evening on electricity, and the 5G micro base station needs 24 hours to supply power, and the current 5G micro base station is supplied power by the street lamp, and when the street lamp stops supplying power in daytime, a special circuit is also required to be built for supplying power to the 5G micro base station, a transient outage phenomenon can be generated when the circuit is switched, so that the requirement of carrying the 5G micro base station cannot be met for a long time, the function of the 5G micro base station can be influenced, and obviously, the traditional street lamp is unreasonable to supply power to the 5G micro base station, so that how to provide a stable power supply for the 5G micro base station becomes a problem to be solved urgently.

Therefore, the invention provides a 5G micro base station electricity utilization control method, device and system of a smart lamp post.

Disclosure of Invention

The invention provides a 5G micro base station electricity utilization control method, device and system of an intelligent lamp post, which are used for analyzing respective electricity demand according to the working states of the 5G micro base station and the intelligent street lamp and then simultaneously supplying power to the 5G micro base station and the intelligent street lamp so as to ensure the daily work of the 5G micro base station and the intelligent street lamp.

The invention provides a 5G micro base station electricity utilization control method of a smart lamp post, which comprises the following steps:

step 1: acquiring a plurality of intelligent lamp poles connected with the 5G micro base station, and acquiring the corresponding illumination brightness of each intelligent lamp pole;

step 2: analyzing the sub-electricity-required quantity corresponding to each intelligent lamp post according to the illumination brightness corresponding to each intelligent lamp post;

step 3: analyzing the total electric quantity required by the 5G micro base station at the current moment according to the sub-electric quantity required;

step 4: and providing electric quantity for the 5G micro base station according to the total electric quantity.

In one embodiment of the present invention, in one possible implementation,

step 1, comprising:

step 11: controlling the 5G micro base station to send detection data packets to the connection objects, and obtaining feedback data packets corresponding to each connection object;

step 12: analyzing the feedback data packets to obtain data characteristics corresponding to each feedback data packet;

step 13: respectively judging object attributes of each connecting object according to the data characteristics;

step 14: extracting object attributes belonging to the target attributes and marking the object attributes as intelligent lamp posts;

step 15: and obtaining the current working state of the intelligent lamp posts to obtain the corresponding illumination brightness of each intelligent lamp post.

In one embodiment of the present invention, in one possible implementation,

step 2, comprising:

step 21: establishing a corresponding virtual lamp post according to the corresponding illumination brightness of each intelligent lamp post;

step 22: simulating the working state of each intelligent lamp post by using the virtual lamp post to obtain the virtual power consumption corresponding to each virtual lamp post;

step 23: and analyzing the virtual power consumption to obtain the sub-power demand corresponding to each intelligent lamp post.

In one embodiment of the present invention, in one possible implementation,

step 3, including:

acquiring a network topology structure of a 5G micro base station, and analyzing static electricity demand corresponding to each topology node according to 5G signal intensity corresponding to each topology node in the network topology structure;

obtaining a topological node where each intelligent lamp post is located, and analyzing the dynamic electricity demand of the corresponding topological node according to the sub electricity demand of the intelligent lamp post;

obtaining the transmission power demand of each topological node according to the topological distance between each topological node and the 5G micro base station;

obtaining the working electricity demand of each topological node according to the static electricity demand, the dynamic electricity demand and the transmission electricity demand corresponding to each topological node;

and obtaining the total power demand of the 5G micro base station at the current moment according to the work power demand corresponding to each topological node.

In one embodiment of the present invention, in one possible implementation,

obtaining the total required electric quantity of the 5G micro base station at the current moment, wherein the method comprises the following steps:

establishing a corresponding topological node power consumption model according to the static power demand, the dynamic power demand and the transmission power demand corresponding to each topological node;

obtaining connection relations between power consumption models of different topological nodes according to the network topological structure, and obtaining electric energy fluctuation information between any two power consumption models of the topological nodes based on the connection relations;

performing balance training on the topological node power consumption model according to the electric energy fluctuation information to obtain a corresponding balance power consumption model;

obtaining the working electricity demand corresponding to each topological node according to the balance electricity demand corresponding to the balance electricity consumption model;

and superposing the working electricity demand corresponding to each topological node to obtain the total electricity demand of the 5G micro base station at the current moment.

In one embodiment of the present invention, in one possible implementation,

step 4, including:

step 41: transmitting the electric quantity to the 5G micro base station according to the total electric quantity;

step 42: obtaining the electricity demand weight of each intelligent lamp post according to the sub electricity demand quantity corresponding to each intelligent lamp post;

step 43: obtaining the corresponding power supply quantity of each intelligent lamp post based on the power demand weight and the total power demand quantity;

step 44: and supplying power to each intelligent lamp post according to the corresponding power supply quantity of each intelligent lamp post.

The invention provides a 5G micro base station electricity utilization control device of a smart lamp post, which comprises:

the acquisition module is used for acquiring a plurality of intelligent lamp posts connected with the 5G micro base station and acquiring the illumination brightness corresponding to each intelligent lamp post;

the analysis module is used for analyzing the sub-electricity-required quantity corresponding to each intelligent lamp post according to the illumination brightness corresponding to each intelligent lamp post;

the analysis module is used for analyzing the total electric quantity required by the 5G micro base station at the current moment according to the sub-electric quantity required;

and the execution module is used for providing electric quantity for the 5G micro base station according to the total electric quantity.

In one embodiment of the present invention, in one possible implementation,

the analysis module comprises:

the static analysis unit is used for acquiring a network topological structure of the 5G micro base station and analyzing the static electricity demand corresponding to each topological node according to the 5G signal intensity corresponding to each topological node in the network topological structure;

the dynamic analysis unit is used for acquiring the topological node where each intelligent lamp post is located, and analyzing the dynamic electricity demand of the corresponding topological node according to the sub electricity demand of the intelligent lamp post;

the comprehensive analysis unit is used for obtaining the transmission power demand of each topological node according to the topological distance between each topological node and the 5G micro base station;

In one embodiment of the present invention, in one possible implementation,

The invention provides a 5G micro base station electricity utilization control system of a smart lamp post, which comprises:

the power supply control device and the 5G micro base station power utilization control device of the intelligent lamp post;

the power supply control device includes:

the mains supply module is used for providing alternating current for the power utilization control device;

and the power supply module is used for providing direct current for the power utilization control device.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of a working flow of a 5G micro base station power utilization control method of a smart light pole according to an embodiment of the invention;

fig. 2 is a schematic diagram of a 5G micro base station power consumption control device of a smart lamp post according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a 5G micro base station power consumption control system of a smart lamp post according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Example 1:

the embodiment provides a 5G micro base station electricity utilization control method of a smart lamp post, as shown in fig. 1, comprising the following steps:

In this example, one 5G micro base station may be connected to several smart poles;

in this example, the illumination intensity of the smart light pole is inversely proportional to the ambient intensity;

in this example, the sub-required power represents the power that the smart pole needs to consume in the current illumination brightness;

in this example, the total power demand represents the power demand when the 5G base station and the smart pole are simultaneously operating.

The working principle of the technical scheme has the beneficial effects that: in order to continuously electrify the 5G micro base station, the normal work of the 5G micro base station is ensured, firstly, the illumination brightness of a plurality of intelligent lamp posts connected with the 5G micro base station is analyzed, then the required electric quantity is obtained according to the illumination brightness, then the required electric quantity of the 5G micro base station in the state is combined to obtain the total required electric quantity, and then power is supplied, so that the mode that the 5G micro base station is powered by the street lamp in the traditional thinking is broken through, the power supply of the intelligent street lamp by the 5G micro base station is changed, the power supply defect in the traditional mode is overcome, and the normal work of both the 5G micro base station and the intelligent street lamp is ensured.

Example 2

On the basis of embodiment 1, the 5G micro base station electricity utilization control method of the smart lamp post comprises the following steps:

In this example, the connected objects represent all objects having a connection relationship with the 5G micro base station;

in this example, the detection packet represents data having a detection function, or may be a detection code for analyzing data of the attribute of the connection object by accepting feedback information of the connection object;

in this example, the data characteristics include a feedback normal characteristic and a feedback abnormal characteristic.

The working principle of the technical scheme has the beneficial effects that: the detection data packet is sent to the connecting object through the 5G micro base station, the position of the intelligent lamp pole is determined according to the feedback data of each connecting object, and then the illumination brightness of each intelligent lamp pole can be obtained in an emphasized mode, so that the illumination brightness of each intelligent lamp pole can be accurately obtained, the connection state of each intelligent lamp pole can be judged according to the feedback data of the intelligent lamp pole, and intelligent control is realized.

Example 3

In this example, the virtual light pole represents a virtual object created in virtual space to simulate a smart light pole;

in this example, the virtual power consumption represents the amount of power consumed when the virtual light pole is adjusted to be consistent with the smart light pole operating state.

The working principle of the technical scheme has the beneficial effects that: in order to further analyze the power consumption condition of the intelligent lamp posts, a virtual lamp post is established in the virtual space, and then power consumption simulation is carried out by utilizing the virtual lamp post, so that not only can the sub-required electric quantity corresponding to each intelligent lamp post be obtained, but also the analysis speed can be improved, and the power consumption of the intelligent lamp posts can be reflected in real time.

Example 4

On the basis of embodiment 1, the 5G micro base station electricity utilization control method of the intelligent lamp post comprises the following steps:

In this example, the network topology represents the physical layout of the 5G micro base station and the smart light pole;

in this example, the topology node represents the position of the smart light pole on the network topology;

in this example, the static electricity required amount indicates an amount of electricity that each topology node needs to consume to maintain 5G communication;

in this example, the topological distance represents the communication distance between the topological node and the 5G micro base station;

in this example, the dynamic electricity demand represents the electricity that each smart light pole needs to consume when performing the lighting operation;

in this example, the transmission power demand represents the power consumed in the process of transmitting the power from the 5G micro base station to the smart lamp post, and the longer the topology distance is, the larger the transmission power demand is;

in this example, the obtaining the working electricity demand of each topology node according to the static electricity demand, the dynamic electricity demand and the transmission electricity demand corresponding to each topology node includes:

inputting the static electricity demand, the dynamic electricity demand and the transmission electricity demand corresponding to each topological node into the network topological structure to obtain an electricity topological graph;

performing electric quantity training on the static electric quantity required, the dynamic electric quantity required and the transmission electric quantity required on each topological node in the electric quantity topological graph to obtain an electric quantity required range corresponding to each topological node;

and carrying out mutual adaptation training on the needed point ranges corresponding to different topological nodes in the electric quantity topological graph to obtain the working needed electric quantity of each topological node.

Example verification this example: obtaining a network topology P of a 5G micro base station, obtaining 3 topology nodes P1, P2 and P3, wherein the signal intensity corresponding to each topology node is d1, d2 and d3, obtaining static electricity required quantity corresponding to each topology node as PJ1, PJ2 and PJ3, obtaining dynamic electricity required quantity corresponding to each topology node as PD1, PD2 and PD3 according to the sub electricity required quantity of each intelligent lamp post, obtaining the topology distance between each topology node and the 5G micro base station as L1, L2 and L3, obtaining the transmission electricity required quantity PC1, PC2 and PC3 of each topology node, sorting a plurality of electricity required quantity corresponding to each topology node, obtaining P1{ PJ1, PD1, PC1}, P2{ PJ2, PD 2} and P3{ PJ3, PD3 and PC3} and calculating the working electricity required quantity X1, X2 and X3 of each topology node, and finally obtaining the total electricity required quantity of 5G micro base station X1+X2.

The working principle of the technical scheme has the beneficial effects that: in order to ensure the normal operation of the 5G micro base station, firstly, the static electricity required by the 5G micro base station when transmitting signals to each intelligent lamp post can be obtained according to the network topology structure of the 5G micro base station, then the dynamic electricity required by each topology node is obtained according to the sub electricity required by each intelligent lamp post, and the transmission electricity required by each topology node is analyzed according to the topology distance between each topology node and the 5G micro base station, so that the electricity required by the 5G micro base station can be accurate to 1 degree, and the normal operation of the 5G micro base station is ensured.

Example 5

Based on embodiment 4, the method for controlling power consumption of the 5G micro base station of the smart lamp post obtains the total power demand of the 5G micro base station at the current moment, and includes:

In this example, the power fluctuation information represents fluctuation between two topological node power consumption models due to power interference;

in this example, balance training means modifying the power consumption in the topology node power consumption model to minimize power fluctuation information.

Example verification this example: establishing corresponding topological node power consumption models M1, M2 and M3 according to static power demand, dynamic power demand and transmission power demand corresponding to each topological node, then obtaining connection relations between the different topological node power consumption models as M1 and M2 connection, and M2 and M3 connection, thereby obtaining two electric energy waveform information B1 and B2, then carrying out balance training on M1 and M2 according to the electric energy waveform information B1, carrying out balance training on M2 and M3 according to B2, obtaining corresponding balance models as H1, H2 and H3 respectively, and obtaining the working power demand corresponding to each topological node according to the balance power demand corresponding to the balance model, thereby obtaining the total power demand of the 5G micro base station.

The working principle of the technical scheme has the beneficial effects that: by establishing a topological node model for each topological node, further analyzing the working electricity demand corresponding to each topological node, in order to ensure the normal operation of the 5G micro base station, the electric energy fluctuation among different intelligent street lamps needs to be considered and coordinated when power is supplied, so that the working electricity demand of the 5G micro base station can be obtained, the electric energy waveform in a circuit can be timely adjusted, and the normal operation of the 5G micro base station is ensured.

Example 6

On the basis of embodiment 1, the 5G micro base station electricity utilization control method of the smart lamp post, step 4, includes:

The working principle of the technical scheme has the beneficial effects that: in order to balance the electric energy in the 5G micro base station, electric energy conflict can not be generated, the 5G micro base station is powered according to the total required electric quantity, and then the power of each intelligent lamp post is supplied according to the required electric weight, so that the 5G micro base station and the intelligent street lamp can work normally.

Example 7

The invention provides an electric control device for a 5G micro base station of a smart lamp post, which is shown in fig. 2 and comprises:

Example 8

On the basis of embodiment 7, the electric control device for the 5G micro base station of the smart lamp post, the analysis module comprises:

Example 9

Based on embodiment 8, the electric control device for the 5G micro base station of the smart lamp post obtains the total power demand of the 5G micro base station at the current moment, and includes:

Example 10

The invention provides a 5G micro base station electricity utilization control system of a smart lamp post, as shown in fig. 3, comprising:

a power supply control device and a 5G micro base station power control device for a smart light pole according to any one of embodiments 7 to 9;

the power supply control device includes:

The working principle of the technical scheme has the beneficial effects that: in order to ensure the normal operation of the 5G micro base station, the power supply control device provides electric energy for the 5G micro base station in two ways, so that emergency can be timely handled, the electricity utilization stability of the 5G micro base station is ensured, and the guarantee is provided for the work of the 5G micro base station and an intelligent lamp post.

Example 11

On the basis of embodiment 10, the 5G micro base station electricity consumption control system of the smart lamp post, the electricity supply control device further includes:

the calculation module is used for obtaining the total electric quantity required by the 5G micro base station, and calculating the corresponding power supply quantity of the commercial power supply module and the power supply module according to formulas (1) and (2);

wherein, gamma represents the power supply distribution coefficient of the mains supply module and the power supply module, mu represents the power consumption power when the intelligent street lamp receives power, delta represents the maximum power consumption rate which can be born by the 5G micro base station, k represents the power transmission time, tau represents the power receiving efficiency of the intelligent lamp post, mu represents the power transmission efficiency of the 5G micro base station, and theta represents the unit time energy consumption coefficient of the intelligent lamp post;

wherein P is _s Representing the power supply quantity of a mains supply module, d representing the total power demand quantity of the 5G micro base station, and P _y Representing the power supply quantity of the power supply module;

and (3) obtaining a first power supply amount and a second power supply amount corresponding to the commercial power supply module and the power supply module according to the calculation result of the formula (2), and supplying power to the 5G micro base station according to the first power supply amount and the second power supply amount.

The working principle of the technical scheme has the beneficial effects that: the power supply quantity of the commercial power supply module and the power supply module to the 5G micro base station is calculated through the calculation module, so that power supply work is carried out, normal work of the 5G micro base station and the intelligent lamp post is guaranteed, and continuous supply of electric energy is further guaranteed.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. A5G micro base station electricity utilization control method of a smart lamp post is characterized by comprising the following steps:

step 4: providing electric quantity for the 5G micro base station according to the total electric quantity;

wherein, step 3 includes:

obtaining a topology node where each intelligent lamp post is located, and analyzing the dynamic electricity demand of the corresponding topology node according to the sub electricity demand of the intelligent lamp post;

2. The method for controlling power consumption of a 5G micro base station of a smart lamp post according to claim 1, wherein step 1 comprises:

3. The method for controlling power consumption of a 5G micro base station of a smart lamp post according to claim 1, wherein step 2 comprises:

4. The method for controlling power consumption of a 5G micro base station of a smart lamp post according to claim 1, wherein obtaining the total power demand of the 5G micro base station at the current moment comprises:

5. The method for controlling power consumption of a 5G micro base station of a smart lamp post according to claim 1, wherein step 4 comprises:

6. An electric control device for a 5G micro base station of an intelligent lamp post is characterized by comprising:

the execution module is used for providing electric quantity for the 5G micro base station according to the total electric quantity;

wherein the analysis module comprises:

7. The electric control device for a 5G micro base station of a smart lamp post according to claim 6, wherein obtaining the total power demand of the 5G micro base station at the current time comprises:

8. An electric control system for a 5G micro base station of a smart lamp post is characterized by comprising:

a power supply control device and a 5G micro base station power consumption control device of the smart lamp post according to any one of claims 6 to 7;

the power supply control device includes: