CN115696532B - Base station equipment management and control method and device, intelligent power controller and medium - Google Patents

Abstract

The application relates to the technical field of base station equipment management and control, in particular to a base station equipment management and control method, a base station equipment management and control device, an intelligent power controller and a medium, wherein the method comprises the following steps: acquiring real-time data information of 5G network equipment, model information of the 5G network equipment and current time information, wherein the electricity consumption of the 5G network equipment is the total electricity consumption of a preset time length before the current time information; judging whether the 5G network equipment is in a public area or not based on the position information of the 5G network equipment; if the network equipment is in the public area, determining the first equipment power utilization state of the 5G network equipment based on the current time information; if the power consumption state of the 5G network equipment is not in the public area, determining a second equipment power consumption state of the 5G network equipment based on the 5G network equipment power consumption in a preset time period and the model information of the 5G network equipment; and when the equipment power utilization state of the 5G network equipment is in an idle state, stopping power supply of the 5G network equipment. The method and the device improve the generation efficiency of the electric quantity scheduling of the 5G network equipment.

Description

Base station equipment management and control method and device, intelligent power controller and medium

Technical Field

The present application relates to the field of base station device management and control technologies, and in particular, to a base station device management and control method, apparatus, intelligent power controller, and medium.

Background

With the construction of 5G networks, the 5G scale is continuously expanded, and the 5G network devices have higher power consumption and cost than 4G devices, and in order to reduce the cost, the power consumption of the 5G network devices needs to be reduced to control the energy consumption of the devices.

In the related art, when the electricity consumption of the 5G network device changes, related technicians are required to collect device data information, and power failure control is performed on the 5G network device after the collected data information is analyzed, so as to reduce energy consumption, but the electricity scheduling strategy is inefficient.

Therefore, how to improve the efficiency of power scheduling is an urgent problem to be solved by those skilled in the art.

Disclosure of Invention

In order to improve the efficiency of electric quantity scheduling, the application provides a base station equipment management and control method, a base station equipment management and control device, an intelligent power controller and a medium.

In a first aspect, the present application provides a base station device management and control method, which adopts the following technical scheme:

a base station device management and control method includes:

acquiring real-time data information of the 5G network equipment, model information of the 5G network equipment and current time information, wherein the real-time data information comprises: the method comprises the steps of obtaining position information of 5G network equipment and electricity consumption of the 5G network equipment, wherein the electricity consumption of the 5G network equipment is the total electricity consumption of a preset time length before current time information;

judging whether the 5G network equipment is in a public area or not based on the position information of the 5G network equipment;

if the 5G network equipment is in a public area, determining a first equipment power utilization state of the 5G network equipment based on current time information;

if the 5G network equipment is not in the public area, determining a second equipment power utilization state of the 5G network equipment based on the 5G network equipment power utilization amount and the model information of the 5G network equipment;

if the equipment power utilization state of the 5G network equipment is an idle state, stopping power supply of the 5G network equipment, wherein the equipment power utilization state is a first equipment power utilization state or a second equipment power utilization state;

and when the equipment power utilization state of the 5G network equipment is a busy state, continuously supplying power to the 5G network equipment.

By adopting the technical scheme, the real-time data information of the 5G network equipment, the model information and the current time information of the 5G network equipment are collected, the real-time data information comprises the position information and the equipment power consumption of the 5G network equipment, when the 5G network equipment is determined to be in a public area according to the position information of the 5G network equipment, the power consumption of the 5G network equipment in different time periods is greatly different, therefore, the first equipment power consumption state of the 5G network equipment can be determined based on the current time information, when the 5G network equipment is not in the public area, the second equipment power consumption state of the equipment can be determined according to the 5G network equipment power consumption and the model of the 5G network equipment, further, when the power consumption state of the 5G network equipment is in an idle state, the requirement on the 5G network equipment at the moment is low, therefore, the power supply to the 5G network equipment can be stopped, the power consumption of the 5G network equipment is further reduced, and meanwhile, the power supply to the equipment is further intelligentized by judging the state of the 5G network equipment.

In one possible implementation manner, determining a second device power utilization state of the 5G network device based on the 5G network device power utilization amount and the model information of the 5G network device within a preset time period includes:

determining a power consumption threshold corresponding to the power consumption of the 5G network equipment according to the model information of the 5G network equipment;

judging whether the electricity consumption of the 5G network equipment is greater than an electricity consumption threshold value;

if yes, determining that the power utilization state of second equipment of the 5G network equipment is a busy hour state, and otherwise, determining that the second equipment is an idle hour state;

determining a power consumption threshold corresponding to the power consumption of the 5G network equipment according to the model information of the 5G network equipment comprises the following steps:

obtaining historical electricity consumption of a plurality of 5G network devices aiming at the history of the model information of the 5G network devices, wherein the historical electricity consumption of each 5G network device is the electricity consumption in the same time period as the electricity consumption of the 5G network devices;

determining a power consumption threshold according to historical power consumption of a plurality of 5G network devices, wherein the power consumption threshold is the maximum power consumption in the historical power consumption of the plurality of 5G network devices, or the average power consumption of the historical power consumption of the plurality of 5G network devices, or the power consumption determined according to the historical power consumption of the plurality of 5G network devices and respective corresponding first weights;

or the like, or, alternatively,

determining the total equipment use duration of the 5G network equipment, and determining a corresponding relation corresponding to the model information of the 5G network equipment, wherein the corresponding relation is the corresponding relation between the total equipment use duration of the model information and a plurality of weights;

determining the weight from the corresponding relation of the 5G network equipment according to the total using duration of the equipment;

and determining the electric quantity threshold according to the weight, the power information of the model information of the 5G network equipment and a preset time length.

By adopting the technical scheme, historical electricity consumption of a plurality of 5G network devices is acquired aiming at the model information of the 5G network devices, each historical electricity consumption of the 5G network devices is the electricity consumption in the same time period as the electricity consumption of the 5G network devices, and then the maximum electricity consumption in the historical electricity consumption of the plurality of 5G network devices or the average electricity consumption of the historical electricity consumption of the plurality of 5G network devices or the electricity consumption determined according to the historical electricity consumption of the plurality of 5G network devices and the corresponding first weights are determined as an electricity threshold; or determining the total equipment use time of the 5G network equipment, determining the corresponding relation between the total equipment use time and the models of the 5G network equipment, wherein the total use time of different equipment models is different, and the corresponding weights are also different, determining the weight from the corresponding relation according to the total equipment use time, and determining the power consumption threshold value based on the weight, the power information of the model information of the 5G network equipment and the preset time length, so that the power consumption threshold value can be quickly obtained, and the equipment state of the 5G network equipment can be accurately measured through the power consumption threshold value.

In a possible implementation manner, before the obtaining of the real-time data information of the 5G network device, the model information of the 5G network device, and the current time information, the method further includes:

acquiring current time information, and determining whether the current time information is within a preset timing time range based on the current time information;

if the current time information is within a preset timing time range, stopping power supply to the 5G network equipment;

and if the current time information is not in the preset timing time range, acquiring the real-time data information of the 5G network equipment, the model information of the 5G network equipment and the current time information.

By adopting the technical scheme, the current time information is acquired, whether the current time information is in the preset timing time range or not is judged, if the current time information is in the preset timing time range, the power supply to the 5G network equipment is stopped, the preset timing time is the power supply stopping time, if the current time information is not in the preset timing time range, the power scheduling strategy is implemented based on the power utilization state of the 5G network equipment, and the power consumption can be effectively reduced by regularly starting and closing the 5G network equipment.

In one possible implementation manner, the stopping power supply to the 5G network device if the device power consumption state of the 5G network device is an idle state includes:

acquiring the electricity consumption of the 5G network equipment within a preset idle time range after the equipment electricity consumption state of the 5G network equipment is the idle state;

judging whether the electricity consumption of the 5G network equipment in the preset idle time range is smaller than the maximum electricity consumption threshold of the 5G network equipment in the preset idle time range;

if the power consumption is less than the maximum power consumption threshold of the 5G network equipment, controlling the 5G network equipment to enter a dormant state;

acquiring the electricity consumption of the 5G network equipment after entering the dormant state, and judging whether the electricity consumption of the 5G network equipment after entering the dormant state is smaller than the maximum electricity consumption threshold of the 5G network equipment after entering the dormant state; if the current value is less than the preset value, stopping power supply of the 5G network equipment; and if not, controlling the 5G network equipment to maintain the sleep state.

By adopting the technical scheme, after the 5G network equipment is in the idle state, whether the equipment power consumption of the 5G network equipment in the idle state in the preset idle time range is smaller than the equipment maximum power consumption threshold in the preset idle time range or not is judged, if not, the 5G network equipment in the idle state is less in power consumption, and if the 5G network equipment in the continuity state is less in power consumption, the 5G network equipment can be controlled to enter the dormant state, whether the 5G network equipment power consumption after entering the dormant state is smaller than the equipment maximum power consumption threshold after entering the dormant state is judged, if so, the 5G network equipment power consumption in the dormant state is further judged to be less, so that the 5G network equipment power consumption is not greatly increased, the power supply of the 5G network equipment can be stopped, if not, a certain requirement for the 5G network equipment is still met, the 5G network equipment power consumption can be greatly increased, and the 5G network equipment can be timely started, so that the 5G network equipment needs to be kept in the dormant state.

In one possible implementation manner, the method further includes:

when the equipment power utilization state of the 5G network equipment is a busy state, acquiring voltage data information and current data information of the 5G network equipment;

judging whether the voltage data information is in a voltage normal data range or not to obtain a first judgment result;

judging whether the current data information is in a current normal data range or not to obtain a second judgment result;

and if the first judgment result indicates that the voltage data information is not in the voltage normal data range, or the second judgment result indicates that the current data information is not in the current normal data range, stopping power supply of the 5G network equipment, and sending a turn-off early warning.

By adopting the technical scheme, when the equipment power consumption state of the 5G network equipment is in a busy hour state, the voltage data information and the current data information of the 5G network equipment are obtained, whether the voltage data information is in a voltage normal data range or not is judged, a first judgment result is obtained, whether the current data information is in a normal current data range or not is judged, a second judgment result is obtained, whether the voltage data information is in a normal voltage data range or not is judged based on the first judgment result, whether the voltage of the 5G network equipment is normal or not is judged, whether the current of the 5G network equipment is normal or not is judged based on the second judgment result, if the voltage or the current of the 5G network equipment is abnormal or not is judged, the power supply of the 5G network equipment is stopped, the power supply is not carried out under the condition that the 5G network equipment is abnormal, the damage to the 5G network equipment is reduced, the 5G network equipment is prevented from running under the abnormal state for a long time, the turn-off early warning is sent at the same time, the related technical personnel are reminded to carry out timely overhaul on the 5G network equipment, and the management efficiency of the 5G network equipment is improved.

In a possible implementation manner, after the stopping of the power supply of the 5G network device, the method further includes:

judging whether the current time reaches the power supply time, if so, starting the power utilization of the 5G network equipment;

if not, acquiring a scene video in front of the 5G network equipment;

determining the number of people corresponding to each frame based on each frame of image in the scene video;

and if the number of the personnel in the continuous preset images is larger than the maximum threshold value of the preset number of the personnel, starting the power supply of the 5G network equipment.

By adopting the technical scheme, whether the current moment reaches the power supply moment is judged, if the current moment reaches the power supply moment, the busy hour state of the 5G network equipment is indicated, the power supply to the 5G network equipment needs to be timely recovered, the power utilization requirement of the 5G network equipment is met, if the current moment does not reach the power supply moment, the scene video of the 5G network equipment is obtained, whether the number of personnel in each frame image in the scene video is greater than the preset maximum personnel number threshold value is judged, if the personnel data in the continuous preset image is greater than the preset maximum personnel number threshold value, the personnel flow of the 5G network equipment at the current moment is larger, the requirement on the 5G network equipment is higher, the power supply to the 5G network equipment needs to be timely started, the power supply to the 5G network equipment is timely started through judging the current moment and the personnel number, the intelligent management and control on the 5G network equipment can be further realized, and the management efficiency is improved.

In a possible implementation manner, the stopping the power supply of the 5G network device includes:

sending a distribution stopping request to a control device, wherein the control device is used for distributing services for a plurality of target 5G network devices, and the target 5G network devices comprise the 5G network devices and a plurality of other 5G network devices;

determining the position weight corresponding to each of a plurality of other 5G network devices according to the position information of the 5G network device and the position information corresponding to each of the plurality of other 5G network devices;

determining the weight of the power consumption corresponding to each of the other 5G network equipment according to the power consumption information corresponding to each of the other 5G network equipment;

determining equipment to be transferred from the other 5G network equipment according to the position weight and the power consumption weight corresponding to the other 5G network equipment;

and transferring the service of the 5G network equipment to be transferred, and powering off the 5G network equipment.

By adopting the technical scheme, after the allocation stopping request is sent, the position information of the 5G network equipment and the position information corresponding to a plurality of other 5G network equipment can be obtained, the position weight corresponding to each other is further determined, the power consumption information corresponding to each other of the other 5G network equipment is obtained, the power consumption weight corresponding to each other is determined, the equipment to be transferred is determined based on the position weight and the power consumption weight corresponding to each other of the plurality of other 5G network equipment, the service of the 5G network equipment is transferred to the equipment to be transferred and then the 5G network equipment is subjected to power-off processing, and the influence on surrounding buildings and human activities is reduced while the power resources are saved.

In a second aspect, the present application provides a base station device management and control apparatus, which adopts the following technical solution:

a base station device management and control apparatus includes:

the acquisition module is used for acquiring the real-time data information of the 5G network equipment, the model information and the current information of the 5G network equipment, wherein the real-time data information comprises: the method comprises the steps of obtaining position information of 5G network equipment and electricity consumption of the 5G network equipment, wherein the electricity consumption of the 5G network equipment is the total electricity consumption of a preset time length before current time information;

the judging module is used for judging whether the 5G network equipment is in a public area or not according to the position information of the 5G network equipment;

the first equipment power utilization state determining module is used for determining a first equipment power utilization state of the 5G network equipment based on current time information when the 5G network equipment is in a public area;

the second equipment power utilization state determining module is used for determining a second equipment power utilization state of the 5G network equipment based on the 5G network equipment power consumption in a preset time period and the model information of the 5G network equipment when the 5G network equipment is not in a public area;

the power supply stopping module is used for stopping power supply of the 5G network equipment when the equipment power utilization state of the 5G network equipment is an idle state, wherein the equipment power utilization state is a first equipment power utilization state or a second equipment power utilization state;

and the continuous power supply module is used for continuously supplying power to the 5G network equipment when the equipment power utilization state of the 5G network equipment is a busy state.

The third aspect, the present application provides an intelligent power controller, adopts following technical scheme:

at least one processor;

a memory;

at least one application, wherein the at least one application is stored in the memory and configured to be executed by the at least one processor, the at least one application configured to: and executing the base station equipment management and control method.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium having stored thereon a computer program that, when executed in a computer, causes the computer to execute the above-described base station apparatus management and control method.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the method comprises the steps of obtaining real-time data information of 5G network equipment, model information of the 5G network equipment and current information, wherein the real-time data information can be position information of the 5G network equipment and electricity consumption of the 5G network equipment, judging whether the 5G network equipment is located in a public area or not according to the position information of the 5G network equipment, the electricity consumption of the 5G network equipment located in the public area has a time characteristic, therefore, a first equipment electricity consumption state of the 5G network equipment can be determined based on the current time information, when the 5G network equipment is not located in the public area, the electricity consumption of the 5G network equipment does not have the time characteristic, judging a second equipment electricity consumption state of the 5G network equipment based on the model information of the 5G network equipment and the electricity consumption of the 5G network equipment in a preset time period, when the 5G network equipment is in an idle state, stopping power supply to the 5G network equipment, judging whether the 5G network equipment is powered or not through the equipment state, and effectively improving the efficiency of an electricity scheduling strategy.

2. Whether the 5G network equipment needs to enter the dormant state or not can be determined by judging the electricity consumption of the 5G network equipment in the idle state, whether the power supply of the 5G network equipment is stopped or not can be determined by judging the electricity consumption of the 5G network equipment in the dormant state again, and the 5G network equipment in the dormant state not only can be quickly started to enter the working state and reduce the energy consumption, but also can be quickly entered into the power supply stopping state.

3. The voltage data information and the current data information of the 5G network equipment are monitored in real time, whether the voltage data information and the current data information are within a normal range is judged, whether voltage abnormity and current abnormity exist in the 5G network equipment is further judged, if the voltage abnormity and the current abnormity exist in the 5G network equipment, the 5G network equipment is stopped to supply power in time, and turn-off early warning is sent, technicians are reminded of overhauling in time, long-time abnormal operation of the 5G network equipment is avoided, and the service life of the 5G network equipment is prolonged.

Drawings

Fig. 1 is a complete system diagram of base station device management and control provided in an embodiment of the present application.

Fig. 2 is a schematic connection diagram of an intelligent power controller and a base station according to an embodiment of the present disclosure.

Fig. 3 is a flowchart illustrating a base station device management and control method according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a base station device management and control apparatus according to an embodiment of the present disclosure.

Fig. 5 is a schematic structural diagram of an intelligent power supply controller according to an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to fig. 1 to 5.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent laws within the scope of the present application.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all 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 application.

In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship, unless otherwise specified.

The embodiments of the present application will be described in further detail with reference to the drawings attached hereto.

Urban areas and residential areas are gathered places which are important positions for base station deployment, such areas are densely covered by high buildings, the number of buildings is large, the number of personnel is large, therefore, when covering, not only the ground needs to be covered, but also the vertical coverage of the high buildings needs to be noticed, and the demand of areas with large flow of people for the base stations is large, so that the power consumption of the base stations in the areas is large, the real-time monitoring of the power consumption of the base stations is needed, for village and town areas, the base stations are generally deployed in central areas of villages and towns, for mountainous areas, the base stations are generally deployed at mountain tops, for some plain areas with small flow of people, the base stations are far away in number, the demand of the base stations is small, and the power consumption is small.

As shown in fig. 1 and fig. 2, fig. 1 is a complete system diagram of a base station device management and control system provided in the present application. The control center is connected with the intelligent power supply controller through the Internet of things, the control center sends out an instruction, and the intelligent power supply controller monitors electricity consumption of the 5G network equipment AAU or 5G network equipment BBU according to the received instruction and performs power supply turn-off control by combining the electricity consumption. The base station equipment management and control complete system further comprises a base station power supply module and a switch power supply, wherein the base station power supply module can be a base station storage battery and can supply power for 5G network equipment through a 5G direct current distribution unit, BBU equipment in the 5G network equipment can also be divided into main equipment and standby equipment, and the standby equipment can be started when the main equipment is abnormal, so that the base stations can communicate normally. The connection between the 5G network device and the intelligent power controller is described with reference to fig. 2, where the intelligent power controller is connected in series between the DCDU power supply and the AAU, the shorter line is the load line of the AAU, the longer line is the positive line of the AAU, the load line of the DCDU is connected to the device, and the output end of the intelligent power controller is connected to the AAU. Specifically, intelligent electrical source controller can adopt standard 19 inches 1U quick-witted case, carries on a section 32 CPU of bit, the installation of macro station and rack website of being convenient for, and 3 main port +1 reserve ports that intelligent electrical source controller adopted are used for the dilatation of the basic station in later stage and reserve, and this application is dual system theory of operation, and simultaneously, when equipment broke down, but some physical connection of relay automatic closure resume.

Specifically, an embodiment of the present application provides a base station device management and control method, which is executed by an intelligent power controller, where the intelligent power controller is an energy saving device, and with reference to fig. 3, fig. 3 is a flowchart of a base station device management and control method provided in the embodiment of the present application, where the method includes step S101, step S102, step S103, step S104, step S105, and step S106, where:

step S101, acquiring real-time data information of the 5G network equipment, model information of the 5G network equipment and current time information, wherein the real-time data information comprises: the position information of the 5G network equipment and the electricity consumption of the 5G network equipment, wherein the electricity consumption of the 5G network equipment is the total electricity consumption of the preset time length before the current time information.

For the embodiment of the application, the device model information of the 5G network device and the position information of the 5G network device are pre-stored in the intelligent power controller, wherein the position information of the 5G network device can be the longitude and latitude of the 5G network device, the power consumption and the current time information of the 5G network device are input into the intelligent power controller in real time, and in order to ensure the accuracy of the current time information, the intelligent power controller is internally provided with clock calibration and can keep synchronization with the network time. In the embodiment of the present application, the preferred preset time length is 20 minutes, for example, the current time information is 8:00, the intelligent power controller obtains 7:40-8: and (3) the power consumption of 5G network equipment in the 00 time period, wherein the preset time length is obtained according to a test, the preferable preset time length is 20 minutes, if the time is too long, the power consumption change is large, and if the time is short, the power consumption change has contingency in the preset time period.

And step S102, judging whether the 5G network equipment is in a public area or not based on the position information of the 5G network equipment.

Specifically, the intelligent power controller stores longitude and latitude of the 5G network device in advance, when the intelligent power controller reads the longitude and latitude of the 5G network device, the intelligent power controller can obtain the position of the 5G network device and a building image of the 5G network device in the position coverage range from a satellite map database based on the specific longitude and latitude, determine the density of buildings in the coverage range according to surrounding building images, and determine that the area is a public area if the building density exceeds a preset density, wherein the preset density can be set according to actual requirements, or the intelligent power controller can obtain the building name in the 5G network device coverage range from the database, and determine that the 5G network device is in the public area if the building name contains 'park', 'amusement park', 'mall', 'market' and 'office building', and the number of the building name exceeds a preset number, or match the position information of the 5G network device with the position ranges of a plurality of public areas stored in advance, and determine that the public areas are in the public areas if the matching is successful, wherein the public areas are set by combining with actual environment conditions.

And step S103, if the 5G network equipment is in the public area, determining the first equipment power utilization state of the 5G network equipment based on the current time information.

Specifically, the 5G network devices located in the public area have different power consumptions at different times, and due to the particularity of the positions of the public area, if the current time information is in a preset time period, it indicates that the traffic is large, and the demand for the 5G network devices is high, so that the power consumption of the 5G network devices is high at this time, in the embodiment of the present application, the preset time represents a busy time period with a large traffic, and may be one or a plurality of, and the embodiment of the present application does not limit the preset time, and a user can set the time by himself or herself, for example, in an office building, if the current time information is in a certain preset time period, it may represent the working time and the traffic is large, or when the public area where the 5G network devices are located includes a mall, and the current time information is in one of the preset time periods, wherein the busy time periods may represent the mall time, generally are non-working time personnel, that the current time information indicates that the traffic is large in the preset time period, the demand for the 5G network devices is large, the 5G network devices, and the power consumption of the network devices is increased, and when the current time is not in the preset time, the busy time is not increased, and the power consumption of the network devices is reduced, and the electricity consumption of the network devices is less.

Therefore, when the 5G network equipment is in a public area, whether the current time information is in a preset time range or not can be judged, and then the first equipment power utilization state of the 5G network equipment is determined, the first equipment power utilization state of the 5G network equipment can be judged more quickly by directly judging the first equipment power utilization state based on the current time information, and further the management and control efficiency of the 5G network equipment is improved.

And step S104, if the 5G network equipment is not in the public area, determining a second equipment electricity utilization state of the 5G network equipment based on the 5G network equipment electricity utilization amount and the model information of the 5G network equipment.

Specifically, although the 5G network device is not in the public area, the second device power utilization state of the 5G network device may be determined based on the 5G network device power consumption and the 5G network device model in the preset time period, specifically, the corresponding power consumption threshold may be determined based on the 5G network device model and the 5G network device power consumption, in this embodiment of the present application, the maximum power consumption of the multiple historical power consumption of the 5G network device in the history of the 5G network device model or the average power consumption of the multiple historical power consumption of the 5G network device and the respective corresponding first weight may be determined according to the historical power consumption of the 5G network device and the respective corresponding first weight, or the power consumption threshold may be determined according to the second weight corresponding to the multiple devices to be referred to and the devices to be referred to, the power information in the 5G network device model information and the preset time length, when the 5G network device power consumption exceeds the corresponding power consumption threshold, the 5G network device is in a busy state, and when the 5G network device power consumption does not exceed the corresponding power consumption threshold, the 5G network device is in a spare state, and the second device power consumption state of the 5G network device in the preset time period may be determined based on the second accurate power consumption information of the 5G network device model.

And step S105, if the equipment power utilization state of the 5G network equipment is an idle state, stopping power supply of the 5G network equipment, wherein the equipment power utilization state is a first equipment power utilization state or a second equipment power utilization state.

Specifically, when the intelligent power controller judges that the equipment power utilization state of the 5G network equipment is in an idle state based on the current time information or the intelligent power controller judges that the second equipment power utilization state of the 5G network equipment is in an idle state based on the model information of the 5G network equipment and the power consumption of the 5G network equipment in a preset time period, the power supply to the 5G network equipment is stopped. In the embodiment of the application, an arc extinguishing type relay is preferred, the arc extinguishing type relay can normally operate without being influenced by the temperature, the damage to 5G network equipment can be reduced, a driving part or a contact is protected from being damaged, and electromagnetic interference is restrained. And the intelligent power controller can automatically record the power supply stopping instruction and continuously execute the power supply stopping instruction after receiving the AT (Attention) instruction until receiving a new AT instruction. For the embodiment of the application, when the 5G network device is in the idle state, stopping power supply to the 5G network device can reduce consumption of power resources of the 5G network device, and stopping power supply to the 5G network device based on the power consumption state of the 5G network device also enables management of the 5G network device to be more intelligent, and meanwhile, the efficiency of power scheduling is further improved.

And S106, when the equipment power utilization state of the 5G network equipment is in a busy state, continuously supplying power to the 5G network equipment.

Specifically, when the intelligent power supply controller determines that the equipment power consumption state of the 5G network equipment is in a busy hour state, the intelligent power supply controller controls the power supply system to continuously supply power to the 5G network equipment, so that the 5G network equipment can normally operate.

The 5G network equipment has the problems of power failure, service withdrawal or failure in first starting in the operation process. The intelligent power supply controller can monitor the power supply running state of the 5G network equipment, if the problem that the 5G network equipment fails in power failure or service withdrawal or first starting failure is found, the intelligent power supply controller can send warning information to the control center, the control center sends a recovery instruction after receiving the information, and the intelligent power supply controller loads the power supply again for three times to recover the normal power supply state so that the 5G network equipment can run normally after receiving the recovery instruction.

Based on the above embodiment, the real-time data information of the 5G network device, the model information of the 5G network device, and the current time information are obtained, the real-time data information includes the position information of the 5G network device and the power consumption of the 5G network device, whether the 5G network device is in a public area is judged according to the position information of the 5G network device, for the 5G network device, the special characteristics of the position represent different judgment modes for the power consumption state of the device, and the power consumption of the 5G network device in the public area has the characteristic of time distribution, i.e., the time is different, the power consumption state of the 5G network device is also different, a larger difference exists, and the difference of the power consumption time distribution characteristic of the 5G network device not in the public area is smaller, so that the power consumption state of the 5G network device can be judged according to the power consumption of the 5G network device and the model information of the 5G network device in a preset time period, the power consumption state of the second device can be judged according to the power consumption state of the 5G network device in an idle time period, the power consumption state of the 5G network device can be judged, and the power consumption state of the 5G network device can be regulated, and the intelligent network device can be more accurately, and the management and control efficiency of the 5G network device can be improved.

Further, in this embodiment of the present application, determining a second device power consumption state of the 5G network device based on the 5G network device power consumption and the device model information in the preset time period includes: step S1041-step S1043 (not shown in the figure), wherein:

and S1041, determining a power consumption threshold corresponding to the power consumption of the 5G network equipment according to the model information of the 5G network equipment.

In a possible implementation manner, step S1041 includes: step S1041 A1-step S1041A2 (not shown in the figure), wherein:

step S1041A1, obtaining a plurality of historical electricity consumption amounts of the 5G network device for the history of the model information of the 5G network device, where each historical electricity consumption amount of the 5G network device is an electricity consumption amount in the same time period as the electricity consumption amount of the 5G network device.

Specifically, the intelligent power controller monitors the power consumption of each 5G network device model in real time, and stores the monitored power consumption in the data information base, that is, the intelligent power controller can obtain the historical power consumption of a plurality of historical 5G network devices of each device model from the historical database. The historical power consumption of the plurality of 5G network devices may be power consumption of the 5G network devices in the same time period in a plurality of working days according to the embodiment of the application, or may be historical power consumption of other 5G network devices according to the same device model information.

Step S1041A2, determining a power consumption threshold according to historical power consumptions of the multiple 5G network devices, where the power consumption threshold is a maximum power consumption in the historical power consumptions of the multiple 5G network devices, or an average power consumption of the historical power consumptions of the multiple 5G network devices, or a power consumption determined according to the historical power consumptions of the multiple 5G network devices and the respective corresponding first weights.

Specifically, the intelligent power controller can obtain a plurality of historical 5G network equipment power consumption amounts from a historical database, and select the maximum power consumption amount to determine a power consumption amount threshold value; or the intelligent power controller acquires historical power consumption of a plurality of 5G network devices in the same preset time range, and calculates the average power consumption of the devices based on the number of the devices and the corresponding 5G network device power consumption to be used as a power consumption threshold; or determining the power consumption based on the historical power consumptions of the multiple devices and the corresponding first weights, wherein the first weights can be obtained based on the positions of the devices, when the positions of the devices are close to a public area, the higher the first weights of the corresponding devices are, determining the total power consumption of the devices based on the first weights of all the devices and the power consumptions, and calculating the average power consumption of the devices based on the total power consumption and the number of the devices, wherein the average power consumption of the devices is the power consumption threshold.

In another possible implementation manner, step S1041 includes: step S1041B 1-step S1041B3 (not shown in the figure), wherein:

step S1041B1, determining a total device usage duration of the 5G network device, and determining a corresponding relationship corresponding to the model information of the 5G network device, where the corresponding relationship is a corresponding relationship between a plurality of total device usage durations of the model information of the 5G network device and a plurality of weights.

Specifically, the intelligent power controller may obtain the total usage duration of each 5G network device from the data information base, where each different 5G network device model corresponds to a plurality of devices, the total usage duration of each device is different, and different devices use different 5G network devices at different geographic locations, so that the total usage duration of each 5G network device is also different, and therefore, the total usage duration of each 5G network device corresponds to different weights.

And S1041B2, determining the weight from the corresponding relation according to the total using time length of the equipment.

And S1041B3, determining a power consumption threshold according to the weight, the power information of the model information of the 5G network equipment and the preset time length.

Specifically, the longer the total usage duration of the 5G network devices is, the smaller the corresponding weight is, and a power consumption threshold is obtained based on the weight, the power information of the model information of the 5G network devices, and the preset time length, where the power information of the model information of the 5G network devices is input to the intelligent power controller in advance, in the embodiment of the present application, the power consumption of each 5G network device = the power information — the preset time length, and the power consumption threshold = the power consumption weight of each 5G network device, so that the power consumption threshold of each 5G network device can be obtained quickly and accurately.

And step S1042, judging whether the electricity consumption of the 5G network equipment is larger than an electricity consumption threshold.

And S1043, if yes, determining that the power utilization state of the second equipment of the 5G network equipment is a busy state, otherwise, determining that the power utilization state is an idle state.

Specifically, whether the electricity consumption of the equipment is greater than the electricity consumption threshold is judged, if the electricity consumption of the equipment is greater than the electricity consumption threshold, it can be determined that the electricity consumption of the 5G network equipment is relatively high, and the demand for the 5G network equipment is relatively high, so that the 5G network equipment is in a busy hour state at the moment, if the 5G network equipment is less than the electricity consumption threshold, the electricity consumption of the 5G network equipment is relatively low, and the 5G network equipment is in a free hour state at the moment.

For the embodiment of the application, the power consumption threshold corresponding to the model information of the 5G network device may be determined from the correspondence between the pre-stored device model information and the power consumption threshold, where the power consumption thresholds of all devices with the same device model information may be the same, each device may correspond to one power consumption threshold, and the power consumption thresholds of the devices with the same device model information within a preset geographic range may be the same.

Specifically, the intelligent power controller judges whether the equipment power consumption of each equipment model in a preset time range is larger than a power consumption threshold, if the 5G network equipment power consumption is larger than the preset power consumption threshold, the second equipment power consumption state of the 5G network equipment is determined to be a busy hour state, and if the 5G network equipment power consumption is smaller than the preset power consumption threshold, the second equipment power consumption state of the 5G network equipment is determined to be a free hour state.

Based on the embodiment, the power consumption threshold corresponding to the power consumption of the 5G network equipment is determined according to the model information of the 5G network equipment, whether the power consumption of the 5G network equipment is greater than the power consumption threshold is judged, if the power consumption of the 5G network equipment is greater than the power consumption threshold, the power consumption state of the second equipment of the 5G network equipment is in a busy hour state, otherwise, the 5G network equipment is in a free hour state, and the quick judgment on the power consumption state of the equipment can be realized only by judging the power consumption of the 5G network equipment and the power consumption threshold.

Further, in this embodiment of the application, before obtaining the real-time data information of the 5G network device, the model information of the 5G network device, and the current time information, the method further includes steps SA1 to SA3 (not shown in the drawings), where:

and step SA1, acquiring current time information, and determining whether the current time information is within a preset timing time range based on the current time information.

And step SA2, if the current time information is within a preset timing time range, stopping power supply to the 5G network equipment.

And step SA3, if the current time information is not in the preset timing time range, acquiring the real-time data information of the 5G network equipment, the model information of the 5G network equipment and the current time information.

Specifically, the intelligent power supply controller reads current time information, and determines whether the current time information is within a preset timing time range, where the preset timing time range is input to the control platform in advance according to experience by a technician, the control platform sends an instruction to the intelligent power supply controller according to the input preset timing time range information, if the current time information is within the preset timing time range, the intelligent power supply controller receives a power supply stop instruction sent by the control platform, and stops supplying power to the 5G network device, and if the current time information is not within the preset timing time range, steps S101 to S106 are executed, and the 5G network device is managed and controlled based on a 5G network device state, as shown in table 1, a 5G network device closing and opening schedule is shown, and the preset time is 23.

Based on the embodiment, the timing opening and closing functions of the 5G network equipment can be realized, the 5G network equipment is closed at a timing, the operation of the 5G network equipment is stopped, and further the electricity consumption of the 5G network equipment is reduced.

TABLE 1 5G network device turn-off and turn-on schedules

Further, in this embodiment of the application, if the device power consumption state of the 5G network device is an idle state, the power supply of the 5G network device is stopped, including steps SB1 to SB4 (not shown in the drawings), where:

and step SB1, obtaining the electricity consumption of the 5G network equipment within a preset idle time range after the equipment electricity consumption state of the 5G network equipment is in an idle state.

Specifically, in the embodiment of the present application, the preset idle time range is not limited, and the user can set the idle time range by himself. And transmitting the electricity consumption of the 5G network equipment in the preset idle time range to the intelligent power controller in real time.

And step SB2, judging whether the electricity consumption of the 5G network equipment in the preset idle time range is less than the maximum electricity consumption threshold of the 5G network equipment in the preset idle time range.

And step SB3, if the maximum electricity consumption threshold of the 5G network equipment is less than the maximum electricity consumption threshold of the 5G network equipment, controlling the 5G network equipment to enter a dormant state.

Specifically, the maximum power consumption threshold of the 5G network device in the preset idle time range may be set by a technician according to experience, or may be set according to the location information and the power consumption of the 5G network device. It can be understood that the maximum electricity consumption threshold of the 5G network device in the preset idle time range is smaller than any electricity consumption threshold when the device is not in the idle state. And when the electricity consumption of the 5G network equipment in the preset idle time range is smaller than the maximum electricity consumption threshold of the 5G network equipment in the preset idle time range, controlling the 5G network equipment to enter a dormant state.

Step SB4, acquiring the electricity consumption of the 5G network equipment after entering the dormant state, and judging whether the electricity consumption of the 5G network equipment after entering the dormant state is smaller than the maximum electricity consumption threshold of the 5G network equipment after entering the dormant state; if the current value is less than the preset value, stopping power supply of the 5G network equipment; and if not, controlling the 5G network equipment to maintain the sleep state.

The method comprises the steps that 5G network equipment after entering a dormant state is in low-power-consumption operation, the power consumption of the 5G network equipment is uploaded to an intelligent power controller in real time, the intelligent power controller judges whether the power consumption of the 5G network equipment after entering the dormant state is smaller than the maximum power consumption threshold of the 5G network equipment after entering the dormant state, the maximum power consumption threshold of the 5G network equipment after entering the dormant state is set by technicians according to experience, and the maximum power consumption threshold can be set according to the position of the 5G network equipment and the power consumption after entering the dormant state.

Specifically, if it is detected that the power consumption of the 5G network device after entering the hibernation state is smaller than the maximum power consumption threshold of the device after entering the hibernation state, the power supply to the 5G network device is stopped, which indicates that the power consumption of the 5G network device after entering the hibernation state is continuously lower, that is, the power consumption is in a condition that the power consumption has not exceeded the power consumption threshold, so that the power supply to the 5G network device in the hibernation state can be stopped, and if the power consumption is not smaller than the power consumption threshold, it indicates that the power consumption of the 5G network device in the hibernation state is obviously increased, so that the 5G network device should be continuously in the hibernation state at this time, so as to meet the demand of the 5G network device.

Based on the above embodiment, the power consumption of the 5G network device in the idle state is determined to determine whether the 5G network device is continuously in the low power consumption state, if the 5G network device is in the low power consumption state, the 5G network device can be controlled to enter the sleep state, the power consumption of the 5G network device in the sleep state is less, the power consumption of the 5G network device in the sleep state is determined, when the power consumption of the 5G network device in the sleep state is not greatly changed, the power supply of the 5G network device is stopped, if the power consumption shows an obvious increasing trend, the 5G network device is controlled to maintain the sleep state, the power consumption can be reduced, and meanwhile, the 5G network device in the sleep state can complete state conversion according to the power consumption.

Further, in order to improve the management efficiency of the 5G network device, in this embodiment of the application, the method further includes: step SC 1-step SC4 (not shown in the drawings), wherein:

and step SC1, when the equipment electricity utilization state of the 5G network equipment is a busy state, acquiring voltage data information and current data information of the 5G network equipment.

Specifically, the voltage and the current of the 5G network equipment change in real time in the using process, due to natural factors or the quality factors of the equipment, the problems of high voltage abnormity, low voltage abnormity or current abnormity exist in the using process, therefore, the voltage data information and the current data information can change suddenly, the voltage data information and the current data information of the 5G network equipment can be uploaded to the intelligent power supply controller in real time, the intelligent power supply controller monitors the change condition of the voltage data information and the change condition of the current data information in real time, the running condition of the 5G network equipment can be obtained by obtaining the voltage data information and the current data information, the problems of voltage abnormity or current abnormity of the 5G network equipment are avoided, and meanwhile, the equipment is prevented from being in an abnormal condition for a long time.

And step SC2, judging whether the voltage data information is in a voltage normal data range or not to obtain a first judgment result.

Specifically, the voltage normal data ranges of the 5G network devices of different models are pre-input into the intelligent power supply controller, the intelligent power supply controller obtains voltage data information in real time, and judges the voltage data information to determine whether the voltage data information is in the voltage normal data range, so that a first judgment result is obtained.

And step SC3, judging whether the current data information is in the current normal data range or not to obtain a second judgment result.

Specifically, the current data ranges of the 5G network devices of different models are input into the intelligent power supply controller in advance, the intelligent power supply controller obtains the current data information of the 5G network devices in real time, and judges the current data information to determine whether the current data information is in the current normal data range or not, so that a second judgment result is obtained.

And step SC4, if the first judgment result is that the voltage data information is not in the voltage normal data range, or the second judgment result is that the current data information is not in the current normal data range, stopping power supply of the 5G network equipment, and sending a turn-off early warning.

Specifically, the intelligent power supply controller acquires voltage data information of the 5G network equipment in real time, judges the voltage data information to obtain a first judgment result, and if the first judgment result indicates that the voltage data information is not in a voltage normal data range, the voltage of the 5G network equipment is in a voltage abnormal state; the intelligent power supply controller obtains current data information of the 5G network equipment, judges the current data information to obtain a second judgment result, if the second judgment result is that the current data information is not in a current normal data range, the current of the 5G network equipment is in a current abnormal state, if the voltage of the 5G network equipment is in the abnormal state or the current is in the abnormal state, power supply to the 5G network equipment is stopped, and a turn-off early warning is sent to inform technicians in time, so that the 5G network equipment is prevented from running in the abnormal state to reduce damage to the equipment.

Based on the above embodiment, it is determined whether the voltage data of the 5G network device is within a normal range or whether the current data information of the 5G network device is within a normal range, and if the voltage data information or the current data information of the 5G network device is not within the normal range, it indicates that the 5G network device has a problem of voltage abnormality or current abnormality, and therefore the power supply to the 5G network device needs to be stopped, and the device is overhauled in time, so that the management efficiency of the device is improved, and the service life of the 5G network device is prolonged.

Further, in this embodiment of the present application, after stopping the power supply of the 5G network device, the method further includes: step SD 1-step SD4 (not shown in the drawings), wherein:

and SD1, judging whether the current moment reaches the power supply moment, and if so, starting power supply of the 5G network equipment.

Specifically, the intelligent power controller acquires time information corresponding to each 5G network device, judges whether each 5G network device is in a power supply time at the current time based on the time information, indicates that the current time is a busy hour state of the 5G network device if the 5G network device is in the power supply time, and automatically starts power supply of the 5G network device to meet power consumption requirements. The power supply time is preset, for example, five or four points every morning, and the embodiment of the application is not limited any more, and the user can set the power supply time according to actual requirements.

And step SD2, if not, acquiring a scene video in front of the 5G network equipment.

And step SD3, determining the number of people corresponding to each frame based on each frame of image in the scene video.

And step SD4, if the number of the people in the continuous preset images is larger than the maximum threshold value of the preset number of the people, starting power supply of the 5G network equipment.

Specifically, after the 5G network device is turned off, the 4G base station detects the 5G network device, if the intelligent power controller determines that the current time is not the power supply time of the 5G network device, the intelligent power controller obtains a scene video of the 5G network device at the current time, the intelligent power controller determines according to the number of people in each frame of image in the scene video, if the number of people in the continuous preset image is greater than a preset maximum number of people threshold, it indicates that the current time is large in people flow, the demand for the 5G network device is high, and therefore the power supply for the 5G network device needs to be turned on, and meanwhile, the 5G user sends a turn-on command through a short message function of the 4G base station.

Based on the embodiment, whether the current time reaches the power supply time is judged, if the current time does not reach the power supply time, the number of people in each frame of image in the scene video of the 5G network device at the current time is judged, namely the current time has a large flow of people, the power supply to the 5G network device is started, and then the intelligent switching of the 5G network device is realized.

Further, in this embodiment of the present application, the stopping power supply to the 5G network device includes: step SE 1-step SE5 (not shown in the drawings), wherein:

and step SE1, sending a distribution stopping request to a control device, wherein the control device is used for distributing services to a plurality of target 5G network devices, and the target 5G network devices comprise the 5G network devices and other 5G network devices.

Specifically, when the intelligent power controller monitors that the 5G network device is in an idle state, the intelligent power controller sends a distribution stopping request to the control device, and the control device stops service distribution to the 5G network device after receiving the distribution stopping request.

And step SE2, determining the position weight corresponding to each of the other 5G network equipment according to the position information of the 5G network equipment and the position information corresponding to each of the other 5G network equipment.

Specifically, the intelligent power supply controller may obtain location information of each 5G network device corresponding to the 5G network device from the location data base, the intelligent power supply controller may determine location weights of other 5G network devices based on the location information of the 5G network device, and measure linear distances between the other 5G network devices and the 5G network device with the location of the 5G network device as a center, where the closer the linear distance is, the greater the respective location weights corresponding to the other 5G network devices are, and by obtaining the respective location weights corresponding to the other 5G network devices, the service of the 5G network device to be powered off may be preferentially transferred to the 5G network device with the greater weight.

And step SE3, determining the power consumption weight corresponding to the other 5G network equipment according to the power consumption information corresponding to the other 5G network equipment.

Specifically, the power consumption of different 5G network devices is different, the intelligent power supply controller obtains the power consumption of a plurality of other 5G network devices in a preset time period in real time, the intelligent power supply controller sorts the corresponding 5G network devices according to the sequence of the power consumption from high to low based on the obtained power consumption, and the power consumption weight corresponding to the 5G network device which is ranked at the top is smaller.

And step SE4, determining equipment to be transferred from the other 5G network equipment according to the position weight and the power consumption weight corresponding to the other 5G network equipment.

And SE5, transferring the service of the 5G network equipment to the equipment to be transferred, and powering off the 5G network equipment.

Specifically, when the 5G network device is in the public area, the 5G network device with the large sum of the position weight and the power consumption weight is used as a device to be transferred, the service of the 5G network device is transferred to the device to be transferred after the device to be transferred is determined, and after the service transfer is completed, the power supply to the 5G network device is stopped.

Based on the embodiment, an allocation stopping request is sent to the control device, the control device stops allocating services to the 5G network device after receiving the request, the position weights corresponding to the position information of the 5G network device and the position information corresponding to the other 5G network devices are determined for the other 5G network devices, the power consumption weights of the 5G network devices are determined according to the power consumption information corresponding to the other 5G network devices, the devices to be transferred are determined based on the position weights and the power consumption weights, the services of the 5G network devices are transferred to the devices to be transferred, the situation that the 5G network devices are suddenly powered off to influence the operation of other buildings is avoided, the power consumption is reduced, and meanwhile, intelligent management and control over the 5G network devices are achieved.

The foregoing embodiments describe a base station device management and control method from the perspective of a method flow, and the following embodiments describe a base station device management and control apparatus from the perspective of a virtual module or a virtual unit, which are described in detail in the following embodiments.

An embodiment of the present application provides a base station device management and control apparatus, as shown in fig. 4, the base station device management and control apparatus may specifically include:

the obtaining module 210 is configured to obtain real-time data information of the 5G network device and model information of the 5G network device, where the real-time data information includes: the position information of the 5G network equipment and the electricity consumption of the 5G network equipment are obtained, and the electricity consumption of the 5G network equipment is the total electricity consumption of a preset time length before the current time information;

the judging module 220 is configured to judge whether the 5G network device is in a public area according to the location information of the 5G network device;

a first device power utilization state determining module 230, configured to determine, if the 5G network device is in a public area, a first device power utilization state of the 5G network device based on the current time information;

the second device power utilization state determining module 240 is configured to determine a second device power utilization state of the 5G network device based on the 5G network device power utilization amount and the model information of the 5G network device within the preset time period;

the power supply stopping module 250 is configured to stop power supply to the 5G network device when the device power utilization state of the 5G network device is an idle state, where the device power utilization state is a first device power utilization state or a second device power utilization state;

and the continuous power supply module 260 is configured to continuously supply power to the 5G network device when the device power utilization state of the 5G network device is a busy state.

In a possible implementation manner in this embodiment of the application, when determining, according to the power consumption of the 5G network device and the model information of the 5G network device in the preset time period, the second device power consumption state determining module 240 is configured to:

determining a power consumption threshold corresponding to the power consumption of the 5G network equipment according to the model information of the 5G network equipment;

judging whether the electricity consumption of the 5G network equipment is greater than an electricity consumption threshold value or not;

if yes, determining that the power utilization state of second equipment of the 5G network equipment is a busy hour state, and otherwise, determining that the power utilization state is an idle hour state;

the step of determining the power consumption threshold corresponding to the equipment power consumption according to the model information of the 5G network equipment comprises the following steps:

obtaining historical electricity consumption of a plurality of 5G network devices aiming at the history of the model information of the 5G network devices, wherein the historical electricity consumption of each 5G network device is the electricity consumption in the same time period as the electricity consumption of the 5G network devices;

determining a power consumption threshold according to the historical power consumption of the plurality of 5G network devices, wherein the power consumption threshold is the maximum power consumption in the historical power consumption of the plurality of 5G network devices, or the average power consumption of the historical power consumption of the plurality of 5G network devices, or the power consumption determined according to the historical power consumption of the plurality of 5G network devices and the corresponding first weights;

determining the total equipment use duration of the 5G network equipment, and determining a corresponding relation corresponding to the model information of the 5G network equipment, wherein the corresponding relation is the corresponding relation between the total equipment use duration of the model information of the 5G network equipment and a plurality of weights;

determining the weight from the corresponding relation according to the total using time of the equipment;

and determining the electric quantity threshold according to the weight, the power information of the model information of the 5G network equipment and the preset time length.

In one possible implementation manner in this embodiment, the base station device management and control apparatus further includes:

a time determination module configured to:

acquiring current time information, and executing a power supply stopping module 250 if the current time information is determined to be within a preset timing time range based on the current time information;

if the current time information is not within the preset timing time range, the real-time data information of the 5G network device, the model information of the 5G network device, and the current time information are acquired, and the first acquiring module 210 is executed.

In a possible implementation manner in this embodiment of the application, the power supply stopping module 250, when the device power consumption state of the 5G network device is an idle state, and then the power supply of the 5G network device is stopped, is configured to:

acquiring the electricity consumption of the 5G network equipment within a preset idle time range after the equipment electricity consumption state of the 5G network equipment is the idle state;

judging whether the electricity consumption of the 5G network equipment in the preset idle time range is less than the maximum electricity consumption threshold of the 5G network equipment in the preset idle time range or not;

if the maximum electricity consumption is less than the maximum electricity consumption threshold of the 5G network equipment, controlling the 5G network equipment to enter a dormant state;

acquiring the electricity consumption of the 5G network equipment after entering the dormant state, and judging whether the electricity consumption of the 5G network equipment after entering the dormant state is smaller than the maximum electricity consumption threshold of the 5G network equipment after entering the dormant state; if the current value is less than the preset value, stopping power supply of the 5G network equipment; and if not, controlling the 5G network equipment to maintain the sleep state.

In a possible implementation manner in the embodiment of the present application, the base station apparatus management and control device further includes:

a shutdown pre-warning module to:

when the equipment power utilization state of the 5G network equipment is a busy state, acquiring voltage data information and current data information of the 5G network equipment;

judging whether the voltage data information is in a normal voltage data range or not to obtain a first judgment result;

judging whether the current data information is in a current normal data range or not to obtain a second judgment result;

and if the first judgment result indicates that the voltage data information is not in the voltage normal data range, or the second judgment result indicates that the current data information is not in the current normal data range, stopping power supply of the 5G network equipment, and sending a turn-off early warning.

In one possible implementation manner in this embodiment, the base station device management and control apparatus further includes:

a power supply time judgment module for:

judging whether the current time reaches the power supply time, if so, starting the power utilization of the 5G network equipment;

if not, acquiring a scene video in front of the 5G network equipment;

determining the number of people corresponding to each frame based on each frame of image in the scene video;

and if the number of the people in the continuous preset images is larger than the maximum threshold value of the preset number of the people, starting power supply of the 5G network equipment.

In a possible implementation manner in the embodiment of the present application, when stopping the power supply of the 5G network device, the power supply stopping module 250 is configured to:

sending a distribution stopping request to a control device, wherein the control device is used for distributing services for a plurality of target 5G network devices, and the target 5G network devices comprise 5G network devices and other 5G network devices;

determining the position weight corresponding to each of a plurality of other 5G network devices according to the position information of the 5G network device and the position information corresponding to each of the plurality of other 5G network devices;

determining the weight of the power consumption corresponding to the other 5G network equipment according to the power consumption information corresponding to the other 5G network equipment;

determining equipment to be transferred from the other 5G network equipment according to the position weight and the power consumption weight corresponding to the other 5G network equipment;

and transferring the service of the 5G network equipment to the equipment to be transferred, and powering off the 5G network equipment.

In the following, an intelligent power controller provided in an embodiment of the present application is introduced, and the intelligent power controller described below and the base station device management and control method described above may be referred to correspondingly.

An embodiment of the present application provides an intelligent power supply controller, as shown in fig. 5, fig. 5 is a schematic structural diagram of an intelligent power supply controller provided in an embodiment of the present application, and an intelligent power supply controller 300 shown in fig. 5 includes: a processor 301 and a memory 303. Wherein processor 301 is coupled to memory 303, such as via bus 302. Optionally, the intelligent power controller 300 may also include a transceiver 304. It should be noted that the transceiver 304 is not limited to one in practical applications, and the structure of the intelligent power controller 300 is not limited to the embodiment of the present application.

The processor 301 may be a CPU (central processing unit), a general-purpose processor, a DSP (digital signal processor), an ASIC (application specific integrated circuit), an FPGA (field programmable gate array) or other programmable logic device, a transistor logic device, a hardware component, or any combination thereof. Which may implement or perform the various illustrative logical blocks, modules, and circuits described in connection with the disclosure of the embodiments of the application. The processor 301 may also be a combination of computing functions, e.g., comprising one or more microprocessors, a combination of a DSP and a microprocessor, or the like.

Bus 302 may include a path that carries information between the aforementioned components. The bus 302 may be a PCI (peripheral component interconnect) bus, an EISA (extended industry standard architecture) bus, or the like. The bus 302 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in FIG. 5, but this is not intended to represent only one bus or type of bus.

The memory 303 may be a ROM (read only memory) or other type of static storage device that can store static information and instructions, a RAM (random access memory) or other type of dynamic storage device that can store information and instructions, an EEPROM (electrically erasable programmable read only memory), a CD-ROM (compact read only memory) or other optical disk storage, optical disk storage (including compact disk, laser disk, optical disk, digital versatile disk, blu-ray disk, etc.), a magnetic disk storage medium or other magnetic storage device, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited to these.

The memory 303 is used for storing application program codes for executing the solution of the embodiment of the present application, and is controlled by the processor 301. The processor 301 is configured to execute application program code stored in the memory 303 to implement the aspects illustrated in the foregoing method embodiments.

Wherein, intelligent power controller includes but not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and fixed terminals such as digital TVs, desktop computers, and the like. The intelligent power controller shown in fig. 5 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiments of the present application.

A computer-readable storage medium provided in the embodiments of the present application is described below, and the computer-readable storage medium stores a computer program, which when executed on a computer, enables the computer to execute the corresponding content in the foregoing method embodiments. Compared with the related art, the method and the device for scheduling the electric quantity have the advantages that the real-time data information of the 5G network device, the model information of the 5G network device and the current information are obtained, the real-time data information can be the position information of the 5G network device and the electric quantity of the 5G network device, whether the 5G network device is located in a public area or not is judged according to the position information of the 5G network device, the electric quantity of the 5G network device located in the public area has a time characteristic, therefore, the first device electric utilization state of the 5G network device can be determined based on the current time information, when the 5G network device is not located in the public area, the electric quantity of the 5G network device does not have the time characteristic, the second device electric utilization state of the 5G network device is judged based on the model information of the 5G network device and the electric quantity of the 5G network device in a preset time period, power supply to the 5G network device is stopped when the 5G network device is in an idle state, and whether the 5G network device is supplied with the electric quantity is judged, and the efficiency of the electric quantity scheduling strategy can be effectively improved.

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless otherwise indicated herein. Moreover, at least a portion of the steps in the flow chart of the figure may include multiple sub-steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

The foregoing is only a partial embodiment of the present application, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present application, and these modifications and decorations should also be regarded as the protection scope of the present application.

Claims (9)

1. A base station device management and control method is characterized by comprising the following steps:

acquiring real-time data information of the 5G network equipment, model information of the 5G network equipment and current time information, wherein the real-time data information comprises: the method comprises the steps of obtaining position information of 5G network equipment and electricity consumption of the 5G network equipment, wherein the electricity consumption of the 5G network equipment is the total electricity consumption of a preset time length before current time information;

judging whether the 5G network equipment is in a public area or not based on the position information of the 5G network equipment;

if the 5G network equipment is in a public area, determining a first equipment power utilization state of the 5G network equipment based on current time information;

if the 5G network equipment is not in the public area, determining a second equipment power utilization state of the 5G network equipment based on the 5G network equipment power utilization amount and the model information of the 5G network equipment;

if the equipment power utilization state of the 5G network equipment is an idle state, stopping power supply of the 5G network equipment, wherein the equipment power utilization state is a first equipment power utilization state or a second equipment power utilization state;

when the equipment power utilization state of the 5G network equipment is a busy state, continuously supplying power to the 5G network equipment;

determining a second device power utilization state of the 5G network device based on the power consumption of the 5G network device and the model information of the 5G network device, wherein the determining comprises:

determining a power consumption threshold corresponding to the power consumption of the 5G network equipment according to the model information of the 5G network equipment;

judging whether the electricity consumption of the 5G network equipment is greater than an electricity consumption threshold value or not;

if yes, determining that the power utilization state of second equipment of the 5G network equipment is a busy hour state, and otherwise, determining that the second equipment is an idle hour state;

determining a power consumption threshold corresponding to the power consumption of the 5G network equipment according to the model information of the 5G network equipment, wherein the determining comprises the following steps:

obtaining historical electricity consumption of a plurality of 5G network devices aiming at the history of the model information of the 5G network devices, wherein the historical electricity consumption of each 5G network device is the electricity consumption in the same time period as the electricity consumption of the 5G network devices;

determining a power consumption threshold according to historical power consumption of a plurality of 5G network devices, wherein the power consumption threshold is the maximum power consumption in the historical power consumption of the plurality of 5G network devices, or the average power consumption of the historical power consumption of the plurality of 5G network devices, or the power consumption determined according to the historical power consumption of the plurality of 5G network devices and the corresponding first weights;

or the like, or, alternatively,

determining the total equipment use duration of the 5G network equipment, and determining a corresponding relation corresponding to the model information of the 5G network equipment, wherein the corresponding relation is the corresponding relation between the total equipment use duration and the weights of the model information of the 5G network equipment;

determining the weight from the corresponding relation according to the total using time length of the equipment;

and determining the electric quantity threshold according to the weight, the power information of the model information of the 5G network equipment and a preset time length.

2. The method according to claim 1, wherein before the obtaining of the real-time data information of the 5G network device, the model information of the 5G network device, and the current time information, the method further comprises:

acquiring current time information, and determining whether the current time information is within a preset timing time range based on the current time information;

if the current time information is within the preset timing time range, stopping power supply to the 5G network equipment;

and if the current time information is not in the preset timing time range, acquiring the real-time data information of the 5G network equipment, the model information of the 5G network equipment and the current time information.

3. The method according to claim 1, wherein the stopping power supply to the 5G network device if the device power consumption state of the 5G network device is an idle state includes:

acquiring the electricity consumption of the 5G network equipment within a preset idle time range after the equipment electricity consumption state of the 5G network equipment is the idle state;

judging whether the electricity consumption of the 5G network equipment in the preset idle time range is less than the maximum electricity consumption threshold of the 5G network equipment in the preset idle time range;

if the power consumption is less than the maximum power consumption threshold of the 5G network equipment, controlling the 5G network equipment to enter a dormant state;

acquiring the electricity consumption of the 5G network equipment after entering the dormant state, and judging whether the electricity consumption of the 5G network equipment after entering the dormant state is smaller than the maximum electricity consumption threshold of the 5G network equipment after entering the dormant state; if the current value is less than the preset value, stopping power supply of the 5G network equipment; and if not, controlling the 5G network equipment to maintain the sleep state.

4. The method for managing and controlling base station equipment according to claim 1, further comprising:

when the equipment power utilization state of the 5G network equipment is a busy state, acquiring voltage data information and current data information of the 5G network equipment;

judging whether the voltage data information is in a normal voltage data range or not to obtain a first judgment result;

judging whether the current data information is in a current normal data range or not to obtain a second judgment result;

and if the first judgment result indicates that the voltage data information is not in the voltage normal data range, or the second judgment result indicates that the current data information is not in the current normal data range, stopping power supply of the 5G network equipment, and sending a turn-off early warning.

5. The method according to claim 1, wherein after the stopping of the power supply to the 5G network device, the method further includes:

judging whether the current time reaches the power supply time, if so, starting the power utilization of the 5G network equipment;

if not, acquiring a scene video in front of the 5G network equipment;

determining the number of people corresponding to each frame based on each frame of image in the scene video;

and if the number of the people in the continuous preset images is larger than the maximum threshold value of the preset number of the people, starting power supply of the 5G network equipment.

6. The method according to claim 1, wherein the stopping of power supply to the 5G network device includes:

sending a distribution stopping request to a control device, wherein the control device is used for distributing services for a plurality of target 5G network devices, and the target 5G network devices comprise the 5G network devices and a plurality of other 5G network devices;

determining the position weight corresponding to each of a plurality of other 5G network devices according to the position information of the 5G network device and the position information corresponding to each of the plurality of other 5G network devices;

determining the weight of the power consumption corresponding to the other 5G network equipment according to the power consumption information corresponding to the other 5G network equipment;

determining equipment to be transferred from the other 5G network equipment according to the position weight and the power consumption weight corresponding to the other 5G network equipment;

and transferring the service of the 5G network equipment to be transferred, and powering off the 5G network equipment.

7. A base station device management and control apparatus, comprising:

the acquisition module is used for acquiring the real-time data information of the 5G network equipment, the model information and the current information of the 5G network equipment, wherein the real-time data information comprises: the method comprises the steps of obtaining position information of 5G network equipment and electricity consumption of the 5G network equipment, wherein the electricity consumption of the 5G network equipment is the total electricity consumption of a preset time length before current time information;

the judging module is used for judging whether the 5G network equipment is in a public area or not according to the position information of the 5G network equipment;

the first equipment power utilization state determining module is used for determining a first equipment power utilization state of the 5G network equipment based on current time information when the 5G network equipment is in a public area;

the second equipment power utilization state determining module is used for determining a second equipment power utilization state of the 5G network equipment based on the 5G network equipment power utilization amount and the model information of the 5G network equipment when the 5G network equipment is not in a public area;

the power supply stopping module is used for stopping power supply of the 5G network equipment when the equipment power utilization state of the 5G network equipment is an idle state, wherein the equipment power utilization state of the 5G network equipment is a first equipment power utilization state or a second equipment power utilization state;

the continuous power supply module is used for continuously supplying power to the 5G network equipment when the equipment power utilization state of the 5G network equipment is a busy state;

the second device power utilization state determining module is used for determining a second device power utilization state of the 5G network device based on the 5G network device power consumption in a preset time period and the model information of the 5G network device:

determining a power consumption threshold corresponding to the power consumption of the 5G network equipment according to the model information of the 5G network equipment;

judging whether the electricity consumption of the 5G network equipment is greater than an electricity consumption threshold value;

if yes, determining that the power utilization state of second equipment of the 5G network equipment is a busy hour state, otherwise, determining that the power utilization state is an idle hour state;

the second equipment power utilization state determining module is used for determining a power utilization threshold corresponding to the 5G network equipment power utilization according to the model information of the 5G network equipment:

obtaining historical electricity consumption of a plurality of 5G network devices aiming at the history of the model information of the 5G network devices, wherein the historical electricity consumption of each 5G network device is the electricity consumption in the same time period as the electricity consumption of the 5G network devices;

determining a power consumption threshold according to historical power consumption of a plurality of 5G network devices, wherein the power consumption threshold is the maximum power consumption in the historical power consumption of the plurality of 5G network devices, or the average power consumption of the historical power consumption of the plurality of 5G network devices, or the power consumption determined according to the historical power consumption of the plurality of 5G network devices and the corresponding first weights;

or the like, or, alternatively,

determining the total equipment use duration of the 5G network equipment, and determining a corresponding relation corresponding to the model information of the 5G network equipment, wherein the corresponding relation is the corresponding relation between the total equipment use duration and the weights of the model information of the 5G network equipment;

determining the weight from the corresponding relation according to the total using time length of the equipment;

and determining the electric quantity threshold according to the weight, the power information of the model information of the 5G network equipment and a preset time length.

8. An intelligent power supply controller, comprising:

at least one processor;

a memory;

at least one application, wherein the at least one application is stored in the memory and configured to be executed by the at least one processor, the at least one application configured to: the base station device management and control method according to any one of claims 1 to 6.

9. A computer-readable storage medium, having stored thereon a computer program which, when executed in a computer, causes the computer to execute the base station apparatus management and control method according to any one of claims 1 to 6.

Images