CN108257244B

CN108257244B - Power inspection method, device, storage medium and computer equipment

Info

Publication number: CN108257244B
Application number: CN201711388118.6A
Authority: CN
Inventors: 林克全; 高明; 卢有飞; 杨杰; 赵静; 严俊斌; 王辉鹏; 罗智慧
Original assignee: Guangzhou Power Supply Bureau of Guangdong Power Grid Co Ltd
Current assignee: Guangzhou Power Supply Bureau of Guangdong Power Grid Co Ltd
Priority date: 2017-12-20
Filing date: 2017-12-20
Publication date: 2021-08-31
Anticipated expiration: 2037-12-20
Also published as: CN108257244A

Abstract

The invention relates to a power inspection method, a power inspection device, a storage medium and computer equipment. The method comprises the steps of obtaining static power inspection information and real-time dynamic power inspection information of an object to be monitored through the Internet of things, synthesizing the static power inspection information and the real-time dynamic power inspection information into first synthesized power inspection information of the object to be monitored, and sending the first synthesized power inspection information of the object to be monitored to an external augmented reality terminal; receiving an interaction request of an external augmented reality terminal based on the first synthesized power inspection information, and generating power inspection modification information according to the interaction request; the electric power inspection modification information and the first synthesized electric power inspection information are integrated to obtain second synthesized electric power inspection information, the second synthesized electric power inspection information is pushed to the external augmented reality terminal and is displayed by the external augmented reality terminal, and due to the fact that the internet of things technology and the augmented reality technology are integrated, a large amount of manpower is not required to be consumed to conduct on-site inspection work, and the working efficiency can be effectively improved.

Description

Power inspection method, device, storage medium and computer equipment

Technical Field

The invention relates to the technical field of data processing, in particular to a power inspection method, a power inspection device, a storage medium and computer equipment.

Background

The electric power industry is closely related to the life of people and the production of enterprises, and the necessary condition of normal power supply is ensured when the electric power equipment normally works, so the inspection of the electric power equipment is very important, the running conditions of circuits and the electric power equipment, the change of the surrounding environment and the like are mastered through the inspection, the hidden danger of the electric power equipment and the hidden danger endangering the safety of the electric power equipment are discovered, specific maintenance contents are provided, and the hidden danger is eliminated in time.

The traditional inspection of the power equipment is mainly completed by manually inspecting on the spot, the labor consumption is high in the inspection of the power equipment, the manual inspection is easy to cause the conditions of insufficient inspection, forged inspection data, imperfect inspection data and the like, the problems cannot be found in time, more time and energy are needed to be spent for follow-up inspection, and the low working efficiency is caused.

Disclosure of Invention

In view of the above, it is necessary to provide a power patrol method, a device, a storage medium, and a computer apparatus that can improve work efficiency.

A power routing inspection method comprises the following steps:

acquiring static power inspection information and real-time dynamic power inspection information of an object to be monitored through the Internet of things;

synthesizing the static power patrol information and the real-time dynamic power patrol information into first synthesized power patrol information of the object to be monitored, and sending the first synthesized power patrol information of the object to be monitored to an external augmented reality terminal;

receiving an interaction request of an external augmented reality terminal based on the first synthesized power inspection information, and generating power inspection modification information according to the interaction request;

integrating the power inspection modification information with the first synthesized power inspection information to obtain second synthesized power inspection information;

and pushing the second synthesized electric power inspection information to an external augmented reality terminal, and displaying the second synthesized electric power inspection information by the external augmented reality terminal.

A power inspection device, comprising:

the power patrol inspection information acquisition module is used for acquiring static power patrol inspection information and real-time dynamic power patrol inspection information of an object to be monitored through the Internet of things;

the first synthesis module is used for synthesizing the static power patrol inspection information and the real-time dynamic power patrol inspection information into first synthesized power patrol inspection information of the object to be monitored, and sending the first synthesized power patrol inspection information of the object to be monitored to the external augmented reality terminal;

the power inspection modification information generation module is used for receiving an interaction request of the external augmented reality terminal based on the first synthesized power inspection information and generating power inspection modification information according to the interaction request;

the second synthesis module is used for integrating the power patrol inspection modification information with the first synthesis power patrol inspection information to obtain second synthesis power patrol inspection information;

and the information pushing module is used for pushing the second synthesized electric power inspection information to the external augmented reality terminal, and the second synthesized electric power inspection information is displayed by the external augmented reality terminal.

A storage medium having stored thereon a computer program which, when executed by a processor, carries out the steps of the above-mentioned method.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the steps of the method being performed when the program is executed by the processor.

The power patrol method, the device, the storage medium and the computer equipment acquire static power patrol information and real-time dynamic power patrol information of an object to be monitored through the Internet of things, synthesize the static power patrol information and the real-time dynamic power patrol information into first synthesized power patrol information of the object to be monitored, and send the first synthesized power patrol information of the object to be monitored to the external augmented reality terminal; receiving an interaction request of an external augmented reality terminal based on the first synthesized power inspection information, and generating power inspection modification information according to the interaction request; the power patrol inspection modification information and the first synthesized power patrol inspection information are integrated, the second synthesized power patrol inspection information is obtained, the second synthesized power patrol inspection information is pushed to the external augmented reality terminal, the second synthesized power patrol inspection information is displayed by the external augmented reality terminal, the static power patrol inspection information and the real-time dynamic power patrol inspection information of the object to be monitored are acquired through the Internet of things, the Internet of things technology and the augmented reality technology are integrated, a large amount of manpower is not required to be consumed for field patrol inspection, the working efficiency can be effectively improved, the timeliness and integrity of the power patrol inspection information are ensured, and the quality of the power patrol inspection information can be effectively improved.

Drawings

FIG. 1 is a schematic flow diagram of a power patrol method in one embodiment;

FIG. 2 is a schematic flow chart of a power patrol method in another embodiment;

FIG. 3 is a flow chart illustrating a power patrol method according to yet another embodiment;

fig. 4 is a schematic structural diagram of the power inspection device in one embodiment.

Detailed Description

In one embodiment, as shown in fig. 1, a power patrol method includes:

s100, static power inspection information and real-time dynamic power inspection information of an object to be monitored are obtained through the Internet of things.

The internet of things can be divided into a sensing layer, a network layer and an application layer, wherein the sensing layer is composed of various sensors including a temperature and humidity sensor, a two-dimensional code tag, a Radio Frequency Identification (RFID) tag, a reader-writer, a camera, infrared rays, a Global Positioning System (GPS) and other sensing terminals, and the sensing layer is used for identifying objects and acquiring power routing inspection information of the internet of things. The network layer is composed of various networks including the internet, a broadcast and television network, a network management system, a cloud computing platform and the like, is a central center of the whole internet of things and is responsible for transmitting and processing the electric power inspection information acquired by the sensing layer. The application layer is an interface between the Internet of things and the outside, and is combined with industrial requirements to realize intelligent application of the Internet of things.

Specifically, static power inspection information of an object to be monitored, such as an ID (Identification) of each object to be monitored, can be acquired through the RFID tag and the reader/writer, the reader/writer sends out a radio wave with a specific frequency by using the transmitting antenna, the RFID tag generates an induced current when entering a working area of the transmitting antenna, the RFID tag acquires energy and is activated, the RFID tag sends out power inspection information such as its own code by using the built-in antenna, and when the receiving antenna receives a carrier signal sent out by the RFID tag, the carrier signal is transmitted to the reader/writer through the antenna regulator, and the reader/writer demodulates and modulates and decodes the received signal.

Furthermore, the real-time dynamic power inspection information of the object to be monitored can be obtained through a sensor, and the sensor is a detection device and can sense the measured power inspection information and convert the sensed power inspection information into an electric signal or other required power inspection information according to a certain rule to be output. The electric power patrol inspection system is divided into a thermosensitive element, a photosensitive element, a gas-sensitive element, a force-sensitive element, a magnetic-sensitive element, a humidity-sensitive element, a sound-sensitive element, a radioactive ray-sensitive element, a color-sensitive element, a taste-sensitive element and the like according to the basic sensing function, and can acquire real-time dynamic electric power patrol inspection information of the temperature, the heat and the like of an object to be monitored through a sensor.

S200, static power patrol information and real-time dynamic power patrol information are synthesized into first synthesized power patrol information of the object to be monitored, and the first synthesized power patrol information of the object to be monitored is sent to an external augmented reality terminal.

The augmented reality technology is a technology for integrating real world power inspection information and virtual world power inspection information, and is characterized in that entity power inspection information which is difficult to experience in a certain time space range of the real world originally, such as visual power inspection information, sound, taste, touch and the like, is overlapped after being simulated through scientific technologies such as computers and the like, virtual power inspection information is applied to the real world and is perceived by human senses, so that the sense experience beyond reality is achieved, and real environment and virtual objects are overlapped to the same picture or space in real time.

Through the integration of augmented reality technology and internet of things technology, the space integration ability of data electric power inspection information, the electric power inspection information screening ability based on distance, diversified electric power inspection modes can be realized, and the device data of the object to be monitored, which is acquired by the internet of things, and the related data, the historical data and other data can be displayed in a superposed manner. As shown in fig. 2, the step of synthesizing the static power inspection information and the real-time dynamic power inspection information into first synthesized power inspection information of the object to be monitored includes:

s220, establishing correlation between the static power inspection information and the real-time dynamic power inspection information;

s240, searching a related object of the object to be monitored according to the correlation between the static power inspection information and the real-time dynamic power inspection information;

s260, obtaining first synthesized power patrol inspection information of the object to be monitored according to the static power patrol inspection information and the real-time dynamic power patrol inspection information of the associated object.

Wherein, the step of establishing the correlation between the static power inspection information and the real-time dynamic power inspection information comprises: and analyzing the correlation between the static power inspection information and the real-time dynamic power inspection information according to the preset input-output relationship and the preset influence relationship. The step of obtaining first synthesized power inspection information of the object to be monitored according to the static power inspection information and the real-time dynamic power inspection information of the associated object comprises the following steps: superposing the static power patrol information and the real-time dynamic power patrol information of the associated object to synthesize the static power patrol information and the real-time dynamic power patrol information of the associated object into the power patrol information of the associated object; superposing the static power inspection information and the real-time dynamic power inspection information of the object to be monitored to synthesize the static power inspection information and the real-time dynamic power inspection information of the object to be monitored into power inspection information of the object to be monitored; and synthesizing the power inspection information of the object to be monitored and the power inspection information of the associated object to obtain first synthesized power inspection information of the object to be monitored.

S300, receiving an interaction request of the external augmented reality terminal based on the first synthesized power patrol information, and generating power patrol modification information according to the interaction request.

As shown in fig. 3, the step of generating the modified power patrol information according to the interaction request includes:

s320, analyzing the interaction request to obtain a target object and power inspection mark information of the target object;

and S340, performing simulation operation on the target object according to the power inspection mark information to obtain power inspection simulation information, and taking the power inspection simulation information as power inspection modification information.

Specifically, when a certain transformer in the power system needs to be patrolled, an interaction request is sent, the interaction request carries an identification code of the transformer, the transformer to be patrolled is found according to the interaction request, when the interaction request carries certain mark information of the transformer, for example, the output voltage of the transformer is increased based on the mark information, then live simulation is carried out based on a preset model, simulated output information is obtained, and the simulated output information is used as power patrol modification information.

And S400, integrating the power patrol inspection modification information with the first synthesized power patrol inspection information to obtain second synthesized power patrol inspection information.

Specifically, the correlation between the power patrol inspection modification information and the first synthesized power patrol inspection information may be established first, and then the second synthesized power patrol inspection information may be obtained according to the correlation between the power patrol inspection modification information and the first synthesized power patrol inspection information. For example, the first synthesized power patrol inspection information includes a plurality of instrument devices, and the power patrol inspection modification information is only for one of the instrument devices, so that the power patrol inspection modification information of the instrument device is integrated with the first synthesized power patrol inspection information to obtain the second synthesized power patrol inspection information.

S500, pushing second synthesized power inspection information to an external augmented reality terminal, and displaying the second synthesized power inspection information by the external augmented reality terminal.

The power inspection method comprises the steps of obtaining static power inspection information and real-time dynamic power inspection information of an object to be monitored through the Internet of things, synthesizing the static power inspection information and the real-time dynamic power inspection information into first synthesized power inspection information of the object to be monitored, and sending the first synthesized power inspection information of the object to be monitored to an external augmented reality terminal; receiving an interaction request of an external augmented reality terminal based on the first synthesized power inspection information, and generating power inspection modification information according to the interaction request; the power patrol inspection modification information and the first synthesized power patrol inspection information are integrated, the second synthesized power patrol inspection information is obtained, the second synthesized power patrol inspection information is pushed to the external augmented reality terminal, the second synthesized power patrol inspection information is displayed by the external augmented reality terminal, the static power patrol inspection information and the real-time dynamic power patrol inspection information of the object to be monitored are acquired through the Internet of things, the Internet of things technology and the augmented reality technology are integrated, a large amount of manpower is not required to be consumed for field patrol inspection, the working efficiency can be effectively improved, the timeliness and integrity of the power patrol inspection information are ensured, and the quality of the power patrol inspection information can be effectively improved.

In one embodiment, the step of obtaining the static power inspection information and the real-time dynamic power inspection information of the object to be monitored in the power inspection method further includes: and performing signal processing on the static power inspection information and the real-time dynamic power inspection information. The Internet of things is a comprehensive application, can be divided into a sensing layer, a transmission layer, a supporting layer and an application layer, relates to a plurality of technologies, deeply researches the overall technical architecture of the Internet of things and the technologies related to each layer, analyzes the advantages and the disadvantages and the application range of various technologies, and carries out technical model selection from the application level of a large-scale data center. The system comprises a sensing layer, a transmission layer, a support layer and an application layer, wherein the sensing layer relates to technologies such as a radio frequency identification technology, an infrared induction technology, a laser scanning technology, an image identification technology, an audio identification technology and a GPS positioning technology, the transmission layer relates to a mobile network technology, a wireless network technology, a short-distance communication technology and various communication protocols, the support layer relates to an electric power inspection information safety technology, a distributed parallel computing technology and a mass data storage technology, and the application layer relates to an automatic control technology, a data analysis technology, an intelligent processing technology, a message issuing technology and the like.

The signal processing means that various raw data collected through the internet of things are subjected to necessary processing to obtain information related to a target object. The method comprises the steps of firstly obtaining relevant data of static power inspection information and real-time dynamic power inspection information, namely original signals, screening useful signals through a signal extraction technology, improving the signal-to-noise ratio of the signals through a signal conditioning circuit, extracting the characteristics of the signals in a mapping space through signal transformation of the signals with high signal-to-noise ratio, and corresponding various characteristic signals to a certain type of physical events by means of a signal analysis technology, such as a characteristic comparison and classification technology. The signal processing may specifically include signal interference resistance, signal separation, signal filtering, and the like, and may be implemented on a node or a base station. The advantage of implementing signal processing on the node is real-time performance, which reduces unnecessary data traffic and energy consumption in the transmission process, but because the node resources are limited, implementation on the node will face the problem of requiring low algorithm complexity. The method is realized on a base station with rich resources, such as a server, so that more complex signal processing can be performed, and classification learning or pattern recognition can also be performed, the signal processing effect is better, but the data traffic in the network is larger, the energy consumption in the transmission process is more, and the network cost is increased due to the server. Therefore, when the signals collected by the internet of things are processed, the collected signals are multi-physical-quantity signals, and the multi-physical-quantity signals are firstly detected and then processed by signal extraction, signal conditioning, signal transformation, signal analysis and the like. In order to realize the fusion of the internet of things technology and the augmented reality technology, the internet of things sensing layer needs to have diversity, the diversity can be ensured through an MAC protocol, and as the internet of things sensing node is not a fixed networking, the node networking technology needs to be adopted in order to complete different sensing tasks and realize various targets. Because the communication between the information sensing devices of the sensing layer of the internet of things does not adopt a communication protocol of sufficient devices, a network protocol needs to be adaptively optimized, and meanwhile, due to the characteristics of low processing capacity, low power consumption and the like of the information sensing devices, a protocol with light weight and high energy efficiency needs to be adopted. For the internet of things, the wireless communication mode is multistage, which results in high system complexity and cost overhead, so that the protocol needs to be optimized to ensure low power consumption and high energy efficiency. Therefore, the design of the adaptive optimized communication protocol needs to consider optimization problems such as data fusion, clustering and routing, and reduce data traffic and repeated transmission as much as possible.

In one embodiment, the step of acquiring the static power inspection information and the real-time dynamic power inspection information of the object to be monitored in the power inspection method comprises the following steps: the static power inspection information and the real-time dynamic power inspection information of the object to be monitored are obtained through the information sensing equipment of the sensing layer of the Internet of things. The information sensing equipment on the sensing layer of the Internet of things comprises a two-dimensional code label, an RFID label and the like which can be used for acquiring static electric power inspection information, is used for distinguishing different equipment, and can also comprise a temperature and humidity sensor, an infrared sensor and the like which are used for acquiring real-time dynamic electric power inspection information, and is used for acquiring real-time state information of each equipment.

A storage medium on which a computer program is stored, the program being operable when executed by a processor to perform the above method, the computer readable storage medium comprising ROM, RAM, a magnetic disk, an optical disk, etc.

In one embodiment, as shown in fig. 4, a power inspection device includes:

the power patrol information acquisition module 100 is configured to acquire static power patrol information and real-time dynamic power patrol information of an object to be monitored through the internet of things;

the first synthesis module 200 is configured to synthesize the static power inspection information and the real-time dynamic power inspection information into first synthesized power inspection information of the object to be monitored, and send the first synthesized power inspection information of the object to be monitored to an external augmented reality terminal;

the power inspection modification information generation module 300 is used for receiving an interaction request of the external augmented reality terminal based on the first synthesized power inspection information and generating power inspection modification information according to the interaction request;

a second synthesis module 400, configured to integrate the power inspection modification information with the first synthesized power inspection information to obtain second synthesized power inspection information;

and the information pushing module 500 is used for pushing the second synthesized electric power inspection information to the external augmented reality terminal, and displaying the second synthesized electric power inspection information by the external augmented reality terminal.

The power inspection device comprises a power inspection information acquisition module 100, a first synthesis module 200, a power inspection modification information generation module 300, a second synthesis module 400 and an information push module 500, wherein the power inspection information acquisition module 100 acquires static power inspection information and real-time dynamic power inspection information of an object to be monitored through the Internet of things, the first synthesis module 200 synthesizes the static power inspection information and the real-time dynamic power inspection information into first synthesized power inspection information of the object to be monitored, and sends the first synthesized power inspection information of the object to be monitored to an external augmented reality terminal; the power patrol modification information generation module 300 receives an interaction request of an external augmented reality terminal based on the first synthesized power patrol information, and generates power patrol modification information according to the interaction request; the second synthesis module 400 integrates the power patrol inspection modification information with the first synthesis power patrol inspection information to obtain second synthesis power patrol inspection information, the information pushing module 500 pushes the second synthesis power patrol inspection information to an external augmented reality terminal, the second synthesis power patrol inspection information is displayed by the external augmented reality terminal, static power patrol inspection information and real-time dynamic power patrol inspection information of an object to be monitored are obtained through the Internet of things, the Internet of things technology and the augmented reality technology are fused, a large amount of manpower is not required to be consumed for field patrol inspection, the working efficiency can be effectively improved, the timeliness and integrity of the power patrol inspection information are ensured, and the quality of the power patrol inspection information can be effectively improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A power inspection method is characterized by comprising the following steps:

the method comprises the steps that static power inspection information and real-time dynamic power inspection information of an object to be monitored are obtained through the Internet of things, the static power inspection information is obtained through a radio frequency identification tag and a reader-writer of a sensing layer of the Internet of things and comprises an identity of each object to be monitored, and the real-time dynamic power inspection information is obtained through a sensor of the sensing layer of the Internet of things and comprises the temperature and the heat of each object to be monitored;

synthesizing the static power inspection information and the real-time dynamic power inspection information into first synthesized power inspection information of an object to be monitored, and sending the first synthesized power inspection information of the object to be monitored to an external augmented reality terminal; the external augmented reality terminal is used for displaying entity power inspection information, static power inspection information, real-time dynamic power inspection information and historical data of the object to be monitored, which are acquired by the internet of things, in a superposition manner through the fusion of an augmented reality technology and an internet of things technology, wherein the entity power inspection information comprises at least one of visual power inspection information, sound, taste and touch;

receiving an interaction request of the external augmented reality terminal based on the first synthesized power inspection information, and generating power inspection modification information according to the interaction request;

pushing the second synthesized power routing inspection information to the external augmented reality terminal, and displaying the second synthesized power routing inspection information by the external augmented reality terminal;

still include after the step of the static electric power of the object of waiting to monitor information and real-time dynamic electric power inspection information is acquireed through the thing networking: performing signal processing on the static power inspection information and the real-time dynamic power inspection information; the signal processing comprises signal detection, signal extraction, signal conditioning, signal transformation and signal analysis, and is realized on a node or a base station.

2. The power inspection method according to claim 1, wherein the step of synthesizing the static power inspection information and the real-time dynamic power inspection information into first synthesized power inspection information for the object to be monitored includes:

establishing a correlation between the static power inspection information and the real-time dynamic power inspection information;

searching a related object of the object to be monitored according to the correlation between the static power inspection information and the real-time dynamic power inspection information;

and obtaining first synthesized power patrol inspection information of the object to be monitored according to the static power patrol inspection information and the real-time dynamic power patrol inspection information of the associated object.

3. The power inspection method according to claim 2, wherein the step of obtaining first composite power inspection information for the object to be monitored based on the static power inspection information and the real-time dynamic power inspection information for the associated object includes:

superposing the static power inspection information and the real-time dynamic power inspection information of the associated object to synthesize the static power inspection information and the real-time dynamic power inspection information of the associated object into the power inspection information of the associated object;

superposing the static power inspection information and the real-time dynamic power inspection information of the object to be monitored to synthesize the static power inspection information and the real-time dynamic power inspection information of the object to be monitored into power inspection information of the object to be monitored;

and synthesizing the power inspection information of the object to be monitored and the power inspection information of the associated object to obtain first synthesized power inspection information of the object to be monitored.

4. The power inspection method according to claim 2, wherein the step of establishing a correlation between the static power inspection information and the real-time dynamic power inspection information includes:

and analyzing the correlation between the static power inspection information and the real-time dynamic power inspection information according to a preset input-output relation and a preset influence relation.

5. The power patrol method according to claim 1, wherein the step of generating power patrol modification information according to the interaction request comprises:

analyzing the interaction request to obtain a target object and power inspection mark information of the target object;

and performing simulation operation on the target object according to the power inspection mark information to obtain power inspection simulation information, and using the power inspection simulation information as power inspection modification information.

6. The power inspection method according to claim 1, wherein the step of integrating the power inspection modification information with the first composite power inspection information to obtain second composite power inspection information includes:

and establishing the correlation between the power patrol inspection modification information and the first synthesized power patrol inspection information, and obtaining second synthesized power patrol inspection information according to the correlation between the power patrol inspection modification information and the first synthesized power patrol inspection information.

7. The utility model provides a power inspection device which characterized in that includes:

the power patrol inspection information acquisition module is used for acquiring static power patrol inspection information and real-time dynamic power patrol inspection information of an object to be monitored through the Internet of things, wherein the static power patrol inspection information is acquired through a radio frequency identification tag and a reader-writer of a sensing layer of the Internet of things and comprises an identity of each object to be monitored, and the real-time dynamic power patrol inspection information is acquired through a sensor of the sensing layer of the Internet of things and comprises the temperature and the heat of each object to be monitored;

the first synthesis module is used for synthesizing the static power patrol inspection information and the real-time dynamic power patrol inspection information into first synthesized power patrol inspection information of an object to be monitored, and sending the first synthesized power patrol inspection information of the object to be monitored to an external augmented reality terminal; the external augmented reality terminal is used for displaying entity power inspection information, static power inspection information, real-time dynamic power inspection information and historical data of the object to be monitored, which are acquired by the internet of things, in a superposition manner through the fusion of an augmented reality technology and an internet of things technology, wherein the entity power inspection information comprises at least one of visual power inspection information, sound, taste and touch;

the information pushing module is used for pushing the second synthesized power inspection information to the external augmented reality terminal, and the second synthesized power inspection information is displayed by the external augmented reality terminal;

the power inspection device is also used for processing the static power inspection information and the real-time dynamic power inspection information; the signal processing comprises signal detection, signal extraction, signal conditioning, signal transformation and signal analysis, and is realized on a node or a base station.

8. A storage medium on which a computer program is stored, which program, when being executed by a processor, is adapted to carry out the steps of the method of any one of claims 1 to 6.

9. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the steps of the method of any of claims 1-6 are implemented when the program is executed by the processor.