CN108988961B - Radio monitoring operation management system - Google Patents

Abstract

The invention discloses a radio monitoring operation management system, which comprises a plurality of radio monitoring operation management devices, wherein each radio monitoring operation management device is connected with a plurality of radio monitoring devices to obtain operation parameter data of the radio monitoring devices and transmit the operation parameter data to a cloud server; the cloud server is used for receiving the data sent by the radio monitoring operation management device, storing, analyzing and processing the data and sending the data to the client; the client is used for receiving the data sent by the cloud server and carrying out display, data management and abnormity early warning on the data. The radio monitoring operation management system can realize the monitoring management of the radio monitoring equipment at any time and any place.

Description

Radio monitoring operation management system

Technical Field

The invention relates to the technical field of radio monitoring, in particular to a radio monitoring operation management system.

Background

With the continuous development of radio technology and application, radio networks are increasing, the number of stations is increasing on a large scale, the number of radio frequency equipment is growing in an exponential order, and the electromagnetic spectrum space is becoming more complicated. Meanwhile, the state has released relevant specifications of radio monitoring system tests, and requires to gradually develop new and in-use radio monitoring system tests, and constantly increase the daily maintenance force, so as to ensure the stable and reliable operation of the system in the life cycle, improve the accuracy of radio monitoring data and monitoring reports, provide effective and reliable data support for radio management work, and provide strong evidence for administrative and criminal punishment work.

In the early stage, the radio monitoring technology in China is relatively weak, the dependence degree of radio monitoring equipment to foreign countries is high, the development and application of the radio monitoring technology are greatly advocated in the aspect of radio monitoring facility construction in China, in addition, the high-speed development of the communication industry and the continuous emergence of new technology are fatigued to the technology tracking and monitoring tasks, the management of monitoring work is always in the extensive management of 'heavy technology and light management', and the management depending on the informatization degree is low.

The concrete expression is as follows: the management of various radio monitoring equipment facilities including fixed stations, mobile stations, portable equipment and the like is relatively loose, a fuzzy state of 'unclear at home and unclear at state' often appears, the management and control work of the monitoring facilities is relatively original and lagged, the function of realizing the startup and shutdown of a power supply only through a remote control unit is stopped, whether the equipment passes current or not and whether the monitoring data is standard and reliable or not are completely unknown, and the existing mobile internet technology is not used for realizing real-time control; maintenance records of network status and equipment are more forgiving.

Through continuous construction of radio monitoring networks over the years, a monitoring network system with large scale and complex structure is formed. Including new and old monitoring facilities, including various equipment control standards, even proprietary control operating protocols, including wired monitoring facilities, and also including wireless monitoring facilities. Particularly, after the radio monitoring facility is put into use, due to the existence of objective factors such as system aging and index drift, and subjective factors such as equipment damage caused by improper human use, the accuracy of the monitoring result is difficult to guarantee. How to implement effective supervision to the monitoring net, master monitoring net running state at any time, optimize monitoring net configuration, guarantee monitoring net normal operating promotes monitoring work management level, lets monitoring net play bigger effect and benefit be the major problem that monitoring net construction faces. Therefore, the construction of the intelligent operation, maintenance and management system of the radio monitoring network is an indispensable part of the construction of the existing monitoring network, the importance of the system is increasingly highlighted along with the further development of the monitoring network, and the system not only meets the requirement of guaranteeing and optimizing the operation of the monitoring network, but also meets the requirement of improving the monitoring management level.

Therefore, the light-weight sensing device is adopted to realize real-time monitoring and recording of the working states and the use conditions of monitoring direction-finding equipment and signal suppression equipment for monitoring network nodes (including fixed monitoring and mobile monitoring), network communication states and working conditions, machine room environment states and other parameters under the complex conditions of limited resources such as power supply, networks and the like, and providing equipment facility real-time states and operation maintenance instructions for operators on duty or operation maintenance personnel through a command control platform or a handheld mobile terminal of monitoring management is an urgent task for ensuring normal and efficient operation of monitoring network facilities.

In the face of a monitoring network system with large scale and complex structure, how to implement effective supervision on the monitoring network, master the running state of the monitoring network at any time, optimize the configuration of the monitoring network, ensure the normal running of the monitoring network, promote the management level of monitoring work, and enable the monitoring network to play a greater role and benefit, which is a major problem facing the construction of the monitoring network.

Disclosure of Invention

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows.

A radio monitoring operations management system, comprising: each radio monitoring operation management device is used for being connected with a plurality of radio monitoring devices, obtaining operation parameter data of the radio monitoring devices and transmitting the operation parameter data to a cloud server;

the cloud server is used for receiving data sent by the radio monitoring operation management device, storing, analyzing and processing the data and sending the data to the client;

and the client is used for receiving the data sent by the cloud server, displaying, managing and early warning the data, and issuing related instructions to the radio monitoring operation management device.

Further, the radio monitoring operation management device comprises a radio monitoring operation management monitor and a radio monitoring equipment test unit which are connected with each other, a client sends out a test signal transmitting instruction which is stored in a monitoring station signal test database of a cloud service data platform in a cloud server to form a test task list, the instruction content is a signal test parameter value (comprising a signal test instruction value, test signal designated power and designated frequency), the radio monitoring operation management monitor polls the signal test task list in the monitoring station signal test database and judges the signal test instruction value in the signal test parameter value, if the signal test instruction value is not a default value, the radio monitoring equipment test unit transmits a signal test instruction to the radio monitoring equipment test unit, and after receiving the signal test instruction, the radio monitoring equipment test unit transmits a signal of designated frequency and power single frequency to the radio monitoring equipment, the radio monitoring equipment receives the signal and returns a group of test values to the monitor, the test return values comprise frequency and power, the radio monitoring operation management monitor forms a data packet with other data (such as operation parameter data of the radio monitoring equipment) to be uploaded to the cloud server, the cloud server sends the data packet to the client, and the client judges the integrity and the normalization of the radio monitoring equipment according to the test return values.

Further, the radio monitoring operation management monitor performs data interaction with the cloud server in a wired connection mode of a LAN interface or an LTE data communication mode.

Furthermore, a cloud service data platform is built in the cloud server, a plurality of monitoring station service databases are built in the cloud service data platform, one radio monitoring operation management monitor corresponds to one monitoring station service database, and a data packet sent by each radio monitoring operation management monitor is uploaded to the corresponding monitoring station service database; one monitoring station service database corresponds to one monitoring station database in a one-to-one correspondence manner.

And further, judging whether the operation parameter data of the radio monitoring equipment is abnormal or not and whether the integrity and the normalization of the radio monitoring equipment are abnormal or not in the client, if so, normally displaying the data in the client, and if so, displaying the data in the client and sending out an early warning prompt.

Furthermore, when the operation parameter data of the radio monitoring equipment is abnormal or the integrity and the normalization of the radio monitoring equipment are abnormal, the client sends out an early warning prompt and automatically pushes abnormal information to inspection personnel, and the inspection personnel perform operation maintenance on the relevant radio monitoring equipment.

Further, the radio monitoring operation management monitor generates a dynamic two-dimensional code bound with the monitor, and the two-dimensional code is refreshed at regular intervals (for example, at intervals of 10 minutes), so that the timeliness of the two-dimensional code is ensured. After the patrol personnel perform operation maintenance or periodic maintenance on the radio monitoring equipment, the dynamic two-dimensional code on the monitor can be scanned by the intelligent client, the maintenance content, the maintenance time, the patrol condition and the like of the radio monitoring equipment monitored by the monitor are uploaded, and the cloud server can perform further analysis statistics on the maintenance patrol record and the content.

Compared with the prior art, the invention has the following beneficial effects:

1. the monitoring management of the radio monitoring equipment can be realized at any time and any place.

2. The radio monitoring equipment connected with a plurality of operation management devices can be managed in batch.

3. The communication between the remote control radio monitoring operation management monitor and the radio monitoring equipment testing unit can be realized.

4. And the abnormal radio monitoring equipment can be maintained and managed in time.

Drawings

Fig. 1 is a block diagram of a radio monitoring operation management system according to an embodiment.

Fig. 2 is a block diagram of the radio monitoring operation management apparatus.

Figure 3 is a schematic diagram of data links in one embodiment.

Fig. 4 is a schematic processing flow diagram of data uploading to a cloud server and a client.

FIG. 5 is a data flow diagram of data upload storage and data presentation by a monitor in one embodiment.

FIG. 6 is a diagram illustrating data anomaly early warning in one embodiment.

Fig. 7 is a diagram of the overall network structure of the remote control monitor transmitting the test signal command.

FIG. 8 is a flow diagram of an embodiment of a monitor transmitting a test signal instruction.

FIG. 9 is a flowchart of an embodiment for an operation and maintenance person to scan a two-dimensional code.

Fig. 10 is a schematic diagram of an application scenario of the radio monitoring operation management system.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a schematic structural diagram of a radio monitoring operation management system provided in this embodiment. It should be noted that the device testing unit and the radio monitoring operation management monitor in fig. 1 form a radio monitoring operation management apparatus, and the monitoring device 1, the monitoring device 2, and the monitoring device 3 are collectively referred to as external devices.

The radio monitoring operation management system mainly comprises a radio monitoring operation management device, a cloud server and a client. The radio monitoring operation management device comprises a radio monitoring operation management monitor (hereinafter referred to as a monitor) and a radio monitoring device testing unit (hereinafter referred to as a testing unit, and in the drawings, referred to as a device testing unit), wherein the monitor is directly connected with the radio monitoring device testing unit. Fig. 1 shows two radio monitoring operation management devices, and three radio monitoring devices (i.e., the monitoring devices in the figure) are connected to the monitor in each radio monitoring operation management device. The radio monitoring operation management monitor can communicate with the cloud server in different or same manners, for example, as shown in fig. 1, wherein one monitor is connected with the cloud server in a wired manner through a LAN interface, and the other monitor is connected with the cloud server in an LTE wireless data communication manner.

The clients can be of various types, as shown in fig. 1 and 4, a web client, an intelligent client and a control center web client can perform data interaction with radio monitoring operation management monitors all over the country through a cloud server, and display, manage and perform abnormity early warning on data transmitted by the cloud server. The client can also control the emission of the test signal through the cloud server.

The radio monitoring operation management device comprises a radio monitoring operation management monitor and a radio monitoring equipment testing unit with the radio monitoring equipment automatic testing function, wherein the radio monitoring operation management monitor is in two-way communication with the radio monitoring equipment testing unit in an RS485 communication mode. The radio monitoring operation management monitor can realize the monitoring and measurement of the working state, the network state and the power supply parameter of the radio monitoring equipment. Wherein, the monitor can obtain the network state of the monitor and the radio monitoring device by means of ping (part of TCP/I P protocol, which can check whether the network is connected or not), if ping is enabled, the network of the monitor and the radio monitoring device is normal; the monitor can also ping the monitoring network or the client of the control center, if the monitor can ping to communicate with the monitoring network, the monitor can ping to communicate with the monitoring network at the same time, if the monitor can ping to communicate with the monitoring network at the same time, and the monitor can ping to communicate with the monitoring network at the same time. The operating state, network state and power supply parameters of the radio monitoring equipment form the operating parameter data of the radio monitoring equipment.

Fig. 2 shows a module structure of the radio monitoring operation management device in the present embodiment. The radio monitoring operation management device mainly comprises a main control unit 1-1, a communication module 1-2, a current parameter acquisition module 1-3, a power supply module 1-4, a DC conversion module 1-5, a battery module 1-6, an equipment power supply module 1-7 (power supply of radio monitoring equipment is supplied by an input power supply in the equipment power supply module), a camera 1-8, a temperature and humidity sensor 1-9, an LCD display screen 1-10, a power indicator lamp 1-11 and an equipment indicator lamp 1-12. The main control unit 1-1 is respectively connected with other modules to realize acquisition, processing analysis, display and fault alarm of state data and service data such as current, temperature and humidity, video or pictures, monitoring data and the like related to radio monitoring operation management; the main control unit is connected with the radio monitoring equipment testing unit, and the radio monitoring equipment testing unit is connected with the PCB antenna, so that the integrity and the normalization of the radio monitoring equipment can be automatically tested.

In the radio monitoring operation management monitor, one end of a power supply module is connected with an external 220V commercial power, and the other end of the power supply module is simultaneously connected with a DC conversion module and a current parameter acquisition module. The DC conversion module is connected with the main control unit and the battery module. The battery module built-in protection circuit is connected with the DC conversion module. The device power supply module is connected with the 220V mains supply input, the power supply indicator lamp, the device indicator lamp and the wireless monitoring device for outputting 220V mains supply. In the situation shown in fig. 2, the device power supply module provides access to 3 radio monitoring devices, and during actual use, the radio monitoring operation management apparatus may also be connected to one radio monitoring device, for example, during vehicle-mounted mobile monitoring, and may also be connected to multiple radio monitoring devices, depending on the specific application scenario. The equipment indicator light and the power indicator light are directly connected with the equipment power supply module.

When the radio monitoring operation management monitor is connected with 220V mains supply, the current converts 220V alternating current into 9-18V direct current through the power supply module, on one hand, the battery module in the equipment is charged, so that the power supply in the battery module is sufficient for the need from time to time, and meanwhile, the power supply is also supplied for the current parameter acquisition module. On the other hand, 9-18V direct current is converted into 5V direct current through the DC conversion module to supply power for the main control unit and other modules connected with the main control unit; if the external 220V alternating current fails to supply power to the monitor immediately, the battery module directly supplies power to the current parameter acquisition module and also discharges power to the DC conversion module, and the voltage in the battery module is converted into 5V direct current to supply power to the main control unit.

The monitor of the radio monitoring operation management device is provided with a power indicator and an equipment indicator, and after the radio monitoring equipment is connected, if the power indicator is not on, the power supply part of the power supply is in fault; if the equipment indicator light is not on, the fault occurs in the radio monitoring equipment, so that the maintenance manager can quickly remove the fault.

In the radio monitoring operation management monitor, the current acquisition module is used for acquiring power supply parameter data of the radio monitoring equipment, and if the current of the current acquisition module is not 0, the radio monitoring equipment is represented to be in a working state, so that the working time of the radio monitoring equipment can be recorded. The current acquisition module transmits power supply parameter data (including current, voltage and power of the radio monitoring device) to the main control unit in an RS485 communication mode. The temperature and humidity sensor is used for acquiring environmental temperature and humidity data of the monitor; the camera collects the monitoring environment picture or video data where the monitor is located, the temperature and humidity sensor and the camera transmit the collected data to the main control unit in a wired mode, the main control unit processes and analyzes the data, the data are displayed on the LCD display screen on one hand, on the other hand, the data and other data form a data packet together, the data are connected with the Internet in a wired connection mode or an LTE wireless data communication mode through an LAN port in the communication module, and the data are transmitted to the cloud server in real time.

Fig. 3 is a schematic diagram of a data transmission link in the system. As shown, several radio monitoring devices can be connected to the same radio monitoring operation management monitor, and the radio monitoring operation management monitor obtains data of the corresponding radio monitoring devices. The plurality of radio monitoring operation management monitors are used for simultaneously uploading data in a LAN interface wired connection mode or an LTE wireless data communication mode; in addition, the radio monitoring operation management monitor can also obtain the signal test parameter values (including the signal test instruction values, the test signal designated power and the designated frequency) from the cloud server through a wired connection mode of a LAN interface or a wireless data communication mode of LTE. And the cloud server performs data processing, analysis and storage on the data uploaded by the monitor, sends the data to the client, and performs data display, data management and data anomaly early warning on the client. In the embodiment, data presentation, data management and data anomaly early warning can be performed in the web client, the intelligent client and the control center web client, and the emission of the test signal can be controlled. In addition, in the scheme, the inspection personnel can scan the dynamic two-dimensional code displayed on the LCD display screen of the radio monitoring operation management monitor through the intelligent client, and upload the maintenance content, the maintenance time and the inspection condition of the radio monitoring equipment connected to the monitor to the cloud server; and the administrator can inquire the inspection state through the client.

Fig. 4 is a schematic diagram of data uploading and data displaying of a plurality of radio monitoring operation management monitors. As shown, multiple radio monitoring devices may be connected to the same radio monitoring operation management monitor at the same time, and the number of radio monitoring devices connected to each radio monitoring operation management monitor may be different. And forming corresponding data packets by various data in the radio monitoring operation management monitor, and uploading the data. The method comprises the steps that a cloud service data platform is built in a cloud server, corresponding monitoring station service databases are built in the cloud service data platform, data packets in monitors are uploaded to the corresponding monitoring station service databases, namely, one monitor corresponds to one monitoring station service database, and each monitor uploads data to the corresponding monitoring station service database. The monitoring station service database corresponds to the monitoring station database one by one, namely a radio monitoring operation management monitor corresponds to a monitoring station. The data are analyzed, processed and stored on the cloud service data platform, and are sent to the clients, and data display, management and abnormity early warning are performed in various clients.

Fig. 5 is a data flow diagram of data upload storage and data presentation of a monitor in an embodiment, which shows a process of forming data packets of various types to a client data presentation in a radio monitoring operation management monitor. As shown in the figure, in the radio monitor, the power supply parameters of the radio monitoring device include current, voltage and power, the environment monitoring parameters include temperature and humidity parameters, video/photos, signal test return values and other data (for example, data such as system error logs, ping network feedback data, parameters of generated two-dimensional codes and the like) form data packets, the data packets are uploaded to a service database of a corresponding monitoring station of the cloud service data platform for analysis and processing, and then data presentation, data management and data anomaly early warning are performed in the client.

As shown in fig. 6, this figure shows various data display and early warning processes, where various data are transmitted to a client through a cloud server, and the data are analyzed, processed and displayed in the client, mainly to analyze and determine whether the state data and the test return value of the radio monitoring device are abnormal, and if not, perform comprehensive display and management, and if so, perform data abnormality early warning while displaying. For example, the current of one radio monitoring device in monitoring of a certain monitor is 0, which indicates that the radio monitoring device has a circuit fault, the radio monitoring device does not work normally, the client sends out an early warning in time, the manager pushes the early warning information to the inspection staff according to related conditions, and the inspection staff performs operation maintenance on the faulty radio monitoring device in time.

Fig. 7 is a diagram showing the overall network structure of the remote control monitor transmitting the test signal command. As shown, a web client, a smart client, a control center web client, etc. may control the communication between the radio monitoring operation management monitor and the radio monitoring device testing unit. The method comprises the steps that a manager controls a client to control a radio monitoring operation management monitor of a corresponding monitoring station to communicate with a radio monitoring device testing unit, the manager operates the client to send a signal transmitting instruction, parameters in a testing database of the corresponding monitoring station are modified, then testing signal parameters (the modified parameters comprise testing instruction values, signal transmitting appointed power and signal transmitting appointed frequency) are transmitted to the radio monitoring operation management monitor of the station, and after the radio monitoring operation management monitor obtains the instruction (the modified or newly-established signal testing instruction in the testing signal parameters) communicated with the radio monitoring device testing unit, the radio monitoring operation management monitor transmits an RS485 signal to the radio monitoring device testing unit. The monitor and the radio monitoring device can be directly connected or connected through a monitoring network (through device operation protocols in the radio monitoring device such as SCPI, RMTP1.0, RMTP2.0, atomic service and the like), the monitor sends a frequency list consisting of a group of specified frequencies (5 frequencies in the embodiment) shifted by 1 and 2 unit frequencies (2KHz) to the left and 1 and 2 unit frequencies (2KHz) to the right while sending an RS485 signal to the radio monitoring device, and sends an instruction of the radio monitoring device to perform discrete scanning (MSCAN), wherein the list is a frequency list which can be received by setting the radio monitoring device. The radio monitoring equipment test unit transmits signals with designated frequency and designated power through the PCB antenna, the receiver of the radio monitoring equipment receives the test signals, the radio monitoring equipment performs discrete scanning on the frequency at first to judge the deviation value of the frequency, then the radio monitoring equipment returns a group of frequency and power (namely test return values) to the monitor, and the radio monitoring operation management monitor forms data packets with other data and uploads the data packets to the cloud server. The cloud server sends the return frequency and the power to the client, the client obtains the return frequency and the power, the return power is compared with the preset noise, if the difference between the return power and the preset noise is larger than 0, and the frequency deviation value is within a specified range, the integrity and the normalization of the radio monitoring equipment are good, and if one condition is not met, the integrity and the normalization of the radio monitoring equipment are not met.

A client sends out a test signal transmitting instruction through a client, the signal test parameter value is changed, the signal test parameter value of a corresponding monitoring station signal test database in a cloud service data platform is modified, a radio monitoring operation management monitor polls the signal test parameter value in a corresponding data table in the cloud data platform, namely a test task list (a monitoring station signal test database), obtains the parameter value and judges the signal test parameter value, as shown in figure 8, if the signal test instruction value in the signal test parameter value is not a default value, namely a new test task exists, the radio monitoring operation management monitor is triggered to transmit the signal instruction, the monitor sends an RS485 signal to a radio monitoring device test unit of a radio monitoring system, and the signal test instruction value in the signal test parameter value is modified to the default value, the radio monitoring operation management monitor modifies the signal test instruction value in the corresponding database in the cloud service data platform into a default value in a wired connection mode of a LAN interface or an LTE data communication mode; after the radio monitoring equipment testing unit receives the signal, the radio monitoring equipment testing unit sends a single-frequency signal with specified frequency and power to the radio monitoring equipment, and judges the integrity and the normalization of the radio monitoring equipment by receiving the return parameter of the sent signal through the radio monitoring equipment, namely a signal testing return value; uploading the signal test return value to a corresponding database in a cloud service data platform in a LAN interface wired connection mode or an LTE data communication mode; the integrity and the normalization of the radio monitoring equipment are judged in a client background after the radio monitoring equipment is sent to the client through the cloud server. The signal transmission time lasts for 30s in the process that the radio monitoring equipment testing unit transmits the signal to the radio monitoring equipment, and if the signal transmission time lasts too short, the radio monitoring equipment cannot receive the signal; if the transmission time is too long, interference with surrounding radio signals may result.

The test return value is a group of frequency and power, the specified power and the specified frequency transmitted by the test unit of the radio monitoring equipment are received in the radio monitoring equipment in a discrete scanning mode, if the specified frequency can be received, the radio monitoring equipment returns a group of processed frequency and power, a noise value is preset in a background of the client, if the difference between the return power and the preset noise value is greater than 0, the radio monitoring equipment has good normalization and integrity, and if one condition is not met (the radio monitoring equipment cannot receive the specified frequency, or the difference between the return power and the preset noise value is less than or equal to 0, or the frequency deviation value is not in a specified range), the integrity and the normalization of the radio monitoring equipment are poor, early warning is sent out and abnormal data are displayed; and if the various data and the test return value are normal, displaying the various data in the client normally.

When the radio monitoring equipment needs maintenance, the polling personnel is needed to perform operation maintenance on the radio monitoring equipment. As shown in fig. 9, after the polling personnel maintains the radio monitoring device of the monitoring station, the polling personnel scans the dynamic two-dimensional code on the operation management monitor of the radio monitoring device in the monitoring station by using the intelligent client, and after the scanning is successful, the scanning information is uploaded to the cloud server to form polling record information; the client checks the maintenance content, the maintenance time and the inspection condition of each site through various clients, and whether the operation and maintenance personnel maintain the radio monitoring equipment in the site or not.

As shown in fig. 10, which shows an application scenario of the present invention, monitoring stations at provincial level and prefecture level form a huge radio monitoring network. The monitoring stations in each province and city can be fixed monitoring stations, mobile monitoring stations or portable monitoring stations, and radio monitoring operation management monitors can be used in the monitoring stations to realize monitoring and management of radio monitoring equipment in the monitoring stations.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention.

Claims (8)

1. A radio monitoring operations management system, comprising:

each radio monitoring operation management device is connected with a plurality of radio monitoring devices, obtains operation parameter data of the radio monitoring devices and transmits the operation parameter data to a cloud server;

the cloud server is used for receiving data sent by the radio monitoring operation management device, storing, analyzing and processing the data and sending the data to the client;

the client is used for receiving the data sent by the cloud server, displaying, managing, early warning for abnormity and issuing instructions to the radio monitoring operation management device;

the radio monitoring operation management device comprises a radio monitoring operation management monitor and a radio monitoring equipment test unit which are connected with each other, a client sends out a test signal transmitting instruction, the signal test parameter value of a monitoring station signal test database in a cloud server is modified, the radio monitoring operation management monitor polls the signal test parameter value in the monitoring station signal test database, if the signal test parameter value is judged to be changed, the signal test instruction is transmitted to the radio monitoring equipment test unit, the radio monitoring equipment test unit receives the signal test instruction and then sends a single-frequency signal with specified frequency and power to radio monitoring equipment, the radio monitoring equipment receives the signal and returns a group of test return values of frequency and power to the monitor, and the radio monitoring operation management monitor forms a data packet with other data and uploads the test return value to the cloud server, and the cloud server sends the test return value to the client, and the client judges the integrity and the normalization of the radio monitoring equipment according to the test return value.

2. The radio monitoring operation management system according to claim 1, wherein the radio monitoring operation management monitor comprises a main control unit, a current parameter acquisition module, a DC conversion module, a communication module, a power supply module, an equipment power supply module, an LCD display screen, a power indicator lamp, and an equipment indicator lamp, and the main control unit is connected with the communication module, the current acquisition module, the DC conversion module, and the LCD display screen; the current parameter acquisition module obtains the power supply parameter of radio monitoring equipment, transmits for the main control unit, and the main control unit is with the data packing that obtains to transmit for the cloud ware through communication module.

3. The radio monitoring operation management system according to claim 2, wherein the radio monitoring operation management monitor further comprises a battery module, the battery module is connected with the current parameter acquisition module and the DC conversion module, and when no commercial power is available or the power supply module cannot work normally, the battery module directly supplies power to the current parameter acquisition module and discharges power to the main control unit through the DC conversion module to supply power for 5V input.

4. The radio monitoring operation management system according to claim 2, wherein the radio monitoring operation management monitor further comprises a camera and a temperature and humidity sensor, the camera is used for collecting pictures or videos of a monitored environment, the temperature and humidity sensor is used for collecting temperature and humidity parameters of the monitored environment, and the main control unit further packages and uploads the pictures or videos, the temperature and humidity parameters and operation parameter data of the radio monitoring device to the cloud server through the communication module.

5. The radio monitoring operation management system according to claim 2, wherein the radio monitoring operation management monitor performs data interaction with the cloud server through a wired connection manner of a LAN interface or an LTE data communication manner.

6. The radio monitoring operation management system according to claim 2, wherein a dynamic two-dimensional code bound to the radio monitoring operation management monitor is generated in the radio monitoring operation management monitor, the two-dimensional code is refreshed at regular intervals, and after the polling personnel perform operation maintenance or periodic maintenance on the radio monitoring equipment, the polling personnel scans the dynamic two-dimensional code on the monitor through the intelligent client, and uploads the maintenance content, the maintenance time and the polling condition of the radio monitoring equipment monitored by the monitor to the server.

7. The radio monitoring operation management system according to claim 1, wherein the client is an intelligent client or a web client, and when an abnormality occurs in the operation parameter data of the radio monitoring device or in the integrity and the normalization of the radio monitoring device, the client sends out an early warning prompt and automatically pushes abnormality information to the inspection staff.

8. The radio monitoring operation management system according to claim 1, wherein a cloud data service platform is built in a cloud server, a plurality of monitoring station service databases are built in the cloud data service platform, one radio monitoring operation management monitor corresponds to one monitoring station service database, and a data packet sent by each radio monitoring operation management monitor is uploaded to the corresponding monitoring station service database; one monitoring station service database corresponds to one monitoring station database one by one.

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