CN211577415U

CN211577415U - Wind profile radar standard output controller system

Info

Publication number: CN211577415U
Application number: CN201921040721.XU
Authority: CN
Inventors: 邵楠; 吴蕾; 刘洁; 李瑞义; 王箫鹏; 杨鑫蕊; 周薇; 胡学英
Original assignee: CMA Meteorological Observation Centre
Current assignee: CMA Meteorological Observation Centre
Priority date: 2019-07-04
Filing date: 2019-07-04
Publication date: 2020-09-25
Anticipated expiration: 2029-07-04

Abstract

The application provides a wind profile radar standard output controller system includes: the system comprises a wind profile radar terminal, a system host, an alarm subsystem, a bar code scanning module, a switch module, an environment monitoring subsystem, a UPS module, a common air conditioner controller, a temperature and humidity sensor and a video monitoring subsystem; the wind profile radar terminal is connected with the system host; the UPS module, the common air conditioner controller, the temperature and humidity sensor and the video monitoring subsystem are respectively connected with the environment monitoring subsystem; the environment monitoring subsystem, the switch module and the system host are connected in sequence; the system host is connected with the alarm subsystem; the bar code scanning module is connected with the system host. The utility model can master the running state of the radar in real time; the trace recording and management of radar service process real-time tracking, device replacement, software upgrading and the like are realized; meanwhile, the functions of radar remote switch control, operation mode control, performance parameter inspection, adaptive parameter inspection and the like are realized, so that the operation requirement of the unattended radar is met.

Description

Wind profile radar standard output controller system

Technical Field

The application relates to the technical field of radars, in particular to a standard output controller system of a wind profile radar.

Background

The wind profile radar is a remote sensing device which transmits electromagnetic beams in different directions to the high altitude, receives and processes information returned by the electromagnetic beams due to uneven atmosphere vertical structure, and accordingly realizes high altitude wind field detection. The wind profile radar can detect the change of meteorological elements such as wind direction and wind speed above the wind profile radar along with the height by utilizing the Doppler effect, and has the advantages of high detection time-space resolution, high automation degree and the like. An acoustic emission device is added on the basis of a wind profile radar to form a radio-acoustic detection system, so that the vertical profile of the temperature in the atmosphere can be remotely detected.

However, there are also different degrees of problems in the operation management service of the wind profile radar, including many types of devices for processing wind profile radar data, incomplete online monitoring function, non-uniform monitoring method, and incomplete monitoring records.

SUMMERY OF THE UTILITY MODEL

The application provides a standard output controller system of a wind profile radar, which aims to solve the problems of multiple equipment models, incomplete online monitoring function, non-uniform monitoring method and incomplete monitoring record of wind profile radar data processing.

A wind profile radar standard output controller system comprising: the system comprises a wind profile radar terminal, a system host, an alarm subsystem, a bar code scanning module, a switch module, an environment monitoring subsystem, a UPS module, a common air conditioner controller, a temperature and humidity sensor and a video monitoring subsystem;

the wind profile radar terminal is connected with the system host; the system host is used for receiving power spectrum data, operation state data, calibration data, service maintenance data and terminal operation data which are sent by the wind profile radar terminal;

the UPS module, the common air conditioner controller, the temperature and humidity sensor and the video monitoring subsystem are respectively connected with the environment monitoring subsystem; the UPS module is used for collecting UPS state data and sending the UPS state data to the environment monitoring subsystem; the common air conditioner controller is used for collecting air conditioner state data and sending the air conditioner state data to the environment monitoring subsystem; the temperature and humidity sensor is used for collecting temperature and humidity data of the machine room and sending the temperature and humidity data of the machine room to the environment monitoring subsystem; the video monitoring subsystem is used for acquiring monitoring data in the machine room and monitoring data outside the machine room and sending the monitoring data in the machine room and the monitoring data outside the machine room to the environment monitoring subsystem; the environment monitoring subsystem is used for receiving UPS state data, air conditioner state data, temperature and humidity data of a machine room, monitoring data in the machine room and monitoring data outside the machine room;

the environment monitoring subsystem, the switch module and the system host are connected in sequence; the environment monitoring subsystem is used for sending the UPS state data, the air conditioner state data, the temperature and humidity data of the machine room, the monitoring data in the machine room and the monitoring data outside the machine room to the system host through the switch module;

the system host is connected with the alarm subsystem; the alarm subsystem is used for sending out fault alarm and/or over-value alarm;

the bar code scanning module is connected with the system host; and the bar code scanning module is used for inputting key devices for replacing the wind profile radar terminal.

Furthermore, the environment monitoring subsystem is connected between the switch modules through RJ45 network interfaces.

Further, the video monitoring subsystem comprises a video processing extension, a video server, a cylinder type camera and/or a pan-tilt-type high-definition camera, wherein the cylinder type camera and/or the pan-tilt-type high-definition camera are connected with the video server; the video server is connected with the video processing extension set; the cylinder type camera and/or the pan-tilt-zoom type high-definition camera are used for collecting videos of the radar machine room and the outdoor antenna environment.

Further, the alarm subsystem comprises an alarm signal lamp belt and a GSM short message alarm; the alarm signal lamp belt and the GSM short message alarm are respectively connected with the system host; the alarm signal lamp belt is used for sending out fault alarm and/or over-value alarm through optical signals; the GSM short message alarm is used for sending fault alarm and/or over-value alarm to related workers through short messages.

Further, the system host includes:

the radar online performance monitoring module is used for monitoring and recording radar key technical parameters, radar running state parameters, radar adaptation parameter changes, running conditions of a radar client, radar calibration results and replacement and maintenance of radar key devices on line;

the environment monitoring module is used for monitoring the temperature and humidity of the machine room, the temperature and humidity of the transmitter, the running state of the air conditioner, the running parameters of the UPS, the state of the generator, the change of commercial power and the video of the machine room;

the radar data processing and quality control module is used for analyzing and processing wind profile radar power spectrum data, generating and displaying wind profile radar basic product data, and uploading the power spectrum data, the product data, the radial data and the state file in real time;

the system background management module is used for managing user login and user authority, maintaining a management database, managing an alarm threshold and managing an alarm level; and

and the other system modules are used for displaying the parameter list/waveform, inquiring historical data and outputting a data report.

Further, the radar online performance monitoring module comprises:

the radar key technical parameter on-line monitoring and analyzing module is used for recording and displaying key technical parameters in real time; analyzing key technical parameters;

the radar adaptation parameter change online monitoring module is used for recording and displaying adaptation parameters used by the current radar in work in real time; recording the time, content and times of adapting parameter change;

the system comprises a radar client running state online monitoring module, a data processing module and a data processing module, wherein the radar client running state online monitoring module is used for monitoring the size of a disk space, the running memory ratio, the CPU ratio and a software log file of an industrial personal computer of the wind profile radar;

and the radar key device replacement monitoring module is used for recording the maintenance records of the radar key device.

Further, the radar key technical parameter on-line monitoring and analyzing module comprises: the device comprises a transmission peak power stability analysis module, a standing-wave ratio stability analysis module, a push-level input and output power stability analysis module and a system noise coefficient stability analysis module.

Further, the environment monitoring module includes: the system comprises a machine room temperature and humidity monitoring module, a transmitter temperature and humidity monitoring module, an air conditioner running state monitoring module, a UPS running parameter monitoring module, a generator state monitoring module, a commercial power monitoring module and a machine room video monitoring module;

the temperature and humidity monitoring module of the machine room and the temperature and humidity monitoring module of the transmitter are connected with a temperature and humidity sensor; the air conditioner running state monitoring module is connected with a common air conditioner controller; the UPS operation parameter monitoring module is connected with the UPS module; the machine room video monitoring module is connected with the video monitoring subsystem.

Further, the radar data processing and quality control module comprises two data processing modes of a spectral line level and a profile line level.

Further, the system host includes:

the radar whole machine performance evaluation module is used for outputting radar working state performance evaluation results according to the monitored key performance parameters and the alarm information, and the evaluation results comprise normality, maintenance and faults;

the business process monitoring module is used for acquiring noise coefficient calibration, radial speed calibration, system sensitivity, dynamic range calibration, transceiving multichannel amplitude-phase calibration, transmitting power and system coherence calibration which are transmitted by the wind profile radar terminal;

the radar remote control module is used for controlling the whole radar, the power on-off, the working mode, the communication continuous inspection and the log recording;

the auxiliary equipment remote control module is used for controlling an air conditioner, a generator, a video monitoring subsystem and a UPS;

and the online monitoring point monitoring module is used for displaying and recording radar online monitoring point information in a classified manner.

Compared with the prior art, the method has the following advantages:

the utility model realizes the functions of unified data processing and quality control of the radar spectral line level and the profile level, and standardizes the processing of power spectrum-radial data-product data; the functions of information acquisition, on-line monitoring, statistical analysis and alarm, radar health state evaluation, data transmission monitoring and the like of radar operation key technical parameters, radar operation environment parameters, accessory equipment operation state parameters and the like are realized, and the radar operation state is mastered in real time; the trace recording and management of radar service process real-time tracking, device replacement, software upgrading and the like are realized; meanwhile, the functions of radar remote switch control, operation mode control, performance parameter inspection, adaptive parameter inspection and the like are realized, so that the operation requirement of the unattended radar is met.

The utility model discloses the overall construction adopts the design of distributing type modularization, accomplishes independent operation, mutual noninterference between each branch system and the subassembly to guarantee system overall operation stability, the later stage installation of being convenient for simultaneously, deployment and maintenance.

Drawings

Fig. 1 is a schematic structural diagram of a wind profile radar standard output controller system according to the present invention;

fig. 2 is a schematic diagram of an interface structure of a wind profile radar standard output controller system according to the present invention;

fig. 3 is a schematic service structure diagram of a wind profile radar standard output controller system according to the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, the present application is described in further detail with reference to the accompanying drawings and the detailed description.

As shown in fig. 1, a wind profile radar standard output controller system includes: the system comprises a wind profile radar terminal, a system host, an alarm subsystem, a bar code scanning module, a switch module, an environment monitoring subsystem, a UPS module, a common air conditioner controller, a temperature and humidity sensor and a video monitoring subsystem; the switch is the medium for network communication between the system host and other monitoring modules.

The wind profile radar standard output controller system (namely the WPRSOC system) realizes the functions of unified processing of radar spectral line level and profile level data and quality control, and standardizes the processing of power spectrum-radial data-product data; the functions of information acquisition, on-line monitoring, statistical analysis and alarm, radar health state evaluation, data transmission monitoring and the like of radar operation key technical parameters, radar operation environment parameters, accessory equipment operation state parameters and the like are realized, and the radar operation state is mastered in real time; the trace recording and management of radar service process real-time tracking, device replacement, software upgrading and the like are realized; meanwhile, the functions of radar remote switch control, operation mode control, performance parameter inspection, adaptive parameter inspection and the like are realized, so that the operation requirement of the unattended radar is met.

The hardware device models adopted in this implementation are as follows:

the system host requires an eight-core processor with a master frequency of more than 3.3GHz, a memory of 16GB, a solid state disk of 128 GB and a hard disk storage capacity of at least 2 TB;

the video monitoring subsystem can be connected with a network camera which accords with ONVIF, PSIA and RTSP standards and is mostly universal, previewing, storing and replaying of 4K high-definition network videos are supported, self-adaptive access of front ends of H.265 and H.264 codes is supported, 1 HDMI and 1 VGA are simultaneously output, 4K high-definition resolution output is supported, 16 paths of maximum synchronous replay and multi-path synchronous reverse play are supported, 2 SATA interfaces are supported, network detection (network flow monitoring, network packet capturing and network smooth) functions are supported, and the disk storage capacity required to be equipped by a server is at least 6 TB;

the environment monitoring subsystem can adopt the latest 180MHz ARM Cortex-M4 processor kernel, support the maximum 2MB flash memory or 1MB double-zone flash memory, each flash memory is internally provided with 256KB RAM, and support the platform of the embedded Microsoft.NET, Java or uC Linux operating system;

more than 4 USB3.0 interfaces. An HDMI interface.

Environmental monitoring subsystem

1) Counting the time of continuous operation and no fault of the monitoring subsystem;

2) displaying all state parameters (a monitoring combination monitoring state, a push level component monitoring state, a TR component monitoring state, a calibration combination monitoring state and an air conditioner monitoring state) of the monitoring subsystem, wherein each state parameter supports viewing of historical change conditions, and graphs and data can be exported to excel at the same time;

3) and displaying a calendar of the running state of the monitoring subsystem, counting the running condition of the subsystem every 6 minutes, and showing the states of normal, fault, available and the like by using different colors.

Auxiliary equipment (UPS, air-conditioner and its controller, temperature and humidity sensor, video monitoring, etc.)

1) Counting the continuous running time without faults of the affiliated facilities;

2) and displaying an auxiliary equipment running state calendar table, counting the running condition of the auxiliary equipment every 6 minutes, and displaying the normal state, the fault state and the like by using different colors.

The wind profile radar standard output controller system adopts a B/S structure, integrates functions of database storage and management, radar product generation and quality control, user management, system configuration, log query, radar performance, service process, adaptive parameter query, video monitoring, device replacement, accessory equipment monitoring, alarm query, radar control, environment monitoring and the like into a whole, thereby finding out reasons influencing the stable operation and performance deterioration of the radar, meeting the operation requirement of the unattended radar and achieving the purpose of improving the product data quality.

The system host is an information hub of the whole wind profile radar standard output controller system, and the implementation adopts a high-performance small server to bear the main functions as follows:

1. summarizing, analyzing, outputting and displaying all data information;

2. and providing Web front-end product service, and providing Web access service for other computers in the local area network so as to realize multi-user online synchronous browsing of the running condition and the environment monitoring result of the radar system.

3. And processing and quality control are carried out on radar power spectrum data, and radial data (including sub-mode radial velocity, spectrum width and signal-to-noise ratio) and product data (sampling height horizontal wind speed, horizontal wind direction, vertical velocity, horizontal velocity reliability, vertical velocity reliability, refractive index structure constant and the like) are output.

4. The monitoring data processing and analyzing method realizes the monitoring of the radar running state and the processing and analyzing of the monitoring data in the service process state, and comprises radar running state parameter data, radar configuration data, terminal software running and configuration data, radar service calibration data, radar extension component environment monitoring data, data transmission state monitoring data and the like.

The processing process of each data in the system host is realized by corresponding module components, and the method specifically comprises the following steps:

1) and the radar online performance monitoring module is used for monitoring and recording radar key technical parameters, radar running state parameters, radar adaptation parameter changes, running conditions of a radar client, radar calibration results and replacement and maintenance of radar key devices on line.

Wherein, the online performance monitoring module of radar includes:

1-1) an online monitoring and analyzing module for radar key technical parameters, which is used for recording and displaying key technical parameters in real time (part of the key technical parameters are shown in the following table); analyzing key technical parameters; wherein, radar key technical parameter on-line monitoring and analysis module includes: the device comprises a transmission peak power stability analysis module, a standing-wave ratio stability analysis module, a push-level input and output power stability analysis module and a system noise coefficient stability analysis module.

Recording and displaying various key technical parameters in real time, and performing retrieval query and custom time period history query according to metadata, radar operation mode parameters, online timing calibration parameters, an antenna system, a transmitter system and a receiving system; multiple conditions may also be selected for a joint search query.

The real-time changing key parameters (emission peak power, standing wave ratio, push stage input and output power and the like) and timing calibration parameters are analyzed, wherein the parameters comprise stability and overrun, and the change of the threshold value can be carried out through software upgrading. The default analysis time length of the parameters to be analyzed is at least ten times of the parameter updating period, and the analysis time length can be selected according to the actual service requirements. The result of the parameter analysis can be combined with the information of the on-line monitoring point to carry out the health analysis of the radar system, and the radar health index and the fault positioning algorithm are specifically referred to.

The radar health index is obtained by calculating emission peak power, standing-wave ratio, system coherence and noise coefficient. The radar health index is divided into 100 points in total, and the maximum score of each index is 40 points, 10 points, 20 points and 30 points respectively. The following table is the radar health index composition (exemplified by CFL 06).

Serial number	Item	Require that	Maintenance standard	Standard of deterioration
					1	Peak power of emission	9kw	100％～80％	Less than 80 percent
2	Standing wave ratio	≤1.3dB
					3	System coherency	≤0.1°
4	Noise figure	1.5dB	1.0 to 1.1 times of	1.1 times or more

1) Emission peak power (40 minutes)

When the emission peak power is more than or equal to 10kw, the term is full (40 min), when the power is less than or equal to 10kw multiplied by 80%, the term is 0 min, and the intermediate state continues to be scored according to the proportion.

2) Standing-wave ratio (10 minutes)

When the standing-wave ratio is less than or equal to 1.3dB, the term is full score (10 minutes), when the power is greater than or equal to 1.3dB, the term is 0 minute, and the intermediate state is continuously scored and calculated according to the proportion.

3) System coherency (20 points)

When the system coherence is less than or equal to 0.1 degree, the system is full score, otherwise, the system is 0 score.

4) Noise figure (30 points)

When the noise coefficient is less than or equal to 1.5dB, the noise coefficient is full score, when the noise coefficient is greater than or equal to 1.5dB multiplied by 1.1, the noise coefficient is zero score, and the rest is calculated according to the proportion.

The module is provided with an interface which is related to the parameter and can be used for data calling by an extension module or other processing modules.

Monitoring key parameters influencing radar functions in real time, analyzing variation trend through a core algorithm, evaluating reliability of the key parameters, and giving an alarm for the over-limit parameters. And meanwhile, a database is established, and the monitored and calculated parameters are stored for a long time. According to the requirements, data in a certain time period (2 years at most) are played back, statistically analyzed and displayed in a drawing mode, and data support is provided for radar fault analysis and detection data quality control.

The main key parameters include the emission peak power, standing wave ratio, push stage input and output power, system coherence and system noise figure.

The method comprises the steps that the peak power of wind profile radar emission represents whether power is emitted or not, and the detection performance of the wind profile radar is directly influenced; the standing-wave ratio represents whether the antenna works normally or not; the push stage is an important link on the transmission link, and the input and output power of the push stage can reflect whether the transmission link is normal or not; the system noise coefficient is an important embodiment of the performance of the receiving link and can reflect whether the receiving link works normally or not.

Calculating the stability of key parameters: according to a certain time period (a month or a year), the measured value is extracted once every 3 months, then the statistical calculation is carried out according to the root mean square error, and the statistical result can be displayed in a drawing mode.

1-2) a radar adaptation parameter change online monitoring module for recording and displaying adaptation parameters used by the current radar in work in real time; and recording the time, content and times of the adaptation parameter change. And obtaining values of radar adaptive parameters from the radar state and configuration parameter files, recording and displaying the change condition and time information of each group of adaptive parameters in a form of a change information list, and supporting operations such as searching, screening, sorting, data downloading and the like.

The adaptive parameters used by the current radar in working are recorded and displayed in real time, and the adaptive parameters used by the current radar in working can be inquired in real time. The monitored adaptation parameters are in a configuration file format.

Recording the time, the change content and the change times of the variable adaptation parameters (signal processing parameters, calibration parameters, detection mode parameters and the like), and performing the historical query and retrieval in the user-defined time period; multiple conditions may also be selected for a joint search query.

Other processing modules associated with the adaptation parameters may be linked into the module.

The file name of the stored data is Z9xxx _ ADAPT _ CHG _ yyyy.txt.

The adaptation parameters need to provide the following functions:

1) quickly positioning a certain moment and adapting the value of the parameter;

2) fast inquiring the adaptation parameter change condition, listing the change time, the value before the change, the value after the change and the like;

3) and exporting the change condition supporting the export of the adaptive parameters into excel.

1-3) an online monitoring module of the running state of the radar client, which is used for monitoring the disk space size, the running memory ratio, the CPU ratio and the software log file of the industrial personal computer of the wind profile radar.

The method comprises the steps of monitoring the running state of a software terminal of the wind profile radar industrial personal computer by monitoring the disk space size, the running memory ratio, the CPU ratio, software log files and the like of the wind profile radar industrial personal computer, monitoring whether radar software runs normally, sending alarm information to inform relevant personnel if the software is blocked or runs abnormally, and giving an alarm by using sound or flickering by a controller.

1-4) a radar key device replacement monitoring module for recording maintenance records of the radar key device.

After the radar maintenance personnel maintain the radar, a maintenance record page is opened, a code scanning gun is used for scanning the maintained parts, maintenance records are filled, the system stores the maintenance records into a database and sends the maintenance records to a designated user in a short message mode, and the database stores the maintenance records for the user to inquire in the future.

The change information of the radar key device is recorded, a code gun scanning mode is adopted, and meanwhile, a manual input mode is provided. The record information comprises the name of the key device, the model of the device, the manufacturer, the serial number of the component, the replacement date and the replacement personnel. The recorded information can not be deleted or changed.

The method comprises the steps of statistically analyzing radar key device replacement data, sorting, checking, retrieving, historical inquiring and statistically analyzing key device names, device models, antenna systems, transmitting systems, receiving systems, other systems, manufacturers, replacement dates, replacement personnel and the like according to service requirements; multiple conditions may also be selected for a joint search query. The method has the advantages that the total replaced number of devices in the query time interval, the replacement frequency of a certain device and the replacement frequency of the device are analyzed in a statistical mode, and warning information is provided for the devices with too frequent replacement frequency.

Other related modules can access and call the statistical analysis result. Supporting adding device replacement information; rapidly inquiring device replacement information; device replacement information is supported on a yearly basis.

2) The environment monitoring module is used for monitoring the temperature and humidity of the machine room, the temperature and humidity of the transmitter, the running state of the air conditioner, the running parameters of the UPS, the state of the generator, the change of commercial power and the video of the machine room; wherein, the environmental monitoring module includes: the system comprises a machine room temperature and humidity monitoring module, a transmitter temperature and humidity monitoring module, an air conditioner running state monitoring module, a UPS running parameter monitoring module, a generator state monitoring module, a commercial power monitoring module and a machine room video monitoring module;

In this embodiment, the temperature and humidity sensor is a temperature instrument and a humidity instrument; the air conditioner includes a home air conditioner and/or a precision air conditioner. The environment monitoring module displays monitoring results of environment subsystems such as a UPS, a generator, an air conditioner, a machine room temperature and humidity and the like, and realizes a human-computer interaction function through remote control operation. Monitoring results of environmental parameters such as the temperature and the humidity of the UPS, the generator and the air conditioner room are displayed on a unified page, and a realization menu and a button for remotely controlling an operation function are synchronously provided. Carry out online collection, monitoring, demonstration and record to radar operational environment and accessory equipment state parameter and upload, include: the temperature and humidity of the machine room, the temperature of the transmitter, the air conditioner, the UPS and the generator, the temperature and humidity of the generator room and the like, and the functions of monitoring the operation environment of the machine room and the antenna equipment are achieved. Collecting, monitoring, displaying and recording the temperature and humidity of the uploaded machine room on line; the upper and lower temperature and humidity limits of the machine room can be set; when the temperature and the humidity exceed the limit, the alarm prompt function is realized; and the temperature and humidity overrun information of a selected time period can be statistically analyzed, and the maximum time is 2 years. The image display processing can be carried out on the historical data; historical data may be derived. The temperature and humidity of an uploading transmitter are collected, monitored, displayed and recorded on line; the temperature and humidity upper and lower limits of the transmitter can be set; when the temperature and the humidity exceed the limit, the alarm prompt function is realized; and the temperature and humidity overrun information of a selected time period can be statistically analyzed, and the maximum time is 2 years. The image display processing can be carried out on the historical data; historical data may be derived.

A maximum of 4 air conditioners can be monitored; the temperature of the air conditioner is collected, monitored, displayed and recorded on line, and the upper limit and the lower limit of the temperature of the air conditioner can be set; when the temperature exceeds the limit, an alarm prompt function is provided; and can have the overtemperature self-starting function. And the temperature and humidity overrun information of a selected time period can be statistically analyzed, and the maximum time is 2 years. The image display processing can be carried out on the historical data; historical data may be derived. The air conditioner fault state display device can display fault states of an air conditioner, and comprises a compressor, a humidifier, a dehumidifier, a filter screen, a fan, a ventilation device, a heater and the like.

The UPS control and state monitoring functions are achieved; monitoring and displaying the voltage and frequency of an input source of the UPS, the output voltage and frequency, the current direction, and the voltage, the electric quantity and the current of the battery; displaying whether the radar is powered by mains supply or a battery; the UPS state failure warning display function is provided; recording the alarm; the alarm record historical data checking function is achieved. Historical data may be derived.

The system has the advantages of remote start-stop control of the generator, and monitoring of oil quantity, oil pressure, water temperature, rotating speed, battery voltage and the like in the running process.

3) The radar data processing and quality control module is used for analyzing and processing wind profile radar power spectrum data, generating and displaying wind profile radar basic product data, and uploading the power spectrum data, the product data, the radial data and the state file in real time; the radar data processing and quality control module comprises a spectral line level data processing mode and a profile line level data processing mode. The radar data processing and quality control module is used for acquiring power spectrum data and state monitoring file data of the wind profile radar, performing data processing and quality control on the power spectrum data and the state monitoring file data, and outputting radial data and real-time product data.

The radar data processing and quality control module realizes the display and alarm management of process states such as acquisition, verification, quality control processing and output, storage, uploading and the like of radar power spectrum data; displaying radar power spectrum data, radial data and product data, displaying time, results, flow state, abnormal information and the like related to the processing processes of acquisition, verification and quality control of radar data of different models, and displaying the completion time, data volume and content type of the output, storage and uploading processes of the radar data; performing threshold preset management on abnormal conditions, executing alarm flow operation on information of the occurrence of the excess alarm and the abnormal alarm, and recording the information into a historical alarm record table; and in addition, the radar power spectrum data, the radial data and the product data are displayed in an interface mode.

The radial data parameters comprise the sub-mode radial velocity, the spectral width and the signal-to-noise ratio; the product data parameters comprise sampling height horizontal wind speed, horizontal wind direction, vertical speed, horizontal speed reliability, vertical speed reliability and refractive index structure constant. The accuracy of horizontal wind speed is less than 1m/s, and the accuracy of horizontal wind direction is less than 10 degrees.

The wind profile radar data processing and quality control are divided into spectral line level data processing and quality control and profile level data processing and quality control. And spectral line level data processing and quality control, namely performing the operations of moving average, ground clutter suppression, intermittent clutter suppression, deblurring, precipitation detection, suppression and the like on the acquired wind profile radar power spectrum data, identifying an atmospheric signal, outputting identified radial data, and encoding a detection result in the data. Profile level data processing and quality control, namely, uniform consistency processing and inspection, median inspection and other operations are carried out on the identified radial data, profiles are synthesized according to geometric relations, time-space consistency inspection is carried out, profile data are output, and quality control marks are coded.

4) And the system background management module is used for managing user login and user authority, maintaining a management database, managing an alarm threshold and managing an alarm level.

The system realizes the execution range management of different identity users on the system operation by setting user information and authority, and the user identities are divided into three types: general users, administrators, and auditors. The ordinary user is the identity of the tourist who does not log in, can only check interface data, and cannot carry out any instruction operation and information modification; the administrator has all functional operation authorities, but in a part of operation (such as radar remote control operation) processes, the operation can be performed only by acquiring the batch and the knowledge of the auditor; the auditor has the highest operation right, and can not only inquire the operation traces of other users, but also need to make judgment and reply to the request instruction of the administrator in the partial functional state. The user management module can only be accessed by the identities of an administrator and an auditor, and management contents are shown in a table form and comprise user information, contact information, authority levels, login record traces and the like.

Login user and authority management. Having an administrator mode, the administrator having the highest authority; administrators can add, delete, and modify users, set user permissions, and the like. The user information comprises a user name, a contact mode, a permission level, an affiliated alarm level and the like.

A system configuration function; setting parameters and threshold values of all subsystems of the radar; the method has the functions of setting the parameter items and the threshold values of the radar accessory equipment, setting the parameter items and the threshold values of the radar operating environment and the like.

Maintaining and managing a database; all real-time monitoring data of the system need to be stored in a local database.

Managing an alarm threshold value; setting and modifying alarm threshold values of various parameters. Radar operating parameter settings may be defaulted.

And (4) setting a controller system. Setting function of relevant configurable parameters of the controller system; air conditioner type selection (precision air conditioner and common air conditioner) setting can be carried out; the number of air conditioners can be set; the air conditioner model can be set, and a corresponding communication protocol is selected; the UPS model can be set, and a corresponding communication protocol is selected. The sampling frequency of each type of sampled data can be set.

The controller system manages other management item online configuration functions as needed.

User management: supporting the inquiry of user information in the current system; supporting the addition, deletion and modification of user information; and batch deletion of user information is supported.

System configuration: supporting the query of a threshold value and an alarm level of the radar performance parameter; supporting the modification of the threshold range and the alarm level of the radar performance parameters; supporting to modify radar data quality control parameters; and supporting the modification of the threshold range and the alarm level of the environmental parameters.

The system can store alarm records, important accessory equipment, operation environment monitoring data, statistical data and operation records. The data should be able to store a calendar history data at least locally, and provide various flexible inquiry and statistical means to conveniently and rapidly inquire all the stored history data. And the operation history condition of the accessory equipment can be effectively mastered by radar crew, and the operation history condition can be used as basic data for judging the operation quality and stability of certain equipment.

6) And the radar complete machine performance evaluation module is used for outputting radar working state performance evaluation results according to the monitored key performance parameters and the alarm information, wherein the evaluation results comprise normality, maintenance and faults.

In this embodiment, the performance evaluation result of the radar operating state is represented in a score evaluation manner, that is, 100 is used as a total score, each subsystem (including a wind profile radar terminal, a system host, an alarm subsystem, a barcode scanning module, a switch module, an environment monitoring subsystem, a UPS module, a general air conditioner controller, a temperature and humidity sensor, and a video monitoring subsystem) is evaluated, health scores of the overall operation of the radar are obtained comprehensively, and maintenance, maintenance measures, and alarm measures to be taken in each score section are set.

And (3) giving a radar working state performance evaluation result (specifically, a health index algorithm and fault location) through various key performance parameters, alarm information and service regulations of various comprehensive detections, and giving a prompt: normal, need maintenance, trouble. And (3) normal: no alarm is given; maintenance is required: the data source is from a radar state data file; and (4) failure: the data source is from a radar status data file. When the radar is in fault, the fault group component for positioning is simply prompted (the alarm data source and the online performance analysis are used for positioning).

Alarm information management

The radar alarm information is collected and stored in real time, and the alarm grade and the upper limit and the lower limit of the alarm threshold can be set. The alarm grades are divided into general alarm, important alarm and serious alarm.

All alarm information configurations can be restored to default parameter configurations by one key.

Recording, storing and displaying detailed alarm information, including alarm source, alarm name, alarm analysis, first alarm time, latest alarm time and alarm level. Different alarm levels show different colors. The alarm source is a radar subsystem or a component. The following is an alarm information description table.

Item	Description of the invention
		Alarm source	Source of alarm information
Alarm name	Name of current alarm
		Alarm analysis	Analyzing possible reasons causing current alarm and positioning by combining known states
Time of first alarm	Alarm under the same name, time of first appearance
		Time of last alarm	Alarm under the same name, time of most recent occurrence
Alarm level	The alarm level is classified into general, important and serious

Sequencing and displaying according to the alarm level, the alarm source, the alarm time and the like; the inquiry display can be carried out according to an antenna system, a transmitting system, a receiver system, a signal processing system and other subsystems; each display content can be displayed in sequence according to the alarm level, the alarm source, the alarm time and the like.

And carrying out statistical analysis on the alarm information and giving an alarm prompt for serious alarm.

All data within the current view may be exported.

The extension of the wind profile radar terminal comprises a transmitter, a receiver, an antenna/wave control and signal processing. Dynamically displaying whether the transmission of data/signals between the extension sets is normal or not (the data/signals are distinguished to be normal or abnormal by colors and animations in a segmentation way); the fault extension is distinguished from the normal extension by color. Each extension can click to view detailed status information. Each item of display content can be clicked to view the detailed information.

TR component

1) Counting the time of continuous operation and no fault of the TR component;

2) displaying all performance parameters (transmitting power, standing wave ratio, temperature, XY switch, TR switch, high level, communication and power supply) of the TR component, wherein each performance parameter supports viewing historical change conditions, and graph and data can be exported to excel at the same time;

3) and displaying a TR component running state calendar table, counting the running conditions of the system every 6 minutes, and showing normal, fault and available states by using different colors.

Transmitter subsystem

1) Counting the time of continuous operation and no fault of a subsystem of a transmitter;

2) key performance parameters of a subsystem of a transmitter are displayed in a key mode;

3) displaying all performance parameters of the transmitter subsystem: push stages (input power, output power, power supply, TR high level, TR low level, duty cycle, temperature, communication), TR input power, TR output power, standing waves, temperature, power supply, and each performance parameter supports viewing historical change conditions, and graphs and data can be exported to excel at the same time;

4) and displaying a calendar of the running state of the subsystem of the transmitter, counting the running condition of the subsystem every 6 minutes, and showing the states of normal, fault, available and the like by using different colors.

Receiver subsystem

1) Counting the time of continuous operation and no fault of a subsystem of the receiver;

2) displaying all performance parameters (receiving component power supply voltage, transmitting component (driving component), frequency integrated modulation component, local oscillator component, crystal oscillator component, frequency integrated power supply voltage, excitation sampling, digital intermediate frequency internal direct current power supply and digital intermediate frequency internal A/D sampling clock) of a receiver subsystem, wherein each performance parameter supports viewing of historical change conditions, and graph and data can be exported to excel at the same time;

3) and displaying a calendar of the operation state of the subsystem of the receiver, counting the operation condition of the subsystem every 6 minutes, and displaying the states of normal, fault, available and the like by using different colors.

The operating environment of the wind profile radar terminal comprises a power supply state (power supply source and battery power), the temperature and humidity of a machine room and the temperature of a transmitter. The temperature and humidity of the current machine room, the temperature of the transmitter, the working state of an air conditioner, the state of a generator and the working state of a UPS can be displayed in real time.

The working state of the common air conditioner comprises on and off; the precise air conditioner comprises the steps of reading an operation state, reading an operation parameter, controlling the operation state, setting the operation parameter and the like.

The UPS working state comprises a UPS power supply source, a UPS input voltage/current state, a UPS output voltage/current state and a UPS battery capacity.

The power supply source refers to commercial power or a UPS battery; the input voltage/current state of the UPS or the output voltage/current state of the UPS is normal/abnormal, wherein the normal range of the voltage is (220 v-10%, 220v + 15%); the normal range of current is (set to be more modifiable, depending on the model); otherwise, it is abnormal. The battery power shows, and battery power shows 100% when the commercial power supplies power, shows according to actual measurement when UPS battery supplies power, and the battery power is less than 20% (can set up) and reminds. And updating the data in real time.

The temperature and humidity display comprises temperature information of a machine room and a transmitter, and data is updated for 1 time every 6 minutes. The temperature of the machine room exceeds 30 ℃ and the humidity exceeds 80%, and a flashing alarm is carried out; and when the temperature of the transmitter exceeds 85 ℃, the transmitter carries out flashing alarm. Each display item can be clicked to view detailed information.

7) And the business process monitoring module is used for acquiring noise coefficient calibration, radial speed calibration, system sensitivity, dynamic range calibration, transceiving multichannel amplitude-phase calibration, transmitting power and system coherence calibration which are transmitted by the wind profile radar terminal.

And distinguishing whether the display station completes the calibration task according to the service regulation. If the business activities are not performed according to the requirements, text prompts need to be given, and the judgment standard is shown in wind profile radar observation regulations (trial). Clicking the 'details' to enter the 'business process' page, pushing a data source in the business process module by a radar, and counting the completion times by the completion rate. And (4) counting the maintenance data of the T month in the T +1 month. All the contents can be clicked to view the detailed information.

The radar operation maintenance business process is filled and submitted in a mode of annual maintenance and annual inspection templates, the submitted result can be subjected to functions of statistical query, deletion, modification, screening, downloading and the like in a mode of Excel lists, and task reminding rules and alarm information are set. The thunder standard-reaching rule automatically detects and judges whether to carry out a business process according to the trace file, whether to do the business process for 12 times in a year, and the like.

And displaying real-time processing products of the wind field, including a power spectrum, a horizontal wind direction and wind speed, a vertical speed, a spectrum width, a signal-to-noise ratio and CN 2. The power spectrum is displayed in a spectral line form, the horizontal wind direction and wind speed are displayed in a wind plume form, and the vertical speed \ spectral width \ signal-to-noise ratio \ CN2 is displayed in a color spot or curve form. The data sources are from power spectrum files and quality control product files.

The business process page displays business process (noise coefficient calibration, radial velocity calibration, system sensitivity, dynamic range calibration, transmit-receive multi-channel amplitude-phase calibration, transmit power, system coherence calibration) records.

And displaying the completion rate of the business process, whether the business process is abnormal or not according to the last time and the completion condition, and reminding the next time, wherein the reminding time can be a month.

The business process detail records are displayed in a time arrangement mode. The administrator may delete redo to the current process record. Note that: it is possible that the 7 business processes are not performed at the same time.

The annual business process is statistically counted as 7 processes, displayed by a histogram according to the month, and the height of the histogram is the business times.

The curve analysis chart should show the stability analysis of the business process recorded data (only the analysis is carried out aiming at the index). The curve analysis needs to indicate the upper and lower limit ranges of the parameters, and key data (stability, overrun point, dynamic range inflection point, etc.) are displayed in the graph, and the data can be exported.

And (4) calibrating and displaying a time-varying curve of the noise coefficient data, and marking out an over-limit point.

Radial velocity calibration displays the time-dependent curve of the radial velocity data and marks the limit point.

The system sensitivity displays the time variation curve of the system sensitivity data and marks the limit exceeding point.

The transmit power shows the transmit power data versus time and the over-limit point is marked.

The system coherence displays a plot of system coherence data over time and marks out the points of excess.

The dynamic curve graph shows a dynamic range value, a slope, and indicates an upper inflection point and a lower inflection point.

And calibrating and displaying the amplitude-phase maximum difference value among the channels by the amplitude-phase calibration of the receiving and transmitting channels.

The system coherence scale displays the phase maximum.

The business process records need to cover all items of monthly maintenance, annual inspection/annual calibration, and the specific items are as follows.

Monthly maintenance: 12 times a year (11 months of maintenance +1 year of maintenance).

Monthly maintenance calibration item (item 8): receiver dynamic range calibration, sensitivity calibration, radial velocity calibration, noise coefficient calibration, transmitter power calibration, system coherence calibration, receive amplitude calibration and transmit amplitude calibration

The data source is as follows: the results of receiver dynamic range calibration, sensitivity calibration, radial velocity calibration, noise coefficient calibration, transmitter power calibration, system coherence calibration, receive amplitude calibration and transmit amplitude calibration are from calibration files (plus file name) of radar auto-calibration.

Annual maintenance project: 1 time per year (1 year maintenance).

Annual maintenance project (item 10): the method comprises the following steps of calibration of transmitted pulse width, calibration of transmitted pulse peak power, measurement of dynamic range of an internal/external receiving system, measurement of noise coefficient of the internal/external receiving system, calibration of system coherence, calibration of radial velocity (namely radial wind velocity), calibration of received amplitude and calibration of transmitted amplitude.

The data source is as follows: (receiver dynamic range calibration, sensitivity calibration, wind speed calibration, noise coefficient calibration, transmitter power calibration, system coherence calibration, reception amplitude calibration and transmission amplitude calibration) are recording files pushed by a radar system; and the other items are subject to radar station report.

The business process mainly comprises noise coefficient calibration, radial speed calibration, system sensitivity, dynamic range calibration, transceiving multichannel amplitude-phase calibration, transmitting power and system coherence calibration record;

the business process needs to provide the following functions:

counting the completion conditions of the business process of a certain year, including the completion times and the completion quality;

counting the last completion condition, the current completion condition and the next predicted completion time of the business process in real time;

the completion condition of each business process can be quickly checked, and a historical change curve, support data and a chart are drawn and simultaneously exported to the excel.

8) And the radar remote control module is used for controlling the whole radar, the power on-off, the working mode, the communication continuous inspection and the log recording.

Setting a function operation menu and buttons of remote control according to the content of a radar remote control protocol, carrying out information flow display, displaying the change and indication of a control state in real time, fixedly displaying the whole machine operation condition and the key index change condition of the radar on the front part of an interface, displaying a historical operation record condition query entry of the remote control on an obvious position of the interface, wherein the recorded information comprises an operator, operation time, duration and the like.

Important information is preserved in the radar operation maintenance and maintenance process, the man-machine interaction function is achieved, meanwhile, a bar code scanning module (a bar code scanning gun is preferably adopted in the embodiment) is used for replacing corresponding devices for recording, the devices are displayed on a unified interface, paperless maintenance operation is achieved, maintenance contents can be set into options of a flow chart or a list window, actual operation is facilitated, recorded contents and results can be subjected to statistical analysis and display, structured data are formed and enter a maintenance record data form, and the form also supports operations such as query, screening and data export. The record of device replacement is automatically entered by scanning a code through an external code scanning gun, the system supports modification of entered data, information addition and labeling of labels, and the record table is used as a content branch of the maintenance record table.

The default of the radar remote control authority is 30 minutes (which can be modified) and effective, and if no user control operation is carried out within 30 minutes, the radar controller automatically closes the radar control authority.

The system can remotely apply for authorization from the main station. After the authorization is obtained, all states (reset and on-off control states of a main control computer) of the radar can be obtained through the remote control (radar power-on-off control and radar software system on-off control) of the local area network. The software system is developed based on a B/S framework and mainly comprises a Web front end and a service back end, a Linux system is adopted as a server, and a MySQL database is mainly adopted as a database. The Web front end mainly realizes the display of the data processing result of the application layer, the setting of relevant condition constraints and the human-computer interaction process of the functional instruction. The service back end mainly processes data automatically detected, collected, stored, processed and analyzed by all systems, simultaneously responds to data return of a Web front end user operation request, and performs data exchange, instruction issuing and the like to the outside through a data interface.

When the system applies for authorization, the results of the initiating action, the action response and the action response are displayed. And the application can be reinitiated after the application authorization fails.

The system has feedback of the information of the execution condition of each important link in the instruction execution process, for example, the feedback display is carried out when the radar is operated, and the instruction execution result is displayed.

In the remote control interface, the operation instruction state needs to be fed back and displayed in the execution process (request start, in progress) and the execution result (success and failure).

9) The auxiliary equipment remote control module is used for controlling an air conditioner, a generator, a video monitoring subsystem and a UPS; the on-line real-time display of the state of the auxiliary equipment can be realized, and the working mode, the temperature and the on-off of the air conditioner of the machine room are controlled; the generator and the video monitoring have remote opening and closing operations; displaying a video monitoring picture in real time; supporting the control of a holder; supporting video playback; supporting video real-time picture screenshot and return visit picture screenshot; and supporting the setting of the preset point.

10) And the online monitoring point monitoring module is used for displaying and recording radar online monitoring point information in a classified manner.

Displaying and recording radar online monitoring point information in a classified manner, wherein the information comprises monitoring items, data and indexes;

sorting, searching, self-defining time period history query and comprehensive analysis can be carried out according to the categories of time, subsystems, availability, faults, normality and the like; multiple conditions may also be selected for a joint search query. Displaying the comprehensive analysis result;

the on-line monitoring point alarm information can be associated with other related alarm pages and analysis result pages.

The processing process of each data in the system host is realized by the corresponding module component, and the corresponding module component also needs to rely on the following functions when realizing the processing process of each data, and specifically comprises the following steps:

1) system host database creation, operation and management

According to the format and content of data transmitted by each interface, a system host needs to create a special database to manage different types of data, and meanwhile, newly generated data and user operation data need to be recorded and maintained, and the system host is used as a core part of a background service system, requires that the database has the characteristics of high quality, high efficiency and low power consumption in reading and storing, and has high safety and stability design.

2) Data interface management

The system realizes data communication and information exchange between internal extension sets (an environment monitoring subsystem, an alarm subsystem and a video monitoring subsystem) and a system host and between external equipment (a UPS, an air conditioner and a temperature and humidity sensor) and a switch module through data interfaces, and an independent management program and a data flow specification need to be established for each data interface so as to ensure normal circulation of system data. The following table shows the external interface conditions of the wind profile radar standard output controller system. (as shown in FIG. 2)

3) Host application operation and management

The background system provides environment and configuration basis for the operation of the main application program, and in the program management of the server, the main application program is a hub connecting the front end of each molecular system and a system database and is also a main entrance for processing user operation information, so that the main application program needs extremely high operation stability and has the functions of management and restoration.

4) Automatic data acquisition, verification, processing, storage and transmission process control and management

In cooperation with a data interface, the system needs to realize automatic acquisition, verification, processing, storage and transmission processes of external radar and environmental data, and perform front-end feedback and prompt on abnormal states, and in the process, a program needs to track and manage the acquired effectiveness, the data verification result, the data processing mode and result, and the storage and uploading paths.

5) Front-end operation request feedback and trace record management

The back-end system program can timely feed back the request command operated by the Web user, and store and record the operation trace.

6) Front-end functional module product and algorithm program management thereof

The front-end functional module comprises radar comprehensive analysis, radar configuration management, environment monitoring and analysis, video monitoring, an alarm system and product, a service process product, accessory equipment, radar remote control, an operation maintenance product, a user management module and the like, realizes respective service flows through specific programs and logic algorithms, and is uniformly deployed on a back-end server in a modular application program form.

7) System operation stability and safety design and related operation management

The system stability needs to be designed integrally from the aspects of program operation stability, data transmission stability, program operation and interaction stability, hardware system stability and the like, and meanwhile, the requirements of the system on network security, system security and operating environment security are considered, and the reliability and the maintainability of the integral operation of the system need to be ensured to be at a higher level.

The environment monitoring subsystem is connected between the switch modules through RJ45 network interfaces.

The video monitoring subsystem comprises a video processing extension, a video server, a cylinder type camera and/or a pan-tilt-type high-definition camera, wherein the cylinder type camera and/or the pan-tilt-type high-definition camera are connected with the video server; the video server is connected with the video processing extension set; the cylinder type camera and/or the pan-tilt-zoom type high-definition camera are used for collecting videos of the radar machine room and the outdoor antenna environment.

The video monitoring subsystem may implement functions including: displaying online operation with a barrel camera and/or a pan-tilt-zoom high-definition camera; controlling the action of the barrel type camera and/or the pan-tilt-type high-definition camera; actions of a barrel type camera and/or a tripod head type high-definition camera and video monitoring real-time pictures are uniformly attributed to a video operation interface; the video setting content comprises the actions of a cloud deck/camera head, the selection of shooting image quality, the checking of a storage path, the selection of screenshot frequency, the setting of a downloading format and the like.

The alarm subsystem comprises an alarm signal lamp belt and a GSM short message alarm; the alarm signal lamp belt and the GSM short message alarm are respectively connected with the system host; the alarm signal lamp belt is used for sending out fault alarm and/or over-value alarm through optical signals; the GSM short message alarm is used for sending fault alarm and/or over-value alarm to related workers through short messages.

The alarm subsystem is provided with an alarm program in the system, and sends an alarm signal when a fault or an over-value alarm occurs in the operation process of the system so as to remind local radar operators on duty to pay attention to the fault information condition, thereby facilitating the timely processing of the operators. The alarm signal informs the related responsible person in a short message mode, supervises and contacts the person on duty in time for processing. The alarm subsystem carries out presetting and classification on radar operation fault information, the radar operation fault information is uniformly allocated and used by a background fault database, when a radar fault occurs, specific fault results and occurrence positions can be displayed, meanwhile, according to the specific fault results and the occurrence positions, diagnostic results and suggestions and schemes for reference checking and processing are provided, meanwhile, fault information executes an alarm issuing process according to preset importance levels and synchronously enters a historical alarm record and a statistical table, and the statistical table also supports operations of inquiry, screening, sorting, data export and the like.

On one hand, the short message alarm needs to be arranged in alarm setting to trigger operation according to whether the short message synchronous alarm is needed, on the other hand, the short message alarm is subjected to detailed setting operation, and the setting content comprises: the method comprises the steps of group sending personnel setting, alarm content format setting, alarm reply setting and the like, wherein the records of the short message alarm are also stored and displayed in a data table form, and the operations of data query, screening, export and the like are supported.

A. Alarm rating

Emergency warning: alarms that may have or will soon jeopardize equipment and communication security, are handled immediately.

General warning: and (4) information for prompting radar maintenance personnel.

B. Basic function

The system automatically detects and reports various alarm information of the monitored equipment, and the alarm accuracy rate is 100%; the alarms can be recorded in the database accurately, and the alarm records comprise alarm equipment, alarm trigger events (starting time), alarm confirmation time, alarm confirmation persons, alarm elimination time, alarm description generation and the like.

The alarm is divided into two levels, and different types of alarms are distinguished in aspects of light, color, alarm sound/voice and the like.

The system has the function of concurrent alarm of multiple places and multiple events, and alarm information should not be lost and false alarm should not occur.

When the emergency alarm happens, the system can automatically dial through the public telephone network or send alarm information to related personnel through short messages; and after the fault is confirmed, the acousto-optic alarm is automatically released. The short message coding format is self-made by each place according to the actual situation, and the requirements are clear, clear and unambiguous.

C. Alarm validation and handling

After the alarm occurs, the monitoring center operator confirms, after the confirmation, the system should turn off the alarm sound, stop the light flicker, automatically record the confirmation time and the confirmation person in the alarm window, and enable the relevant persons to input the text information. The alarm is not confirmed by related personnel to turn off the acousto-optic alarm.

D. Alarm pushing and configuration

And automatically pushing related personnel according to the filtering condition. The filtering condition setting is completed according to the importance level of the alarm information, the user identity (common user, administrator, auditor), the duty arrangement, the push frequency setting and the like.

The same alarm information does not repeat the alarm until unresolved.

E. Self-diagnosis and fault location

The system has automatic diagnosis and alarm functions for self faults and can intuitively display fault equipment and positions.

The application layer protocol involved in this implementation includes a remote control protocol, a file transfer protocol, and an external device protocol, and specifically includes the following:

1) remote control protocol

The radar control uses a UDP network message mode, the communication process uses a response mode, the WPRSOC software sends a UDP message to the radar control interface, the radar control interface responds to the WPRSOC message in real time, the response message contains all state information as shown in the following table, and the specific content and the control requirement are shown in an attachment 1. And the radar control interface automatically closes the remote control authority if the WPRSOC control command is not received within 10 minutes. The following table is a radar remote control project requirements table.

2) File transfer protocol

The online monitoring and analysis of radar configuration parameters and operation states are realized between the WPRSOC system and the wind profile radar terminal data through file transmission, and monitoring and exception prompting are carried out on paths such as normal transmission, storage and uploading of radar data, and the following table is a file transmission protocol demand table.

3.2.3 external device protocol

The WPRSOC system establishes a communication relation through a standard RJ45 network interface, acquires state information of an external device instrument according to a corresponding protocol, and can realize remote control and parameter setting of the device through the protocol. The following table is the protocol requirements table of the external device.

System operating environment requirements

The environment requirements for the software operation include:

1) computer hardware requirements.

2) Computer software requirements.

3) Computer communication requirements.

The system host hardware requirement, the following table is the computer hardware requirement configuration table.

Computer software requirements

Reference configurations for computer software systems required to run the present system are shown in the following table. The following table is a configuration of the computer software system required to run the present software.

Computer communication requirements

The computer communication requirements for operating the system are shown in the table. The following table is the computer communication requirements required to run the software

Transport layer and network layer	Using UDP protocol, FTP protocol (product data upload)
		Application layer	Using the HTTP protocol
Network protocol	TCP/IP

Constraints on design and construction

The design and construction should be made in accordance with the relevant provisions of the general development, implementing various management and control measures.

The system and software design should follow the basic principles of first quality, modularization, generalization and serialization and meet the system integration requirement.

The system and software should be adaptable to the performance characteristics of the computer.

As shown in fig. 3, be the utility model discloses a business structure chart, the utility model discloses a BS' S structure, integrated database storage and management, radar product generation and quality control, user management, system configuration, log inquiry, radar performance, the service process, adaptation parameter inquiry, video monitoring, the device is changed, the auxiliary assembly control, report an emergency and ask for help or increased vigilance the inquiry, radar control, function in an organic whole such as environmental monitoring to find the reason that influences radar steady operation, and performance variation, with satisfying unmanned on duty radar operation requirement, reach the purpose that improves product data quality.

The wind profile radar standard output controller provided by the present application is introduced in detail above, and a specific example is applied in the present application to explain the principle and the implementation of the present application, and the description of the above embodiment is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. A wind profile radar standard output controller system, comprising: the system comprises a wind profile radar terminal, a system host, an alarm subsystem, a bar code scanning module, a switch module, an environment monitoring subsystem, a UPS module, a common air conditioner controller, a temperature and humidity sensor and a video monitoring subsystem;

the UPS module, the common air conditioner controller, the temperature and humidity sensor and the video monitoring subsystem are respectively connected with the environment monitoring subsystem; the UPS module is used for collecting UPS state data and sending the UPS state data to the environment monitoring subsystem; the common air conditioner controller is used for collecting air conditioner state data and sending the air conditioner state data to the environment monitoring subsystem; the temperature and humidity sensor is used for collecting temperature and humidity data of a machine room and sending the temperature and humidity data of the machine room to the environment monitoring subsystem; the video monitoring subsystem is used for acquiring monitoring data in a machine room and monitoring data outside the machine room and sending the monitoring data in the machine room and the monitoring data outside the machine room to the environment monitoring subsystem; the environment monitoring subsystem is used for receiving the UPS state data, the air conditioner state data, the machine room temperature and humidity data, the machine room internal monitoring data and the machine room external monitoring data;

the environment monitoring subsystem, the switch module and the system host are sequentially connected; the environment monitoring subsystem is used for sending the UPS state data, the air conditioner state data, the machine room temperature and humidity data, the machine room internal monitoring data and the machine room external monitoring data to the system host through the switch module;

2. The wind profile radar standard output controller system of claim 1, wherein said environmental monitoring subsystem is connected between said switch modules via an RJ45 network interface.

3. The wind profile radar standard output controller system according to claim 1, wherein said video surveillance subsystem comprises a video processing extension, a video server, a drum camera and/or a pan-tilt high definition camera, said drum camera and/or said pan-tilt high definition camera being connected to said video server; the video server is connected with the video processing extension set; the cylinder type camera and/or the pan-tilt-zoom type high-definition camera are used for collecting videos of the radar machine room and the outdoor antenna environment.

4. The wind profile radar standard output controller system of claim 1, wherein the alarm subsystem comprises an alarm signal light strip and a GSM short message alarm; the alarm signal lamp belt and the GSM short message alarm are respectively connected with the system host; the alarm signal lamp belt is used for sending out fault alarm and/or over-value alarm through optical signals; the GSM short message alarm is used for sending fault alarm and/or over-value alarm to related workers through short messages.

5. The wind profile radar standard output controller system of claim 1, wherein the system mainframe comprises:

6. The wind profile radar standard output controller system of claim 5, wherein the radar online performance monitoring module comprises:

7. The wind profile radar standard output controller system of claim 6, wherein the radar key technical parameter online monitoring and analysis module comprises: the device comprises a transmission peak power stability analysis module, a standing-wave ratio stability analysis module, a push-level input and output power stability analysis module and a system noise coefficient stability analysis module.

8. The wind profile radar standard output controller system of claim 5, wherein the environmental monitoring module comprises: the system comprises a machine room temperature and humidity monitoring module, a transmitter temperature and humidity monitoring module, an air conditioner running state monitoring module, a UPS running parameter monitoring module, a generator state monitoring module, a commercial power monitoring module and a machine room video monitoring module;

the temperature and humidity monitoring module of the machine room and the temperature and humidity monitoring module of the transmitter are connected with the temperature and humidity sensor; the air conditioner running state monitoring module is connected with the common air conditioner controller; the UPS operation parameter monitoring module is connected with the UPS module; the machine room video monitoring module is connected with the video monitoring subsystem.

9. The wind profile radar standard output controller system according to claim 5, wherein the radar data processing and quality control module comprises two data processing modes, namely a spectral line level and a profile line level.

10. A wind profile radar standard output controller system according to claim 1 or 5, wherein said system host comprises:

the radar whole machine performance evaluation module is used for outputting radar working state performance evaluation results according to the monitored key performance parameters and the alarm information, wherein the evaluation results comprise normal performance, maintenance required performance and faults;