CN112559584A - Remote acquisition and regulation system based on detection and monitoring signal samples - Google Patents
Remote acquisition and regulation system based on detection and monitoring signal samples Download PDFInfo
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Abstract
A remote acquisition and regulation system based on detection and monitoring signal samples comprises a platform service monitoring server, a remote monitoring signal sample acquisition device and a key equipment operation monitoring device, wherein the platform service monitoring server is used for analyzing the trend of platform services; the remote monitoring signal sample acquisition device comprises water quality monitoring equipment and photovoltaic power station data monitoring, wherein the water quality monitoring equipment is used for carrying out remote detection monitoring service on regional water quality, the water quality monitoring equipment is in butt joint with an interface provided by a platform through a network, the photovoltaic power station data monitoring is used for carrying out remote monitoring service on the regional photovoltaic power station, and the photovoltaic power station data monitoring is in butt joint with the interface provided by the platform through the network; the key equipment operation monitoring device is used for carrying out remote monitoring service on the key equipment water pump and is in butt joint with an interface provided by a platform through a network. The invention has the advantages that: the one-stop detection and monitoring cooperation is realized, and the functions of detecting and monitoring big data analysis and the like are realized.
Description
Technical Field
The invention relates to a remote acquisition and regulation system based on detection and monitoring signal samples.
Background
Environmental protection has been increasingly emphasized by the nation, and China has put the environmental protection column into a basic national policy to strongly grasp the environmental quality. The monitoring industry in the environmental protection subdivision field is also valued by government departments at all levels.
Disclosure of Invention
In view of the above, the present invention provides a remote acquisition and control system based on detecting and monitoring signal samples, so as to solve at least one of the problems of the prior art.
The technical scheme adopted for realizing the purpose of the invention is that the remote acquisition and regulation system based on the detection and monitoring signal samples comprises a platform service monitoring server, a remote monitoring signal sample acquisition device and a key equipment operation monitoring device, wherein the platform service monitoring server is used for platform service trend analysis, platform data visualization of service trend analysis is completed, a data model and an algorithm model are managed, a service function and big data intelligent analysis advanced application module is provided, a big data volume concurrent computation task is executed, and the service function and advanced application module comprises monitoring data management and display, operation state analysis, big data intelligent analysis application and statistical report forms and alarm information push; the remote monitoring signal sample acquisition device is used for establishing equipment monitoring, remote signal sample acquisition is carried out by adopting the Internet of things, remote data management monitoring is realized through a network, the remote monitoring signal sample acquisition device comprises water quality monitoring equipment and photovoltaic power station data monitoring, the water quality monitoring equipment is used for carrying out remote detection monitoring service on regional water quality, the water quality monitoring equipment is butted with an interface provided by a platform through the network and is displayed in the form of river water quality thermodynamic diagrams, the color tends to red to represent that the water quality has risk problems, the photovoltaic power station data monitoring is used for carrying out remote monitoring service on the regional photovoltaic power station, the photovoltaic power station data monitoring is butted with the interface provided by the platform through the network, and an analysis result is obtained by calculation according to the data; the key equipment operation monitoring device is used for carrying out remote monitoring service on a key equipment water pump, is in butt joint with an interface provided by a platform through a network, and calculates according to data to give an analysis result.
Further, the platform service monitoring server selects platform service monitoring to open a monitoring page by clicking data visualization in the background management menu, wherein the monitoring page comprises a water quality monitoring page, a photovoltaic power station detection page and a key equipment monitoring page, and data collected by the water quality monitoring equipment, the photovoltaic power station data monitoring device and the key equipment operation monitoring device are respectively displayed.
Further, the network comprises a wireless network and a wired network, and is used for realizing wireless and wired connection of the platform interfaces and displaying the received data to the monitoring page.
Further, the water quality monitoring device comprises a water quality data detection module, a water quality position acquisition module, a water quality data processing module and a water quality communication module, wherein the water quality data detection module, the water quality position acquisition module and the water quality communication module are respectively connected with the water quality data processing module, the water quality data detection module is used for detecting the water quality information of a water source to be monitored, the water quality position acquisition module is used for acquiring the position information of the water quality monitoring device, the water quality data processing module is used for receiving the position information acquired by the water quality position acquisition module and the water quality information of the water source to be monitored transmitted by the water quality data detection module in real time, analyzing the water quality information of the water source to be monitored to obtain the current water quality index data, the water quality communication module is butted with an interface provided by a platform through a network, and transmits the current water quality, and the platform service monitoring server correspondingly stores the current water quality index data and the geographical position information, performs trend statistical analysis by using the water quality index data corresponding to the geographical position information and the historical water quality index data, obtains an analysis result and displays the analysis result on a water quality monitoring page.
Furthermore, the water quality position acquisition module is a GPS receiver and can transmit positioning data in real time.
Further, the photovoltaic power station data monitoring comprises a photovoltaic power station data detection module, a photovoltaic power station data processing module and a photovoltaic power station communication module, wherein the photovoltaic power station data detection module and the photovoltaic power station communication module are respectively connected with the photovoltaic power station data processing module, the photovoltaic power station data detection module is used for detecting the working parameters of the photovoltaic power station at preset time intervals, the photovoltaic power station data processing module is used for classifying and storing the data detected by the photovoltaic power station data detection module in a grading way, and filtering the normal data, sending a message notice to the abnormal data, butting the photovoltaic power station communication module with an interface provided by the platform through a network, sending the message notice output by the data processing module to the platform service monitoring server, comparing the data of the plurality of devices by the platform service monitoring server, finding out the devices with abnormal work, and displaying the devices to a photovoltaic power station detection page.
Further, the key equipment operation monitoring device comprises a water pump data detection module, a water pump data processing module and a water pump communication module, wherein the water pump data detection module and the water pump communication module are respectively connected with the water pump data processing module, the water pump data detection module is used for detecting working parameters of a water pump at preset intervals, the water pump data processing module is used for classifying and storing data detected by the water pump data detection module in a grading manner, normal data are filtered, abnormal data are sent out to be informed, the water pump communication module is in butt joint with an interface provided by a platform through a network, the information informed output by the data processing module is sent to the platform business monitoring server, the platform business monitoring server compares data of a plurality of equipment, abnormal equipment is found out, and a key equipment monitoring page is displayed.
Further, the method for monitoring the remote acquisition and regulation system based on the detection and monitoring signal sample comprises the following steps:
(1) completing parameter setting of a platform service monitoring server, a remote monitoring signal sample acquisition device and a key equipment operation monitoring device; the parameters set by the remote monitoring signal sample acquisition device and the key equipment operation monitoring device comprise detection frequency and a data uploading strategy; the platform service monitoring server configuration parameters comprise a state parameter early warning threshold value and a model data set;
(2) the remote monitoring signal sample acquisition device and the key equipment operation monitoring device complete data detection according to the detection frequency, and data are uploaded to the platform service monitoring server based on a data uploading strategy;
(3) the platform service monitoring server carries out big data analysis by relying on calculation models based on machine learning, deep learning, neural network and the like according to the received information and combining an equipment historical information curve and the same type of equipment information, and predicts the equipment state change trend; on the basis of fusing data model information, equipment defect information and a fault case sample data set, establishing association rules between a plurality of equipment states and defects based on intelligent analysis technologies such as equipment state big data analysis and the like, generating accurate equipment state warning information, equipment defect diagnosis analysis reports and processing strategy information, and actively pushing and displaying the information.
The invention has the beneficial effects that: the system is used for remote detection and monitoring, and mainly is an application of a one-stop detection and monitoring service cooperation platform to detection services, realizes one-stop detection and monitoring cooperation, realizes functions of big data analysis and the like of detection and monitoring, forms a detection and monitoring data safety control mechanism with reliable, searchable and traceable data safety, and forms a technical support system for quality improvement and production safety control services.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a system block diagram of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly described below with reference to the accompanying drawings in the embodiments of the present invention.
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.
In fig. 1, in order to achieve the object of the present invention, a remote acquisition and control system based on detection and monitoring signal samples includes a platform service monitoring server, a remote monitoring signal sample acquisition device and a key device operation monitoring device, where the platform service monitoring server is used for platform service trend analysis, platform data visualization for service trend analysis, data model management, algorithm model management, a service function and big data intelligent analysis advanced application module, and executing big data volume concurrent computation task, and the service function and advanced application module includes monitoring data management and display, operation state analysis, big data intelligent analysis application and statistical report, and alarm information push; the remote monitoring signal sample acquisition device is used for establishing equipment monitoring, remote signal sample acquisition is carried out by adopting the Internet of things, remote data management monitoring is realized through a network, the remote monitoring signal sample acquisition device comprises water quality monitoring equipment and photovoltaic power station data monitoring, the water quality monitoring equipment is used for carrying out remote detection monitoring service on regional water quality, the water quality monitoring equipment is butted with an interface provided by a platform through the network and is displayed in a river water quality thermodynamic diagram mode, the color tends to red to represent that the water quality has risk problems, the photovoltaic power station data monitoring is used for carrying out remote monitoring service on the regional photovoltaic power station, the photovoltaic power station data monitoring is butted with the interface provided by the platform through the network, and an analysis result is obtained by calculation according to the data; the key equipment operation monitoring device is used for carrying out remote monitoring service on a key equipment water pump, is in butt joint with an interface provided by a platform through a network, and calculates according to data to give an analysis result.
In this embodiment, the platform service monitoring server selects the platform service monitoring to open a monitoring page by clicking data visualization in the background management menu, where the monitoring page includes a water quality monitoring page, a photovoltaic power station detection page, and a key device monitoring page, and displays data collected by the water quality monitoring device, the photovoltaic power station data monitoring device, and the key device operation monitoring device, respectively.
In this embodiment, the network includes a wireless network and a wired network, and is used to implement wireless and wired connection with the platform interface, and display the received data on the monitoring page.
In the embodiment, the water quality monitoring device comprises a water quality data detection module, a water quality position acquisition module, a water quality data processing module and a water quality communication module, wherein the water quality data detection module, the water quality position acquisition module and the water quality communication module are respectively connected with the water quality data processing module, the water quality data detection module is used for detecting the water quality information of a water source to be monitored, the water quality position acquisition module is used for acquiring the position information of the water quality monitoring device, the water quality data processing module is used for receiving the position information acquired by the water quality position acquisition module and the water quality information of the water source to be monitored transmitted by the water quality data detection module in real time, analyzing the water quality information of the water source to be monitored to obtain the current water quality index data, the water quality communication module is butted with an interface provided by a platform through a network, and transmits the, and the platform service monitoring server correspondingly stores the current water quality index data and the geographical position information, performs trend statistical analysis by using the water quality index data corresponding to the geographical position information and the historical water quality index data, obtains an analysis result and displays the analysis result on a water quality monitoring page.
In this embodiment, the water quality monitoring device may detect the water quality information of the water source to be monitored, analyze the water quality information of the water source to be monitored to obtain the water quality index data, and further obtain the geographical location information of the water quality monitoring device, so as to send the water quality index data and the geographical location information to the platform service monitoring server, and the platform service monitoring server may analyze the water quality index data corresponding to the geographical location information, so as to obtain the relevant information of the water quality at the geographical location information. Therefore, the water quality monitoring method provided by the invention not only can automatically acquire the current water quality index data of the water source to be monitored in real time, but also can analyze the water source to be monitored by combining the current water quality index data and the historical index data of the water source to be monitored, thereby more comprehensively acquiring the water quality condition.
In this embodiment, the water quality position acquisition module is a GPS receiver, and can transmit positioning data in real time.
In the embodiment, the photovoltaic power station data monitoring comprises a photovoltaic power station data detection module, a photovoltaic power station data processing module and a photovoltaic power station communication module, wherein the photovoltaic power station data detection module and the photovoltaic power station communication module are respectively connected with the photovoltaic power station data processing module, the photovoltaic power station data detection module is used for detecting the working parameters of the photovoltaic power station at preset time intervals, the photovoltaic power station data processing module is used for classifying and storing the data detected by the photovoltaic power station data detection module in a grading way, and filtering the normal data, sending a message notice to the abnormal data, butting the photovoltaic power station communication module with an interface provided by the platform through a network, sending the message notice output by the data processing module to the platform service monitoring server, comparing the data of the plurality of devices by the platform service monitoring server, finding out the devices with abnormal work, and displaying the devices to a photovoltaic power station detection page.
In this embodiment, photovoltaic power plant data detection module can carry out unified collection to the photovoltaic power generation supply unit, strapping table, straight, the exchange cabinet of different manufacturers, different types, different models and other power equipment's data, realizes the complete, unified real-time supervision and control to photovoltaic power plant, the operational aspect of statistics each equipment. The method mainly monitors the overall operation condition of the photovoltaic power station, such as the operation condition of each device, data with high attention degree, overall alarm information and the like.
In this embodiment, the key device operation monitoring apparatus includes a water pump data detection module, a water pump data processing module and a water pump communication module, wherein the water pump data detection module and the water pump communication module are respectively connected to the water pump data processing module, the water pump data detection module is configured to detect a working parameter of the water pump at preset intervals, the water pump data processing module is configured to classify and store data detected by the water pump data detection module in a hierarchical manner, filter normal data, send a message notification to abnormal data, the water pump communication module is in butt joint with an interface provided by a platform through a network, send a message notification output by the data processing module to the platform service monitoring server, the platform service monitoring server compares data of a plurality of devices, find out devices with abnormal working, and display a key device monitoring page.
In this embodiment, the water pump data detection module detects at least one device operation parameter and at least one production parameter of the water pump, the device operation parameter is a device operation monitoring parameter, such as a bearing temperature parameter, a vibration acceleration parameter, and a lubricating oil temperature parameter, the production parameter is a production index real-time parameter of the water pump, such as a pump inlet pressure parameter, an outlet pressure parameter, a real-time flow parameter, an operation time parameter, a motor real-time current and voltage parameter, a balance degree, and a power parameter, and the water pump data detection module is arranged on the water pump to detect the above parameters.
In this embodiment, the method for monitoring the remote acquisition and control system based on the detection and monitoring signal sample includes the following steps:
(1) completing parameter setting of a platform service monitoring server, a remote monitoring signal sample acquisition device and a key equipment operation monitoring device; the parameters set by the remote monitoring signal sample acquisition device and the key equipment operation monitoring device comprise detection frequency and a data uploading strategy; the platform service monitoring server configuration parameters comprise a state parameter early warning threshold value and a model data set;
(2) the remote monitoring signal sample acquisition device and the key equipment operation monitoring device complete data detection according to the detection frequency, and data are uploaded to the platform service monitoring server based on a data uploading strategy;
(3) the platform service monitoring server carries out big data analysis by relying on calculation models based on machine learning, deep learning, neural network and the like according to the received information and combining an equipment historical information curve and the same type of equipment information, and predicts the equipment state change trend; on the basis of fusing data model information, equipment defect information and a fault case sample data set, establishing association rules between a plurality of equipment states and defects based on intelligent analysis technologies such as equipment state big data analysis and the like, generating accurate equipment state warning information, equipment defect diagnosis analysis reports and processing strategy information, and actively pushing and displaying the information.
The invention carries out fusion application on the basis of the constructed monitoring system architecture, each item (water quality monitoring, photovoltaic power station data monitoring and key equipment operation monitoring) is newly adjusted and redeveloped according to the actual situation, the constructed system of the invention provides a big data processing calculation model of a calculation algorithm, realizes a data processing mode of 'real-time + history + association', ensures real-time and accurate monitoring state, has high response speed of the monitoring system and has low requirement on calculation resources.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (8)
1. The utility model provides a long-range collection and regulation and control system based on detect and monitoring signal sample which characterized in that: the platform service monitoring server is used for platform service trend analysis, platform data visualization of service trend analysis is completed, a data model and an algorithm model are managed, a service function and big data intelligent analysis advanced application module is provided, a big data volume is executed, and a calculation task is carried out, wherein the service function and advanced application module comprises monitoring data management and display, running state analysis, big data intelligent analysis application, statistical report forms and alarm information pushing; the remote monitoring signal sample acquisition device is used for establishing equipment monitoring, remote signal sample acquisition is carried out by adopting the Internet of things, remote data management monitoring is realized through a network, the remote monitoring signal sample acquisition device comprises water quality monitoring equipment and photovoltaic power station data monitoring, the water quality monitoring equipment is used for carrying out remote detection monitoring service on regional water quality, the water quality monitoring equipment is butted with an interface provided by a platform through the network and is displayed in the form of river water quality thermodynamic diagrams, the color tends to red to represent that the water quality has risk problems, the photovoltaic power station data monitoring is used for carrying out remote monitoring service on the regional photovoltaic power station, the photovoltaic power station data monitoring is butted with the interface provided by the platform through the network, and an analysis result is obtained by calculation according to the data; the key equipment operation monitoring device is used for carrying out remote monitoring service on a key equipment water pump, is in butt joint with an interface provided by a platform through a network, and calculates according to data to give an analysis result.
2. The remote acquisition and control system for detecting and monitoring signal samples according to claim 1, wherein: the platform service monitoring server selects platform service monitoring to open a monitoring page by clicking data visualization in the background management menu, wherein the monitoring page comprises a water quality monitoring page, a photovoltaic power station detection page and a key equipment monitoring page, and respectively displays data collected by the water quality monitoring equipment, the photovoltaic power station data monitoring device and the key equipment operation monitoring device.
3. The remote acquisition and control system for detecting and monitoring signal samples according to claim 2, wherein: the network comprises a wireless network and a wired network, is used for realizing wireless and wired connection platform interfaces and displaying the received data to a monitoring page.
4. The remote acquisition and control system for detecting and monitoring signal samples according to claim 3, wherein: the water quality monitoring device comprises a water quality data detection module, a water quality position acquisition module, a water quality data processing module and a water quality communication module, wherein the water quality data detection module, the water quality position acquisition module and the water quality communication module are respectively connected with the water quality data processing module, the water quality data detection module is used for detecting the water quality information of a water source to be monitored, the water quality position acquisition module is used for acquiring the position information of the water quality monitoring device, the water quality data processing module is used for receiving the position information acquired by the water quality position acquisition module and the water quality information of the water source to be monitored transmitted by the water quality data detection module in real time, analyzing the water quality information of the water source to be monitored to obtain the current water quality index data, the water quality communication module is butted with an interface provided by a platform through a network and transmits the current water, and the platform service monitoring server correspondingly stores the current water quality index data and the geographical position information, performs trend statistical analysis by using the water quality index data corresponding to the geographical position information and the historical water quality index data, obtains an analysis result and displays the analysis result on a water quality monitoring page.
5. The remote acquisition and control system for detecting and monitoring signal samples according to claim 4, wherein: the water quality position acquisition module is a GPS receiver and can transmit positioning data in real time.
6. The remote acquisition and control system for detecting and monitoring signal samples according to claim 3, wherein: the photovoltaic power station data monitoring comprises a photovoltaic power station data detection module, a photovoltaic power station data processing module and a photovoltaic power station communication module, wherein the photovoltaic power station data detection module and the photovoltaic power station communication module are respectively connected with the photovoltaic power station data processing module, the photovoltaic power station data detection module is used for detecting the working parameters of the photovoltaic power station at preset time intervals, the photovoltaic power station data processing module is used for classifying and storing the data detected by the photovoltaic power station data detection module in a grading way, and filtering the normal data, sending a message notice to the abnormal data, butting the photovoltaic power station communication module with an interface provided by the platform through a network, sending the message notice output by the data processing module to the platform service monitoring server, comparing the data of the plurality of devices by the platform service monitoring server, finding out the devices with abnormal work, and displaying the devices to a photovoltaic power station detection page.
7. The remote acquisition and control system for detecting and monitoring signal samples according to claim 3, wherein: the key equipment operation monitoring device comprises a water pump data detection module, a water pump data processing module and a water pump communication module, wherein the water pump data detection module and the water pump communication module are respectively connected with the water pump data processing module, the water pump data detection module is used for detecting working parameters of a water pump at preset intervals, the water pump data processing module is used for classifying and storing data detected by the water pump data detection module in a grading manner, normal data are filtered, abnormal data are sent out to be informed, the water pump communication module is in butt joint with an interface provided by a platform through a network, the information informed output by the data processing module is sent to the platform service monitoring server, the platform service monitoring server compares data of a plurality of equipment, abnormal equipment is found out, and a key equipment monitoring page is displayed.
8. The method for monitoring based on the remote collection and control system for detecting and monitoring signal samples according to any one of claims 1 to 7, wherein:
the method comprises the following steps:
(1) completing parameter setting of a platform service monitoring server, a remote monitoring signal sample acquisition device and a key equipment operation monitoring device; the parameters set by the remote monitoring signal sample acquisition device and the key equipment operation monitoring device comprise detection frequency and a data uploading strategy; the platform service monitoring server configuration parameters comprise a state parameter early warning threshold value and a model data set;
(2) the remote monitoring signal sample acquisition device and the key equipment operation monitoring device complete data detection according to the detection frequency, and data are uploaded to the platform service monitoring server based on a data uploading strategy;
(3) the platform service monitoring server carries out big data analysis by relying on calculation models based on machine learning, deep learning, neural network and the like according to the received information and combining an equipment historical information curve and the same type of equipment information, and predicts the equipment state change trend; on the basis of fusing data model information, equipment defect information and a fault case sample data set, establishing association rules between a plurality of equipment states and defects based on intelligent analysis technologies such as equipment state big data analysis and the like, generating accurate equipment state warning information, equipment defect diagnosis analysis reports and processing strategy information, and actively pushing and displaying the information.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114374890A (en) * | 2021-12-31 | 2022-04-19 | 贵州电网有限责任公司 | Power equipment data acquisition platform based on big data |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103235221A (en) * | 2013-04-18 | 2013-08-07 | 河海大学常州校区 | Fault detecting system and fault detecting method for photovoltaic power station remote monitoring |
CN103997298A (en) * | 2014-05-28 | 2014-08-20 | 广州邦讯信息***有限公司 | Monitoring data collecting terminal of photovoltaic power station and monitoring data system |
CN106771033A (en) * | 2016-12-28 | 2017-05-31 | 重庆多邦科技股份有限公司 | A kind of water quality monitoring system and water quality monitoring method |
CN108691785A (en) * | 2018-06-29 | 2018-10-23 | 宁波巨神制泵实业有限公司 | A kind of water pump on-line detecting system |
CN111650872A (en) * | 2020-03-29 | 2020-09-11 | 浙江源态环保科技服务有限公司 | River and lake water ecological environment monitoring system based on Internet of things |
-
2020
- 2020-12-02 CN CN202011391446.3A patent/CN112559584A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103235221A (en) * | 2013-04-18 | 2013-08-07 | 河海大学常州校区 | Fault detecting system and fault detecting method for photovoltaic power station remote monitoring |
CN103997298A (en) * | 2014-05-28 | 2014-08-20 | 广州邦讯信息***有限公司 | Monitoring data collecting terminal of photovoltaic power station and monitoring data system |
CN106771033A (en) * | 2016-12-28 | 2017-05-31 | 重庆多邦科技股份有限公司 | A kind of water quality monitoring system and water quality monitoring method |
CN108691785A (en) * | 2018-06-29 | 2018-10-23 | 宁波巨神制泵实业有限公司 | A kind of water pump on-line detecting system |
CN111650872A (en) * | 2020-03-29 | 2020-09-11 | 浙江源态环保科技服务有限公司 | River and lake water ecological environment monitoring system based on Internet of things |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114374890A (en) * | 2021-12-31 | 2022-04-19 | 贵州电网有限责任公司 | Power equipment data acquisition platform based on big data |
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