CN111478945B - Pumped storage operation and inspection data processing system and method - Google Patents
Pumped storage operation and inspection data processing system and method Download PDFInfo
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Abstract
The embodiment of the invention provides a pumped storage operation and inspection data processing system and a method, which comprises the following steps: adapters, routers, application components; the application components are respectively connected with the corresponding subsystems through the corresponding routers and adapters; wherein each of the adapters comprises: a connector, a message receiver/message transmitter, a message converter; wherein the connector is for maintaining a session of communication between an external application and an application component; the connector is used for managing the message receiver/message transmitter and the message converter so as to determine a receiving endpoint and a transmitting endpoint; the message receiver/message transmitter is used for receiving and transmitting messages to realize message in-out station transfer; the message converter is used for converting data of received messages or messages to be sent; the router is used for forwarding the message received by the adapter to the application component; the application component is used for realizing the logic construction of the functional module so as to register information and manage logs.
Description
Technical Field
The embodiment of the invention relates to the technical field of power communication, in particular to a pumped storage operation and inspection data processing system and method.
Background
Pumped storage is the largest capacity and best-scale energy storage facility in the world today. The development of pumped storage is an important strategic measure for constructing a modern energy system, and has great significance for promoting the transformation of energy structures in China. Pumped storage is a technology intensive industry that involves large amounts of data and information during operation; the prior art lacks the necessary techniques to process and share such data and information.
Disclosure of Invention
The embodiment of the invention provides a pumped storage operation inspection data processing system and method, aiming at the problem that data and information in the pumped storage operation process are not effectively processed and shared in the prior art.
In order to solve the above problem, an embodiment of the present invention provides a pumped storage operation data processing system, including: adapters, routers, application components; the application components are respectively connected with corresponding subsystems through corresponding routers and adapters;
wherein each of the adapters comprises: a connector, a message receiver/message transmitter, a message converter; wherein the connector is for maintaining a session of communication between an external application and an application component; the connector is used for managing the message receiver/message transmitter and the message converter so as to determine a receiving endpoint and a transmitting endpoint; the message receiver/message transmitter is used for receiving and transmitting messages to realize the communication of messages to and from the station; the message converter is used for converting data of received messages or messages to be sent;
the router is used for forwarding the message received by the adapter to the application component so as to enable the application component to process a receiving route before the message and a sending route after the message is processed by the application component; wherein the router comprises: pre-route and post-route:
the preposed route is used for receiving messages and sending the messages to the application components, wherein the messages come from different adapters or different receiving endpoints of the same adapter;
the post route is used for sending the messages of the application components to different adapters or different receiving endpoints of the same adapter;
the application component is used for realizing the logic construction of the functional module so as to register information and manage logs.
In some embodiments, the application component comprises: a basic information registration module and a log management module;
the basic information registration module is used for recording a source/target IP (Internet protocol), authentication information, an implementation mode, an access date and an access state of a subsystem;
the log management module is used for recording data transmission time, source/target IP and whether transmission is successful.
In some embodiments, the connector is further configured to determine a receiving end and a sending end of the message according to preset receiving end and sending end.
In some embodiments, the connector determines the receiving end and the sending end of the message according to any one of the following information:
queue name of JMS, URL address of HTTP, and mail address of POP3/SMTP protocol.
Meanwhile, the embodiment of the invention also provides a method for processing pumped storage operation and inspection data by applying the system in any one of the preceding items, which comprises the following steps:
the subsystem acquires a URL service address to be accessed in an off-line manner and generates an HTTP request; sending the packaged HTTP request to a pumped storage operation and inspection data processing system in a data message mode;
after receiving the HTTP request of the subsystem, the pumped storage operation and inspection data processing system authenticates the request, and analyzes and responds the HTTP request after the authentication is passed;
and after receiving the response of the pumped storage operation and inspection data processing system, the subsystem analyzes the response data.
The technical scheme of the invention has the following beneficial effects: the technical scheme provides a pumped storage operation inspection data processing system and a method, which can realize open sharing of pumped storage operation inspection knowledge, provide a diversified multi-angle interface service mode, drive more subsystems to be added into a platform, greatly meet the requirements of pumped storage operation inspection identification, and realize centralized opening of pumped storage defects, hidden dangers, adverse business scenes, production processes and solutions; the subsystem with the pumped storage operation detection identification resource can add the data information resource of the subsystem into the platform according to the protocol, thereby providing the capability of issuing and managing the pumped storage operation detection knowledge with different types and dimensions, strengthening the mode of the pumped storage operation maintenance and overhaul and realizing the high sharing of the pumped storage operation detection knowledge. Meanwhile, by combining the 5G and the deep application of the mobile interconnection technology, a diversified application program is developed on the mobile terminal device, the pumped storage operation and inspection equipment operation and inspection knowledge is embedded into the mobile terminal APP, the mobility of the pumped storage operation and inspection knowledge is realized, and the operation, maintenance and repair process of the equipment in the spot is guided by the pumped storage operation and inspection knowledge base at any time and any place.
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FIG. 1 is a system architecture diagram of a pumped-storage data processing system for physical inspection according to an embodiment of the present invention;
fig. 2 is a schematic data processing flow diagram of the pumped storage operation inspection data processing system according to the embodiment of the present invention.
Detailed Description
In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.
The invention discloses a pumped storage operation and inspection data processing system which is established on the basis of informatization construction, takes modern communication, networks and databases as cores, and combines technologies of big data, cloud computing, mobile interconnection and Internet of things to realize information acquisition, information transmission, information processing, information regeneration and information utilization, form new technological productivity and create a new generation of data assets. In the aspects of design development and business application, a B/S and C/S combined mode is adopted, and a modern informatization methodology of a pumped storage transport inspection and open sharing platform is verified in a metadata logic integration and full-text distribution storage management mode. Meanwhile, the pumped storage transport inspection and identification open sharing platform innovatively fuses a WEB application server and multiple types of client sides, and the working idea of uniformly managing, uniformly configuring, uniformly dispatching and uniformly applying is realized.
As shown in fig. 1, the present invention provides a pumped storage inspection data processing system, which can be typically used as an inspection identification open sharing platform to share the data and various information and knowledge.
The invention provides a pumped storage operation and inspection data processing system, which comprises: adapter, router and application component 3 core modules.
The adapter is used for connecting the application component and an external application program, integrally realizes the management of the message receiver/message sender and the message converter, and realizes the definition of a receiving endpoint and a sending endpoint. Wherein, the adapter includes: a connector, a message receiver/message transmitter and a converter. The connector is the core of the adapter and is used to maintain a session for communication between an external application and an application component. The message receiver/message transmitter is used for receiving and transmitting messages and realizing the transfer of the messages to and from the station. The converter is used for data conversion between the message and the data type identified by the component, and data identification of the message is realized. For message receivers and message senders, the connector may define thereon receiving and sending endpoints for specifying where the message is received from or sent to, such as the queue name of JMS, the URL address of HTTP, the mail address of POP3/SMTP protocol. Meanwhile, the connector converts the received message or data to be transmitted using a message converter. The enterprise connection framework provides corresponding adapters for different communication protocols, such as HTTP adapters, JMS adapters, mail service adapters, TCP/IPSOCKET adapters, EJB adapters, COM/DCOM adapters and HTTP/SOAP (Web service) adapters.
The router is used for receiving routing before the application component processes the message and sending routing after the application component processes the message. Wherein, the router includes: pre-route and post-route. The pre-route receives messages from different adapters or different receiving endpoints of the same adapter. The post-routing may send the application component processing results to different adapters or different endpoints of the same adapter. Through message routing, application components can be invoked sequentially, selectively, or in series, implementing dynamic, declarative, content-based, and rule-based message routing schemas.
The application component is used for realizing the logic construction of the distributed service function module and finishing the registration of basic information and the management of logs. Wherein, the application component includes: basic information registration and log management. The registration of the basic information is used for recording the source/target IP, the authentication information, the implementation mode, the access date and the access state of the subsystem. The log management is used for recording data transmission time, source/target IP and whether transmission is successful. Through the connection of the router and the adapter, the application component can interact with other application components or external applications.
As shown in fig. 1, the pumped storage operation detection identification open sharing platform includes:
(1) An adapter: management of the message receiver/message sender and the message converter is achieved as a whole, and definition of the receiving endpoint and the sending endpoint is achieved. Wherein the adapter includes: connector, message receiver/message sender, converter:
the connector is the core of the adapter and is used for maintaining the communication session between the external application program and the application component;
the message receiver/message transmitter is used for receiving and transmitting messages to realize the transmission of the messages to and from the station;
the converter is used for data conversion between the message and the data type identified by the component, and data identification of the message is realized.
For message receivers and message senders, the connector may define thereon receiving and sending endpoints for specifying where the message is received from or sent to, such as the queue name of JMS, the URL address of HTTP, the mail address of POP3/SMTP protocol. Meanwhile, the connector converts the received message or data to be transmitted using a message converter. The enterprise connection framework provides corresponding adapters for different communication protocols, such as HTTP adapters, JMS adapters, mail service adapters, TCP/IPSOCKET adapters, EJB adapters, COM/DCOM adapters and HTTP/SOAP (Web service) adapters.
(2) The router: the method is used for receiving routing before the application component processes the message and sending routing after the application component processes the message. Wherein, the router includes: pre-route and post-route:
the preposed route receives messages from different adapters or different receiving end points of the same adapter;
the post-routing may send application component processing results to different adapters or different endpoints of the same adapter.
Through message routing, application components can be invoked sequentially, selectively, or in series, implementing dynamic, declarative, content-based, and rule-based message routing schemas.
(3) An application component: the method is used for realizing the logic construction of the functional module and finishing the registration of the basic information and the management of the log. Wherein, the application component includes: a basic information registration module and a log management module. The basic information registration module is used for recording a source/target IP, authentication information, an implementation mode, an access date and an access state of the subsystem. The log management module is used for recording data transmission time, source/target IP and whether transmission is successful. Through the connection of the router and the adapter, the application component can interact with other application components or external applications.
As shown in fig. 2, the process of the pumped storage operation detection and identification open sharing platform includes:
(1) The subsystem client requests operation: and acquiring a URL service address needing an access request offline, assembling an HTTP request according to the parameters, and sending the assembled request to the pumped storage operation detection identification open sharing platform in a data message mode.
(2) The pumped storage transport detector identifies the open sharing platform to receive the reply operation: and receiving a request sent by the subsystem client, and developing the legality identification of the request. And after the legality identification is passed, the platform analyzes the data of the request message parameters. After the analysis is completed, on one hand, the platform persistently writes the request parameters of the subsystem client into the database, so that the tracking management is facilitated; on the other hand, the platform integrates the existing resources and gives a response according to the message format requested by the subsystem client.
(3) The subsystem client receives the operation: and receiving the reply of the pumped storage transportation identification open sharing platform, and performing analysis operation.
While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.
Claims (5)
1. A pumped-storage health check data processing system, comprising: adapters, routers, application components; the application component is respectively connected with corresponding subsystems through corresponding routers and adapters, so that the subsystem with the pumped storage operation inspection identification resource adds own data information resource into the platform according to a protocol, and the sharing of pumped storage operation inspection knowledge is realized;
wherein each of the adapters comprises: a connector, a message receiver/message transmitter, a message converter; wherein the connector is for maintaining a session of communication between an external application and an application component; the connector is used for managing the message receiver/message transmitter and the message converter so as to determine a receiving endpoint and a transmitting endpoint; the message receiver/message transmitter is used for receiving and transmitting messages to realize message in-out station transfer; the message converter is used for converting the data of the received message or the message to be sent;
the router is used for forwarding the message received by the adapter to the application component, and is used for receiving the route before the application component processes the message and sending the route after the application component processes the message; wherein the router comprises: pre-route and post-route:
the preposed route is used for receiving messages and sending the messages to the application component, wherein the messages come from different adapters or different receiving endpoints of the same adapter;
the post-positioned route is used for sending the message of the application component to different adapters or different receiving endpoints of the same adapter;
the application component is used for realizing the logic construction of the functional module so as to register information and manage logs.
2. The pumped-storage shipping data processing system of claim 1, wherein said application component comprises: a basic information registration module and a log management module;
the basic information registration module is used for recording a source/target IP (Internet protocol), authentication information, an implementation mode, an access date and an access state of a subsystem;
the log management module is used for recording data transmission time, source/target IP and whether transmission is successful.
3. The pumped-storage runtime data processing system of claim 1, wherein the connector is further configured to determine a receiving end and a sending end of the message based on predetermined receiving and sending end points.
4. The pumped-storage runtime data processing system of claim 3, wherein the connector identifies the receiving end and the sending end of the message based on any one of the following:
queue name of JMS, URL address of HTTP, and mail address of POP3/SMTP protocol.
5. A method for pumped-storage job inspection data processing using the system of any of claims 1-4, comprising:
the subsystem acquires a URL service address to be accessed in an off-line manner and generates an HTTP request; sending the packaged HTTP request to a pumped storage operation and inspection data processing system in a data message mode;
after receiving the HTTP request of the subsystem, the pumped storage operation and inspection data processing system authenticates the request, and analyzes and responds the HTTP request after the authentication is passed;
and after receiving the response of the pumped storage operation and inspection data processing system, the subsystem analyzes the response data.
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