CN112948325A - Power grid dispatching information cross-system exchange method, device, medium and system - Google Patents

Abstract

The embodiment of the application discloses a method, a device, a medium and a system for exchanging power grid scheduling information across systems. The method comprises the following steps: receiving basic data sent by the first scheduling system through a data interoperation service interface and/or receiving basic files sent by the first scheduling system through a file service interface; and sending the basic data and/or the basic file to a second scheduling system to complete cross-system exchange of the power grid scheduling information. According to the technical scheme, the cross-system exchange of the power grid dispatching information can be realized based on the micro-service architecture-oriented power grid dispatching information exchange system, the safety and the controllability of the exchange process are improved, and powerful informatization support is provided for the integrated dispatching of the power grid.

Description

Power grid dispatching information cross-system exchange method, device, medium and system

Technical Field

The embodiment of the application relates to the field of power system scheduling control, in particular to a method, a device, a medium and a system for exchanging power grid scheduling information across systems.

Background

With the continuous promotion of power dispatching informatization, the requirements of dispatching mechanisms at all levels on cross-data exchange and flow interconnection are increasing day by day.

The difference in the environment, database platform and core implementation technology among the cross-system is large. At present, the exchange of the power grid dispatching information of each level of dispatching mechanism is mainly performed manually.

And the power grid dispatching information is exchanged manually, so that the safety and the controllability of the exchange process are low.

Disclosure of Invention

The embodiment of the application provides a method, a device, a medium and a system for cross-system exchange of power grid scheduling information, which can realize cross-system exchange of the power grid scheduling information based on a micro-service architecture-oriented power grid scheduling information exchange system, improve the safety and controllability of an exchange process, and provide powerful informatization support for integrated scheduling of a power grid.

In a first aspect, an embodiment of the present application provides a method for exchanging power grid scheduling information across systems, where the method includes:

receiving basic data sent by the first scheduling system through a data interoperation service interface and/or receiving basic files sent by the first scheduling system through a file service interface;

and sending the basic data and/or the basic file to a second scheduling system to complete cross-system exchange of the power grid scheduling information.

In a second aspect, an embodiment of the present application provides a cross-system power grid scheduling information exchange device, where the cross-system power grid scheduling information exchange device includes:

the basic data and basic file receiving module is used for receiving the basic data sent by the first scheduling system through the data interoperation service interface and/or receiving the basic file sent by the first scheduling system through the file service interface;

and the basic data and basic file sending module is used for sending the basic data and/or basic files to a second scheduling system so as to complete cross-system exchange of the power grid scheduling information.

In a third aspect, the present application provides a computer-readable medium, on which a computer program is stored, where the computer program, when executed by a processor, implements a method for exchanging power grid scheduling information across systems according to an embodiment of the present application.

In a fourth aspect, an embodiment of the present application provides a power grid scheduling information exchange system, where the power grid scheduling information exchange system is connected to a first scheduling system and a second scheduling system through a network, and the system includes a data interoperation service interface, a file service interface, and a data query call service interface;

the data interoperation service interface is used for receiving basic data sent by a first scheduling system, monitoring the receiving time of the basic data, and sending the basic data to a second scheduling system according to the receiving time and a preset transmission rule;

the file service interface is used for receiving a basic file sent by a first scheduling system, storing the basic file to a preset local position, and judging whether the sending condition of the basic file meets a preset sending condition or not; if yes, sending the basic file to a second scheduling system;

and the data query and call service interface is used for responding to the power grid scheduling information query request, displaying the basic data or the basic file and checking the basic data or the basic file by the power grid scheduling information query party.

According to the technical scheme provided by the embodiment of the application, the basic data sent by the first scheduling system is received through the data interoperation service interface, and/or the basic file sent by the first scheduling system is received through the file service interface; and sending the basic data and/or the basic file to a second scheduling system to complete the cross-system exchange of the power grid scheduling information. According to the technical scheme, the cross-system exchange of the power grid dispatching information can be realized based on the micro-service architecture-oriented power grid dispatching information exchange system, the safety and the controllability of the exchange process are improved, and powerful informatization support is provided for the integrated dispatching of the power grid.

Drawings

Fig. 1 is a flowchart of a method for exchanging power grid scheduling information across systems according to an embodiment of the present application;

fig. 2 is a schematic diagram of a cross-system exchange process of power grid scheduling information provided in the second embodiment of the present application;

fig. 3 is a schematic structural diagram of a cross-system exchange device for power grid scheduling information provided in a third embodiment of the present application;

fig. 4 is a schematic structural diagram of a system provided in the fifth embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures.

Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the steps as a sequential process, many of the steps can be performed in parallel, concurrently or simultaneously. In addition, the order of the steps may be rearranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

Example one

Fig. 1 is a flowchart of a power grid scheduling information cross-system exchange method provided in an embodiment of the present application, where the present embodiment is applicable to a situation of power grid scheduling information cross-system exchange, and the method may be executed by a power grid scheduling information cross-system exchange device provided in the embodiment of the present application, and the device may be implemented in a software and/or hardware manner and may be integrated in a device such as an intelligent terminal of a power grid scheduling information exchange system.

As shown in fig. 1, the method for exchanging the power grid scheduling information across systems includes:

s110, receiving basic data sent by the first scheduling system through a data interoperation service interface, and/or receiving basic files sent by the first scheduling system through a file service interface.

In the scheme, the power grid dispatching information exchange system realizes cross-region sharing of power grid dispatching information of a main network dispatching system and a distribution network dispatching system by formulating a data interoperation service interface, a file service interface and a data query call service interface. The power grid scheduling information in the main network scheduling system emphasizes safety, and the distribution network scheduling information emphasizes economy. The first scheduling system may be a main network scheduling system or a distribution network scheduling system. The first scheduling system needs to register a data interoperation service interface, a file service interface and a data query call service interface of the power grid scheduling information exchange system, and obtains authorization of the power grid scheduling information exchange system, so that cross-system exchange of power grid scheduling information can be performed based on the power grid scheduling information exchange system.

The basic data can be line voltage data, current data and equipment fault data; the basic file can be voltage data, current data, power data, description data for the same transformer, fault expression data generated by different systems when a fault occurs, and the like between the main network scheduling system and the distribution network scheduling system. And basic data and basic files in the main network scheduling system and the distribution network scheduling system are stored according to preset positions. The basic data and the basic file are stored in an XML (Extensible Markup Language) format. The basic data comprise XML root node labels and can be used for identifying the power grid dispatching information. The root node label refers to original label information of the data. For example, the base data is current data, and the corresponding label is the specific line, where the line is the label of the root node.

In this embodiment, the power grid dispatching information exchange system may receive the basic data sent by the first dispatching system directly through the data interoperation service interface, and receive the basic file sent by the first dispatching system through the file service interface. The basic data or the basic file can be extracted in real time or at regular time in response to the data extraction instruction of the first scheduling system.

In this technical solution, optionally, the basic data and the basic file are composed of at least one data volume; wherein the data volume is composed of at least one data item; and the basic data and the basic file are coded and transmitted by adopting a base64 coding mode.

The data volume may refer to data composed of voltage data, power data and line length of the line; a data item may refer to specific data; for example, voltage or current are specific data items. The base data and base file may be composed of one or more data volumes and data items.

In the present embodiment, base64 is a method for representing binary data based on 64 printable characters, and can be applied to transmission between different systems.

Specifically, the basic data and the basic file are encoded in the encoding mode of base64 and are sent to the power grid dispatching information exchange system by the first dispatching system. The basic data and the basic file are encrypted by an SSL (Secure Sockets Layer) protocol in the transmission process. The power grid dispatching information exchange system is additionally provided with authentication service outside the Web server, and a power grid dispatching information receiver or a power grid dispatching information sender can access the Web server only after obtaining identity and authority confirmation through the authentication service. The SSL protocol is positioned between the TCP/IP protocol and various application layer protocols, and provides safety support for data communication.

By standardizing and encrypting the basic data and the basic file, the integrity, confidentiality and steal-proof of the transmission of the basic data and the basic file are ensured.

And S120, sending the basic data and/or the basic file to a second scheduling system to complete cross-system exchange of the power grid scheduling information.

The second scheduling system may be a main network scheduling system or a distribution network scheduling system.

In this embodiment, after the power grid dispatching information exchange system obtains the basic data or the basic file, the basic data or the basic file is sent to the second dispatching system according to a preset transmission rule. If the second scheduling system receives the basic data, the information is identified according to the XML root node label of the basic data, and the basic data is redistributed to other service or data processing systems to carry out operations such as warehousing or flow process; if the second scheduling system receives the basic file, the basic file is decoded and converted into a file, and the file is redistributed to other services or data processing systems to perform local storage and other operations.

In this technical solution, optionally, the sending the basic data and/or the basic file to the second scheduling system includes:

if the received basic data is the basic data, monitoring the receiving time of the basic data, and sending the basic data to a second scheduling system according to the receiving time and a preset transmission rule;

if the received basic file is the basic file, storing the basic file to a preset local position, and judging whether the sending condition of the basic file meets a preset sending condition or not;

and if so, sending the basic file to a second scheduling system.

The receiving time can be specific time when the power grid dispatching information exchange system receives the basic data; the preset transmission rule may be a synchronous transmission rule, and the synchronous transmission transmits the data signal at the same clock beat.

In this embodiment, the preset local location may refer to a location for storing a basic file in the power grid scheduling information exchange system; the preset sending condition may be that the storage time of the basic file exceeds a certain threshold, or that the storage amount of the basic file exceeds a certain amount, or that a data transmission instruction sent by the second scheduling system is received.

Specifically, if the received basic data is received, the power grid dispatching information exchange system directly transmits the received basic data to the second dispatching system; if the received basic file is the basic file, the power grid dispatching information exchange system stores the basic file locally, and after the basic file is stored for a period of time, the basic file is sent to a second dispatching system, or after the storage capacity of the basic file reaches a certain data volume, the basic file is sent to the second dispatching system, or after a data transmission instruction sent by the second dispatching system is received, the basic data is sent to the second dispatching system.

By transmitting the received basic data and basic files in different modes, the cross-system exchange of the power grid dispatching information can be realized, and the safety and controllability of the exchange process are improved.

In this technical solution, optionally, the method further includes:

and responding to the power grid dispatching information inquiry request through the data inquiry and calling service interface, displaying the basic data or the basic file, and checking the basic data or the basic file by the power grid dispatching information inquirer.

The power grid dispatching information query request can be a request in a numerical form or a character form. The power grid dispatching information query request comprises a data standard and a query condition. The data standard is one of the important informationization works, establishes a centralized, standard and unified basic data standard, and is a precondition for ensuring the normal operation of an enterprise informatization system. The agreed data standard refers to that uniform data coding is used among all systems to prevent errors; the query condition may refer to greater than, greater than or equal to, less than or equal to, unequal to, fuzzy matching, and the like, and the query condition may be a combination thereof. Here, fuzzy matching may mean that an approximate degree of matching is given according to given conditions or requirements. For example, the query condition may be to query lines for currents greater than 3A and less than 5A, or to query lines greater than 7A and less than 9A, etc.

In this embodiment, the power grid scheduling information inquiring party may be the first scheduling system or the second scheduling system.

By providing a data query and call service interface, a power supply network scheduling information query party can check basic data or basic files of a cross-system, and powerful informatization support is provided for power grid integrated scheduling.

According to the technical scheme provided by the embodiment of the application, the basic data sent by the first scheduling system is received through the data interoperation service interface, and/or the basic file sent by the first scheduling system is received through the file service interface; and sending the basic data and/or the basic file to a second scheduling system to complete the cross-system exchange of the power grid scheduling information. By executing the technical scheme, the cross-system exchange of the power grid dispatching information can be realized based on the power grid dispatching information exchange system facing the micro-service architecture, the safety and the controllability of the exchange process are improved, and powerful informatization support is provided for the integrated dispatching of the power grid.

Example two

Fig. 2 is a schematic diagram of a cross-system exchange process of power grid scheduling information provided in the second embodiment of the present application, and the second embodiment of the present application is further optimized based on the first embodiment of the present application. The concrete optimization is as follows: after receiving the base data transmitted by the first scheduling system through the data interoperability service interface and/or receiving the base file transmitted by the first scheduling system through the file service interface, the method further includes: the details which are not described in detail in this embodiment are shown in the first embodiment. As shown in fig. 2, the method comprises the steps of:

s210, receiving basic data sent by the first scheduling system through a data interoperation service interface, and/or receiving basic files sent by the first scheduling system through a file service interface.

S220, processing the basic data and/or the basic file by utilizing a processing function to obtain processed basic data and/or basic file; the processing function comprises at least one of a data warehousing function, a data checking function, a synchronous deleting function, an updating stopping function, a task queue function and a multi-routing function.

In this embodiment, the data warehousing function means that after the power grid scheduling information is received by the power grid scheduling information exchange system, the power grid scheduling information is analyzed according to a defined receiving protocol to perform insertion or update operations on the database, so as to complete data warehousing work; the data checking function comprises upper and lower limit checking of numerical value types, keyword checking, time gate checking, non-null checking and the like, and can automatically filter the power grid dispatching information which does not meet the conditions and carry out more detailed control on power grid dispatching information exchange. Wherein, the time gate check refers to the check of time. For example, if the voltage data of three points in the afternoon of 1 month and 1 day of 2021 in the afternoon of the obtained power grid scheduling information is rejected, the voltage data which does not accord with the three points in the afternoon of 1 month and 1 day of 2021 in the afternoon is rejected; the synchronous deletion function means that if the receiver deletes the exchanged data, the power grid dispatching information exchange system can synchronously delete the data of the sender so as to ensure the consistency of the data of the two parties; the update prevention function means that some grid dispatching information is only allowed to be sent for 1 time, and the grid dispatching information which is not allowed to be exchanged again is allowed to cover the previous data. The power grid dispatching information exchange system provides an update preventing function, which can prevent the whole data from being updated, and can prevent one or some fields from being updated to realize partial update. The function can be realized only by punching a hook by a sender, and can be configured on terms so as to prevent the update of the whole data; it can also be configured on items, preventing single field updates; the task queue function means that when the power grid dispatching information exchange system cannot process power grid dispatching information exchange tasks in time, the tasks are arranged in the task queue to wait until the processing is completed. The incomplete task may be that 1 instruction is not executed in time, or that 1 XML file is not put in storage in time or an error occurs when a workflow engine is called, so that the workflow cannot be performed; the multi-routing selection function means that redundant data exchange servers are added, and the power grid dispatching information exchange can still be normally carried out under the condition that 1 server has a fault. When the power grid dispatching information is sent, a normal server can be automatically selected to transmit data.

By processing the basic data and the basic files, the cross-system exchange of the power grid dispatching information can be realized based on the micro-service architecture-oriented power grid dispatching information exchange system, the safety and the controllability of the exchange process are improved, and powerful informatization support is provided for the integrated dispatching of the power grid.

In this technical solution, optionally, the processing function further includes a data extraction function;

correspondingly, the method further comprises the following steps:

and responding to a data extraction instruction sent by a first scheduling system, extracting basic data and/or basic files in the first scheduling system based on the data extraction function, and obtaining target data and/or target files in an XML format for sending power grid scheduling information.

The data extraction function comprises real-time extraction and timing extraction. The first scheduling system sends a data extraction instruction to the power grid scheduling information exchange system, and the power grid scheduling information exchange system completes data extraction at regular time by defining a sending period.

In the scheme, after the power grid scheduling information exchange system extracts the power grid scheduling information of the first scheduling system, the power grid scheduling information can be sent to the second scheduling system, and the power grid scheduling information can also be stored locally. The second scheduling system can also send a data extraction instruction, so that the power grid scheduling information exchange system extracts the power grid scheduling information in the second scheduling system, stores the extracted power grid scheduling information to a local position, and the power grid scheduling information inquiry party checks the extracted power grid scheduling information.

The real-time extraction and the timing extraction of the power grid dispatching information can be realized by using the data extraction function, the transmission and the query of the power grid dispatching information are facilitated, and the powerful informatization support is provided for the integrated dispatching of the power grid.

And S230, sending the basic data and/or the basic file to a second scheduling system to complete cross-system exchange of the power grid scheduling information.

In this embodiment, after the power grid scheduling information cross-system obtains the basic data or the basic file, the basic data or the basic file is sent to the second scheduling system according to a preset transmission rule, so that cross-system exchange of the power grid scheduling information is realized.

In this technical solution, optionally, the processing function further includes a data slicing function;

correspondingly, the sending the basic data and/or the basic file to a second scheduling system comprises:

and if the data volume of the basic data and/or the basic file does not meet the preset constraint condition, carrying out fragmentation processing on the basic data and/or the basic file by adopting a data fragmentation function to obtain fragmented data and/or fragmented files, and sending the fragmented data and/or fragmented files to a second scheduling system.

Wherein, the preset constraint condition may be that the data size is 5 MB.

Specifically, when the data size of the basic data and/or the basic file is large, the basic data and/or the basic file is divided into 5 MB-sized fragment data and/or fragment files by using a data fragmentation function.

The basic data and/or the basic file are fragmented, which is beneficial to network transmission and can further ensure the reliability and the safety of data exchange.

According to the technical scheme provided by the embodiment of the application, the basic data sent by the first scheduling system is received through the data interoperation service interface, and/or the basic file sent by the first scheduling system is received through the file service interface; and processing the basic data and/or the basic file by utilizing a processing function to obtain the processed basic data and/or basic file, and sending the basic data and/or basic file to a second scheduling system to complete the cross-system exchange of the power grid scheduling information. By executing the technical scheme, the cross-system exchange of the power grid dispatching information can be realized based on the power grid dispatching information exchange system facing the micro-service architecture, the safety and the controllability of the exchange process are improved, and powerful informatization support is provided for the integrated dispatching of the power grid.

EXAMPLE III

Fig. 3 is a schematic structural diagram of a cross-system exchange device for power grid scheduling information provided in a third embodiment of the present application, and as shown in fig. 3, the device includes:

a basic data and basic file receiving module 310, configured to receive basic data sent by the first scheduling system through a data interoperability service interface, and/or receive basic files sent by the first scheduling system through a file service interface;

and a basic data and basic file sending module 320, configured to send the basic data and/or basic file to a second scheduling system, so as to complete cross-system exchange of power grid scheduling information.

In this technical solution, optionally, the basic data and basic file sending module 320 is specifically configured to:

if the received basic data is the basic data, monitoring the receiving time of the basic data, and sending the basic data to a second scheduling system according to the receiving time and a preset transmission rule;

if the received basic file is the basic file, storing the basic file to a preset local position, and judging whether the sending condition of the basic file meets a preset sending condition or not;

and if so, sending the basic file to a second scheduling system.

In this technical solution, optionally, the apparatus further includes:

the basic data and/or basic file processing module is used for processing the basic data and/or the basic files by utilizing a processing function to obtain processed basic data and/or basic files; the processing function comprises at least one of a data warehousing function, a data checking function, a synchronous deleting function, an updating stopping function, a task queue function and a multi-routing function.

In this technical solution, optionally, the processing function further includes a data extraction function;

correspondingly, the device further comprises:

and the data extraction module is used for responding to a data extraction instruction sent by the first scheduling system, extracting basic data and/or basic files in the first scheduling system based on the data extraction function, and obtaining target data and/or target files in an XML format for sending the power grid scheduling information.

In this technical solution, optionally, the processing function further includes a data slicing function;

correspondingly, the basic data and basic file sending module 320 is specifically configured to:

and if the data volume of the basic data and/or the basic file does not meet the preset constraint condition, carrying out fragmentation processing on the basic data and/or the basic file by adopting a data fragmentation function to obtain fragmented data and/or fragmented files, and sending the fragmented data and/or fragmented files to a second scheduling system.

In this technical solution, optionally, the apparatus further includes:

and the power grid scheduling information query module is used for responding to the power grid scheduling information query request through the data query call service interface, displaying the basic data or the basic file and checking the basic data or the basic file by the power grid scheduling information query party.

In this technical solution, optionally, the basic data and the basic file are composed of at least one data volume; wherein the data volume is composed of at least one data item; and the basic data and the basic file are coded and transmitted by adopting a base64 coding mode.

The product can execute the method provided by the embodiment of the application, and has the corresponding functional modules and beneficial effects of the execution method.

Example four

Embodiments of the present application also provide a medium containing computer-executable instructions, which when executed by a computer processor, are configured to perform a method for cross-system exchange of grid scheduling information, the method including:

receiving basic data sent by the first scheduling system through a data interoperation service interface and/or receiving basic files sent by the first scheduling system through a file service interface;

and sending the basic data and/or the basic file to a second scheduling system to complete cross-system exchange of the power grid scheduling information.

Media-any of various types of memory devices or storage devices. The term "media" is intended to include: mounting media such as CD-ROM, floppy disk, or tape devices; computer system memory or random access memory such as DRAM, DDR RAM, SRAM, EDO RAM, Lanbas (Rambus) RAM, etc.; non-volatile memory such as flash memory, magnetic media (e.g., hard disk or optical storage); registers or other similar types of memory elements, etc. The medium may also include other types of memory or combinations thereof. In addition, the medium may be located in the computer system in which the program is executed, or may be located in a different second computer system, which is connected to the computer system through a network (such as the internet). The second computer system may provide the program instructions to the computer for execution. The term "media" may include two or more media that may reside in different locations, such as in different computer systems that are connected by a network. The media may store program instructions (e.g., embodied as computer programs) that are executable by one or more processors.

Of course, the medium provided in the embodiments of the present application includes computer-executable instructions, and the computer-executable instructions are not limited to the operation of exchanging the power grid scheduling information across systems as described above, and may also perform related operations in the method of exchanging the power grid scheduling information across systems as provided in any embodiment of the present application.

EXAMPLE five

The embodiment of the application provides a system, wherein the power grid dispatching information exchange system 420 is connected with a first dispatching system 410 and a second dispatching system 430 through a network, and the system comprises a data interoperation service interface 421, a file service interface 422 and a data inquiry and call service interface 423;

the data interoperability service interface 421 is configured to receive basic data sent by the first scheduling system 410, monitor a receiving time of the basic data, and send the basic data to the second scheduling system 430 according to the receiving time and a preset transmission rule;

the file service interface 422 is configured to receive a basic file sent by the first scheduling system 410, store the basic file to a preset local location, and determine whether a sending condition of the basic file meets a preset sending condition; if yes, sending the basic file to a second scheduling system 430;

the data query summoning service interface 423 is used for responding to the power grid scheduling information query request, displaying the basic data or the basic file, and checking the basic data or the basic file by the power grid scheduling information query party.

Specifically, the grid dispatching information exchange system 420 realizes cross-system sharing of grid dispatching information of the first dispatching system 410 and the second dispatching system 430 by formulating a data interoperation service interface 421 and a file service interface 422, and provides cross-system basic data and basic files for a grid dispatching information inquirer by using a data inquiry summoning service interface 423.

According to the technical scheme provided by the embodiment of the application, the data interoperation service interface is used for receiving basic data sent by the first scheduling system, monitoring the receiving time of the basic data, and sending the basic data to the second scheduling system according to the receiving time and a preset transmission rule; the file service interface is used for receiving the basic file sent by the first scheduling system, storing the basic file to a preset local position, and sending the basic file to the second scheduling system if the sending condition of the basic file meets the preset sending condition; and the data query call service interface is used for responding to the power grid scheduling information query request and displaying basic data or basic files. By executing the technical scheme, the cross-system exchange of the power grid dispatching information can be realized based on the power grid dispatching information exchange system facing the micro-service architecture, the safety and the controllability of the exchange process are improved, and powerful informatization support is provided for the integrated dispatching of the power grid.

The power grid dispatching information cross-system exchange device, medium and system provided in the embodiments can execute the power grid dispatching information cross-system exchange method provided in any embodiment of the present application, and have corresponding functional modules and beneficial effects for executing the method. Technical details not described in detail in the above embodiments may be referred to a cross-system exchange method of power grid scheduling information provided in any embodiment of the present application.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present application and the technical principles employed. It will be understood by those skilled in the art that the present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the application. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the appended claims.

Claims (10)

1. A method for cross-system exchange of grid scheduling information, the method being performed by a grid scheduling information exchange system, the method comprising:

receiving basic data sent by the first scheduling system through a data interoperation service interface and/or receiving basic files sent by the first scheduling system through a file service interface;

and sending the basic data and/or the basic file to a second scheduling system to complete cross-system exchange of the power grid scheduling information.

2. The method of claim 1, wherein sending the base data and/or base file to a second scheduling system comprises:

if the received basic data is the basic data, monitoring the receiving time of the basic data, and sending the basic data to a second scheduling system according to the receiving time and a preset transmission rule;

if the received basic file is the basic file, storing the basic file to a preset local position, and judging whether the sending condition of the basic file meets a preset sending condition or not;

and if so, sending the basic file to a second scheduling system.

3. The method of claim 1, wherein after receiving the base data transmitted by the first scheduling system through the data interoperability service interface and/or receiving the base file transmitted by the first scheduling system through the file service interface, the method further comprises:

processing the basic data and/or the basic file by utilizing a processing function to obtain processed basic data and/or basic file; the processing function comprises at least one of a data warehousing function, a data checking function, a synchronous deleting function, an updating stopping function, a task queue function and a multi-routing function.

4. The method of claim 3, wherein the processing functions further comprise a data extraction function;

correspondingly, the method further comprises the following steps:

and responding to a data extraction instruction sent by a first scheduling system, extracting basic data and/or basic files in the first scheduling system based on the data extraction function, and obtaining target data and/or target files in an XML format for sending power grid scheduling information.

5. The method of claim 3, wherein the processing functions further comprise a data slicing function;

correspondingly, the sending the basic data and/or the basic file to a second scheduling system comprises:

and if the data volume of the basic data and/or the basic file does not meet the preset constraint condition, carrying out fragmentation processing on the basic data and/or the basic file by adopting a data fragmentation function to obtain fragmented data and/or fragmented files, and sending the fragmented data and/or fragmented files to a second scheduling system.

6. The method of claim 1, further comprising:

and responding to the power grid dispatching information inquiry request through the data inquiry and calling service interface, displaying the basic data or the basic file, and checking the basic data or the basic file by the power grid dispatching information inquirer.

7. The method of claim 1, wherein the base data and base file are comprised of at least one data volume; wherein the data volume is composed of at least one data item; and the basic data and the basic file are coded and transmitted by adopting a base64 coding mode.

8. A cross-system exchange device for power grid dispatching information, which is configured in a power grid dispatching information exchange system, and comprises:

the basic data and basic file receiving module is used for receiving the basic data sent by the first scheduling system through the data interoperation service interface and/or receiving the basic file sent by the first scheduling system through the file service interface;

and the basic data and basic file sending module is used for sending the basic data and/or basic files to a second scheduling system so as to complete cross-system exchange of the power grid scheduling information.

9. A computer-readable medium, on which a computer program is stored, which program, when being executed by a processor, is adapted to carry out a method of cross-system exchange of grid scheduling information according to any one of claims 1-7.

10. A power grid dispatching information exchange system is characterized in that the power grid dispatching information exchange system is connected with a first dispatching system and a second dispatching system through a network, and the system comprises a data interoperation service interface, a file service interface and a data query call service interface;

the data interoperation service interface is used for receiving basic data sent by a first scheduling system, monitoring the receiving time of the basic data, and sending the basic data to a second scheduling system according to the receiving time and a preset transmission rule;

the file service interface is used for receiving a basic file sent by a first scheduling system, storing the basic file to a preset local position, and judging whether the sending condition of the basic file meets a preset sending condition or not; if yes, sending the basic file to a second scheduling system;

and the data query and call service interface is used for responding to the power grid scheduling information query request, displaying the basic data or the basic file and checking the basic data or the basic file by the power grid scheduling information query party.

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