CN102045154B - Method and system for synchronizing data of power equipment as well as power resource management server - Google Patents

Abstract

The invention discloses a method and system for synchronizing data of power equipment as well as a power resource management server. The invention is characterized in that the power resource management server is additionally provided with an interface, the interface is communicated with a B interface of a moving-ring monitoring system, and the power resource management server logins in the moving-ring monitoring system by the interface and acquires the latest data of power equipment from the moving-ring monitoring system. The method, system and server provided by the invention have the advantage of enhancing the instantaneity and accuracy of the data of power equipment on the power resource management server.

Description

Power-equipment method of data synchronization, system and power resource management server

Technical field

The present invention relates to the dynamic environment monitoring technical field, be specifically related to power-equipment method of data synchronization, system and power resource management server.

Background technology

At present, the power-equipment data owner of power resource management system is wanted the data in reference device asset management (EAM, Enterprise Asset Management) system and the comprehensive resources management system.Power-equipment mainly is arranged in core machine room and base station, power-equipment as: exchange cabinet, Switching Power Supply, uninterrupted power supply (UPS, Uninterruptible Power Supply), air-conditioning, battery etc., the power-equipment data comprise: power-equipment title, attribute etc., attribute is such as place, capacity, model, corresponding device etc.

Data in EAM system and the comprehensive resources management system all are to import by manual typing or Execl form, and this data-entry-form can produce following shortcoming:

One, the data in EAM system and the comprehensive resources management system can not real-time update when the power-equipment data variation just for sometime data.

Two, since power-equipment can because of newly-built, move or scrap the attribute change that causes place, capacity, model etc., at this moment, if the power-equipment enormous amount in core machine room and the base station, then simple dependence manually revised data, because workload is large and the error of people's possible operation, can't guarantee accuracy and the real-time of data.

Three, mutual independent, the data disunity of EAM system and comprehensive resources management system, the data that may cause the power resource management system to be collected are inaccurate.

Four, EAM system and comprehensive resources management system itself all are the record accumulation of data, can't describe out the topological relation between the power-equipment.At present, when the topological relation that needs between the power-equipment, all draw by manual analysis power-equipment data.In addition, one, three data that can cause the power resource management system to be collected are inaccurate, not real-time for above-mentioned reasons, and this topological relation that also can indirectly cause manual analysis to obtain is inaccurate.

Summary of the invention

The invention provides power-equipment method of data synchronization, system and power resource management server, to strengthen the real-time of the power-equipment data in the power resource management system.

Technical scheme of the present invention is achieved in that

A kind of power-equipment method of data synchronization increases the interface of communicating by letter with the B interface of power ﹠ environment supervision system at the power resource management server, and the method comprises:

The power resource management server is logined the power ﹠ environment supervision system by described interface, and the driven torus supervisory control system is obtained up-to-date power-equipment data.

Described method further comprises: preset data synchronizing cycle,

Described power resource management server obtains up-to-date power-equipment data by described interface driven torus supervisory control system:

When preset data began synchronizing cycle, the power resource management server was by described interface, and the driven torus supervisory control system is obtained up-to-date power-equipment data.

Described power resource management server further comprises after obtaining up-to-date power-equipment data by described interface driven torus supervisory control system:

The power resource management server will make up a topological structure take default power-equipment as root node, take this default power-equipment as root node, travel through all power-equipment data, until each node searches less than till the child node, and be that father node, this power-equipment are that the rule of child node makes up tree topology according to node under the power-equipment.

Described power resource management server will make up one and further comprise after the topological structure of root node, before traveling through all power-equipment data and making up tree topology take default power-equipment:

The power resource management server sends the slave node request of data of carrying default power-equipment title to the power ﹠ environment supervision system, the power ﹠ environment supervision system receives this request, be called index with this default power-equipment name, in the up-to-date power-equipment data of self preserving, search for descendants's nodename of this default power-equipment, the power-equipment data of all descendants's nodes of searching are returned to the power resource management server;

And all power-equipment data of described traversal are: travel through the power-equipment data that all power ﹠ environment supervision systems return.

The power-equipment data that described power ﹠ environment supervision system returns comprise: the affiliated nodename of power-equipment title and power-equipment.

Described interface of communicating by letter with the B interface of power ﹠ environment supervision system in the increase of power resource management server comprises:

Increase the first transmission control protocol TCP interface, the 2nd TCP interface of communicating by letter with the B interface of power ﹠ environment supervision system at the power resource management server,

And described power resource management server is logined the power ﹠ environment supervision system by described interface and is:

The power resource management server is by TCP interface login power ﹠ environment supervision system;

Described power resource management server driven torus supervisory control system is obtained up-to-date power-equipment data and is:

Obtain up-to-date power-equipment data by the 2nd TCP interface driven torus supervisory control system.

A kind of power-equipment data synchronous system, this system comprises: power resource management server and power ﹠ environment supervision system, wherein, have the interface of communicating by letter with the B interface of power ﹠ environment supervision system on the power resource management server,

The power resource management server sends logging request by described interface to the power ﹠ environment supervision system, and after receiving the login response that the power ﹠ environment supervision system returns, sends data synchronization request to the power ﹠ environment supervision system;

The power ﹠ environment supervision system, receive the logging request that the power resource management server is sent, return login response to the power resource management server, receive the data synchronization request that the power resource management server is sent, up-to-date power-equipment data are returned to the power resource management server.

Described power resource management server further comprises:

Be used for when making up a topological structure take default power-equipment as root node, take this default power-equipment as root node, travel through all power-equipment data, until each node searches less than till the child node, and be that father node, this power-equipment are the module that the rule of child node makes up tree topology according to node under the power-equipment.

Described power resource management server further comprises:

Be used for when making up a topological structure take default power-equipment as root node, send the slave node request of data of carrying default power-equipment title to the power ﹠ environment supervision system, the power-equipment that the power ﹠ environment supervision system is returned is as the module of the search data that makes up topological structure

And, described power ﹠ environment supervision system further comprises: be used for receiving the slave node request of data, the default power-equipment name of carrying with this request is called index, in the up-to-date power-equipment data of self preserving, search for descendants's nodename of this default power-equipment, the power-equipment data of all descendants's nodes of searching are returned to the module of power resource management server.

A kind of power resource management server has a TCP interface, the 2nd TCP interface of communicating by letter with the B interface of power ﹠ environment supervision system on this power resource management server, this power resource management server comprises:

Login module when preset data begins synchronizing cycle, sends logging request by a TCP interface to the power ﹠ environment supervision system, and after receiving the login response that the power ﹠ environment supervision system returns, sends synchronously indication to data simultaneous module;

Data simultaneous module receives synchronously indication, sends data synchronization request by the 2nd TCP interface to the power ﹠ environment supervision system, receives and preserve the power-equipment data that the power ﹠ environment supervision system returns.

Described power resource management server further comprises:

Topological relation makes up module, in the time will making up a topological structure take default power-equipment as root node, take this default power-equipment as root node, the local power-equipment data of preserving of traversal, until each node searches less than till the child node, and be that father node, this power-equipment are that the rule of child node makes up tree topology according to node under the power-equipment.

Described power resource management server further comprises:

The slave node data demand module, in the time will making up a topological structure take default power-equipment as root node, send the slave node request of data of carrying default power-equipment title to the power ﹠ environment supervision system, the power-equipment that the power ﹠ environment supervision system is returned sends to topological relation structure module, so that topological relation makes up module with the search data of these power-equipment data as the structure topological relation.

Compared with prior art, the present invention increases the interface of communicating by letter with the B interface of power ﹠ environment supervision system at the power resource management server, the power resource management server is logined the power ﹠ environment supervision system by described interface, and the driven torus supervisory control system is obtained up-to-date power-equipment data.The present invention has strengthened real-time and the accuracy of the power-equipment data in the power resource management system.

In addition, in the embodiment of the invention, when the power resource management server will make up topological structure take default power-equipment as root node, take this default power-equipment as root node, travel through all power-equipment data, until each node is searched less than till the child node, and be that father node, this power-equipment are that the rule of child node makes up tree according to node under the power-equipment, realize the automatic structure of the topological relation between the power-equipment, and guaranteed real-time and the accuracy of constructed topological relation.

Description of drawings

The power-equipment method of data synchronization flow chart that Fig. 1 provides for the embodiment of the invention;

The method flow diagram of the topological relation between the construction force equipment that Fig. 2 provides for the embodiment of the invention;

The slave node data capture method flow chart that Fig. 3 provides for the embodiment of the invention;

The power-equipment topological structure schematic diagram that Fig. 4 makes up for using the embodiment of the invention;

The power-equipment data synchronous system composition diagram that Fig. 5 provides for the embodiment of the invention;

The structural representation of the power resource management server that Fig. 6 provides for the embodiment of the invention.

Embodiment

The present invention is further described in more detail below in conjunction with drawings and the specific embodiments.

Because dynamic monitoring system can be monitored the power-equipment in core machine room and the base station, newly-built when dynamic equipment in core machine room or the base station, move or when scrapping, power-equipment data in the power ﹠ environment supervision system meeting immediate updating local data base, therefore, can preserve the real time data of power-equipment in the power ﹠ environment supervision system.

The power-equipment method of data synchronization flow chart that Fig. 1 provides for the embodiment of the invention, as shown in Figure 1, its concrete steps are as follows:

Step 100: at transmission control protocol (TCP, the Transmission Control Protocol) interface of power resource management server increase with power ﹠ environment supervision system communication, the TCP interface that increases is linked to each other with the B interface of power ﹠ environment supervision system.

B interface in the power ﹠ environment supervision system is to be exclusively used in the expansion interface of communicating by letter with miscellaneous equipment, and B interface is supported TCP.

In the present embodiment, can increase by two TCP interfaces at the power resource management server, one is used for transmission login related news, and one is used for transmission power-equipment data, establishes the former and is TCP interface 1, and the latter is TCP interface 2.

The power resource management server is arranged in the power resource management system, and its Main Function is to preserve the power-equipment data, and provides the power-equipment data access authority to the power resource administrative client.

Step 101: the power resource management server is found preset data synchronizing cycle to send logging request by TCP interface 1 to the power ﹠ environment supervision system, and user name+password etc. is carried in this request.

Since power-equipment change as: newly-built, move or cycle of scrapping usually all longer, therefore, data synchronizing cycles can week or month is the unit setting, as: can be set to: a week, two weeks, one month etc.

Step 102: the power ﹠ environment supervision system receives logging request from B interface, with each user name+password coupling of the user name+password in the request with self configuration, if on mating, then return login response to the power resource management server.

Step 103: the power resource management server receives login response, sends data synchronization request by TCP interface 2 to the power ﹠ environment supervision system.

When the power resource management server receives login response, the power resource management server links 1 with TCP between the power ﹠ environment supervision system and sets up.

Step 104: power ﹠ environment supervision system receive data synchronization request sends to the power resource management server by B interface with all the power-equipment data in the local data base.

The power ﹠ environment supervision system is when returning login response to the power resource management server, can record the identification information of this power resource resource management server that logins successfully, in this step, after the power ﹠ environment supervision system receives data synchronization request, identification information according to the power resource management server in this request, can learn that this power resource management server logins successfully, thereby the response data synchronization request is returned the power-equipment data to the power resource management server.

System receives data synchronization request when power ﹠ environment supervision, and the power resource management server links 2 with TCP between the power ﹠ environment supervision system and sets up.

Each power-equipment corresponding power-equipment data, the power-equipment data comprise: power-equipment title, power-equipment attribute etc., attribute is such as place, model, capacity, affiliated nodename, slave node number etc.Wherein, the slave node title represents the title of the power-equipment under this power-equipment, and for example: battery A is Switching Power Supply X power supply, and then the affiliated nodename of battery A is: Switching Power Supply X, if it is Switching Power Supply X power supply that four Battery packs are arranged, then the slave node number of Switching Power Supply X is 4.

Step 105: the power resource management server receives the power-equipment data, with the power-equipment data in this power-equipment Data Update local data base.

In this step, when the power resource management server receives the up-to-date power-equipment data that the power ﹠ environment supervision system sends, also can first these up-to-date power-equipment data be saved in the buffer memory, then power-equipment data in these up-to-date power-equipment data and the local data base relatively, thereby define which power-equipment newly-built, the resettlement of which power-equipment arranged or scrap, and with newly-built, move or the power-equipment data of scrapping are shown to the user, subsequently with the power-equipment data in the up-to-date power-equipment Data Update local data base in the buffer memory.Concrete, if appearing in the buffer memory, power-equipment data do not appear in the local data base, can determine that then this power-equipment is newly-built equipment, not appear in the buffer memory if power-equipment data appear in the local data base, determine that then this power-equipment scraps or move.

Step 106: the power resource management server sends the request of logging off by TCP interface 1 to the power ﹠ environment supervision system.

Step 107: the power ﹠ environment supervision system receives the request of logging off, and returns the response of logging off by B interface to the power resource management server.

So far, the power resource management server links 1 with TCP between the power ﹠ environment supervision system and disconnects, and simultaneously, the power resource management server links 2 disconnections with TCP between the power ﹠ environment supervision system.

In actual applications, in order better the power-equipment in the network to be managed, usually need the topological relation between the construction force equipment.

The method flow diagram of the topological relation between the construction force equipment that Fig. 2 provides for the embodiment of the invention, as shown in Figure 2, its concrete steps are as follows:

Step 201: the power resource management server will make up a tree topology take a power-equipment A as root node, then with power-equipment A as the present node title.

Step 202: nodename was the power-equipment data of present node title under the power resource management server was searched in local data base.

Step 203: the power resource management server judges whether to search, if, execution in step 204; Otherwise, execution in step 205.

Step 204: the power resource management server adds the child node title that the power-equipment name in every power-equipment data that search is referred to as present node in the tree to, and with each child node title respectively as the present node title, return step 202.

Step 205: the power resource management server determines that present node is end-node, judges whether that all end-node all find, if, execution in step 207; Otherwise, execution in step 206.

Step 206: the power resource management server continues the current search process.

Step 207: the power resource management server determines that present tree is the tree topology take a power-equipment A as root node that finally obtains, and this flow process finishes.

Because free interval between twice data synchronization process, when the tree that between twice data synchronization process, needs to make up take a power-equipment A as root node, in order to guarantee that constructed tree is accurately, at this moment, the power resource management server can be to the slave node data of up-to-date this power-equipment A of power ﹠ environment supervision system request, specifically as shown in Figure 3:

The slave node data capture method flow chart that Fig. 3 provides for the embodiment of the invention, as shown in Figure 3, its concrete steps are as follows:

Step 301: the power resource management server sends logging request by TCP interface 1 to the power ﹠ environment supervision system, and user name+password etc. is carried in this request.

Step 302: the power ﹠ environment supervision system receives logging request, with the user name of the user name+password in the request and self configuration+password coupling, if on mating, then return login response by B interface to the power resource management server.

Step 303: the power resource management server sends the slave node request of data of carrying power-equipment A title by TCP interface 2 to the power ﹠ environment supervision system.

Step 304: the power ﹠ environment supervision system receives the slave node request of data, and power-equipment A name is referred to as current power-equipment title.

Step 305: nodename was the power-equipment data of current power-equipment title under the power ﹠ environment supervision system was searched in local data base.

Step 306: the power ﹠ environment supervision system judges whether to search, if, execution in step 307; Otherwise, execution in step 308.

Step 307: the power-equipment title in every power-equipment data that the power ﹠ environment supervision system will search is returned step 305 respectively as current power-equipment title.

Step 308: the power ﹠ environment supervision system judges whether that all current power-equipments all search for less than slave node, if, execution in step 310; Otherwise, execution in step 309.

Step 309: power ﹠ environment supervision system continues the slave node of other current power-equipment of search.

Step 310: the power ﹠ environment supervision system determines that search procedure finishes, and every power-equipment data that will search by B interface all return to the power resource management server.

After this, the power resource management server adopts as shown in Figure 2 flow process, can obtain the tree topology take power-equipment A as root node.Need to prove that different from Fig. 2 is, here, the power resource management server is when the search child node, and object search is the power-equipment data that the power ﹠ environment supervision system returns.

Because when making up topological relation, only need use the slave node title in the power-equipment attribute data, therefore, in order to reduce volume of transmitted data, in the step 310, the power-equipment data that the power ﹠ environment supervision system returns to the power resource management server can only comprise: the affiliated nodename of power-equipment title and this power-equipment.

Step 311: the power resource management server sends the request of logging off by TCP interface 1 to the power ﹠ environment supervision system.

Step 312: the power ﹠ environment supervision system receives the request of logging off, and returns the response of logging off by B interface to the power resource management server.

Fig. 4 has provided one with area monitoring center (LSC, Local Supervision Center) is the topological structure schematic diagram of root node, as shown in Figure 4, LSC is root node, its child node is core machine room 2,3, and wherein, the child node of core machine room 2 is for exchanging cabinet 1,2, the child node of core machine room 3 is for exchanging cabinet 3, and the child node that exchanges cabinet 1 is Switching Power Supply, air-conditioning, UPS.

The power-equipment synchro system composition diagram that Fig. 5 provides for the embodiment of the invention, as shown in Figure 5, it mainly comprises: power resource management server 51 and power ﹠ environment supervision system 52, wherein, have TCP interface 1, the TCP interface 2 of communicating by letter with the B interface of power ﹠ environment supervision system on the power resource management server 51:

Power resource management server 51: send logging request by TCP interface 1 to power ﹠ environment supervision system 52, and after receiving the login response that power ﹠ environment supervision system 52 returns, send data synchronization request by TCP interface 2 to power ﹠ environment supervision system 52; Receive and preserve the power-equipment data that power ﹠ environment supervision system 52 returns.

Power ﹠ environment supervision system 52: receive the logging request that power resource management server 51 is sent, return login response to power resource management server 51, receive the data synchronization request that power resource management server 51 is sent, up-to-date power-equipment data are returned to power resource management server 51.

Power resource management server 51 also can comprise: be used for when making up a topological structure take default power-equipment as root node, take this default power-equipment as root node, travel through all power-equipment data, until each node searches less than till the child node, and be that father node, this power-equipment are the module that the rule of child node makes up tree according to node under the power-equipment.

Power resource management server 51 also can comprise: be used for sending the slave node request of data of carrying default power-equipment title to power ﹠ environment supervision system 52, the power-equipment that power ﹠ environment supervision system 52 is returned is as the module of the search data that makes up tree.

And, power ﹠ environment supervision system 52 also comprises: be used for receiving the slave node request of data that power resource management server 51 is sent, the default power-equipment name of carrying with this request is called index, in the up-to-date power-equipment data of self preserving, search for descendants's nodename of this default power-equipment, the power-equipment data of all descendants's nodes of searching are returned to the module of power resource management server 51.

The structural representation of the power resource management server that Fig. 6 provides for the embodiment of the invention, has a TCP interface, the 2nd TCP interface of communicating by letter with the B interface of power ﹠ environment supervision system on this power resource management server, as shown in Figure 6, this power resource management server 51 comprises: login module 511 and data simultaneous module 512, wherein:

Login module 511: when preset data begins synchronizing cycle, send logging request by a TCP interface to power ﹠ environment supervision system 52, and after receiving the login response that power ﹠ environment supervision system 52 returns, send synchronously indication to data simultaneous module 512.

Data simultaneous module 512: receive the synchronous indication that login module 511 is sent, send data synchronization request by the 2nd TCP interface to power ﹠ environment supervision system 52, receive the power-equipment data that power ﹠ environment supervision system 52 returns, with the power-equipment data in this power-equipment Data Update local data base.

Power resource management server 51 also can comprise:

Topological relation makes up module: in the time will making up a topological structure take default power-equipment as root node, take this default power-equipment as root node, the power-equipment data that the traversal local data base is preserved, until each node searches less than till the child node, and be that father node, this power-equipment are that the rule of child node makes up tree topology according to node under the power-equipment.

The power resource management server also can comprise:

Slave node data demand module: in the time will making up a topological structure take default power-equipment as root node, send the slave node request of data of carrying default power-equipment title to power ﹠ environment supervision system 52, the power-equipment that power ﹠ environment supervision system 52 is returned sends to topological relation structure module, so that topological relation makes up module with the search data of these power-equipment data as the structure topological relation.

Power-equipment among the present invention can be the power-equipment in core machine room and/or the base station.

The above only is process of the present invention and embodiment of the method, not in order to limiting the present invention, all any modifications of making within the spirit and principles in the present invention, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. a power-equipment method of data synchronization is characterized in that, increases the interface of communicating by letter with the B interface of power ﹠ environment supervision system at the power resource management server, and the method comprises:

The power resource management server is logined the power ﹠ environment supervision system by described interface, and the driven torus supervisory control system is obtained up-to-date power-equipment data;

The power resource management server will make up a topological structure take default power-equipment as root node, send the slave node request of data of carrying default power-equipment title to the power ﹠ environment supervision system, the power ﹠ environment supervision system receives this request, be called index with this default power-equipment name, in the up-to-date power-equipment data of self preserving, search for descendants's nodename of this default power-equipment, the power-equipment data of all descendants's nodes of searching are returned to the power resource management server, described power-equipment data comprise: the affiliated nodename of power-equipment title and power-equipment, the power resource management server is take this default power-equipment as root node, travel through all power-equipment data, until each node searches less than till the child node, and be father node according to node under the power-equipment, this power-equipment is that the rule of child node makes up tree topology.

2. the method for claim 1 is characterized in that, described method further comprises: preset data synchronizing cycle,

Described power resource management server obtains up-to-date power-equipment data by described interface driven torus supervisory control system:

When preset data began synchronizing cycle, the power resource management server was by described interface, and the driven torus supervisory control system is obtained up-to-date power-equipment data.

3. the method for claim 1 is characterized in that, described interface of communicating by letter with the B interface of power ﹠ environment supervision system in the increase of power resource management server comprises:

Increase the first transmission control protocol TCP interface, the 2nd TCP interface of communicating by letter with the B interface of power ﹠ environment supervision system at the power resource management server,

And described power resource management server is logined the power ﹠ environment supervision system by described interface and is:

The power resource management server is by TCP interface login power ﹠ environment supervision system;

Described power resource management server driven torus supervisory control system is obtained up-to-date power-equipment data and is:

Obtain up-to-date power-equipment data by the 2nd TCP interface driven torus supervisory control system.

4. a power-equipment data synchronous system is characterized in that, this system comprises: power resource management server and power ﹠ environment supervision system, wherein, have the interface of communicating by letter with the B interface of power ﹠ environment supervision system on the power resource management server,

The power resource management server, send logging request by described interface to the power ﹠ environment supervision system, and after receiving the login response that the power ﹠ environment supervision system returns, send data synchronization request to the power ﹠ environment supervision system, when making up a topological structure take default power-equipment as root node, take this default power-equipment as root node, travel through all power-equipment data, until each node searches less than till the child node, and be that father node, this power-equipment are the module that the rule of child node makes up tree topology according to node under the power-equipment;

The power ﹠ environment supervision system, receive the logging request that the power resource management server is sent, return login response to the power resource management server, receive the data synchronization request that the power resource management server is sent, up-to-date power-equipment data are returned to the power resource management server

Described power resource management server further comprises:

Be used for when making up a topological structure take default power-equipment as root node, send the slave node request of data of carrying default power-equipment title to the power ﹠ environment supervision system, the power-equipment that the power ﹠ environment supervision system is returned is as the module of the search data that makes up topological structure

And, described power ﹠ environment supervision system further comprises: be used for receiving the slave node request of data, the default power-equipment name of carrying with this request is called index, in the up-to-date power-equipment data of self preserving, search for descendants's nodename of this default power-equipment, the power-equipment data of all descendants's nodes of searching are returned to the module of power resource management server.

5. a power resource management server is characterized in that, has a TCP interface, the 2nd TCP interface of communicating by letter with the B interface of power ﹠ environment supervision system on this power resource management server, and this power resource management server comprises:

Login module when preset data begins synchronizing cycle, sends logging request by a TCP interface to the power ﹠ environment supervision system, and after receiving the login response that the power ﹠ environment supervision system returns, sends synchronously indication to data simultaneous module;

Data simultaneous module receives synchronously indication, sends data synchronization request by the 2nd TCP interface to the power ﹠ environment supervision system, receives and preserve the power-equipment data that the power ﹠ environment supervision system returns;

Topological relation makes up module, in the time will making up a topological structure take default power-equipment as root node, take this default power-equipment as root node, the local power-equipment data of preserving of traversal, until each node is searched less than till the child node, and be that father node, this power-equipment are that the rule of child node makes up tree topology according to node under the power-equipment

Described power resource management server further comprises:

The slave node data demand module, in the time will making up a topological structure take default power-equipment as root node, send the slave node request of data of carrying default power-equipment title to the power ﹠ environment supervision system, the power-equipment that the power ﹠ environment supervision system is returned sends to topological relation structure module, so that topological relation makes up module with the search data of these power-equipment data as the structure topological relation.

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