KR20160021667A - Apparatus and method for extracting relationship between intelligent electronic devices of digital substation - Google Patents

Abstract

The present invention relates to an apparatus and a method for extracting an associative relationship between intelligent electronic devices (IEDs) in a digital substation. The apparatus for extracting an associative relationship between IEDs in a digital substation comprises: a file management unit to collect and store an IED composition file from a plurality of IEDs disposed in a digital substation; an IED associative relationship table generation unit to generate an associative relationship table showing an associative relationship between the IEDs based on the IED composition file to provide the associative relationship table on a user screen; and an IED rearrangement unit to calculate complexity based on the positions of the IEDs arranged in the associative relationship table to reconfigure the arranged positions of the IEDs in the associative relationship table.

Description

[0001] APPARATUS AND METHOD FOR EXTRACTING RELATIONSHIP BETWEEN INTELLIGENT ELECTRONIC DEVICES OF DIGITAL SUBSTATION [0002]

The present invention relates to an apparatus and method for extracting association between IEDs in a digital substation and more particularly to a system and a method for extracting an association between IEDs and Intelligent Electronic Devices The present invention relates to an apparatus and method for extracting association between IEDs in a digital substation.

In the conventional analog substation, engineering work of various power facilities was performed depending on manual operation of complex cable connection, and engineering work of substation took a long time. There is a possibility of human error such as misconnection by manual work, There was a need to do work.

In order to solve these problems, IEC 61850 based digital substation was implemented that implemented the cable connection with fiber optic cable and realized the physical contact point of auxiliary relay for various control by logic circuit. With the introduction of digital substations, the problem of reliability of existing analog substations can be solved and the recovery time due to cabling can be shortened.

However, digital substations had to produce, edit, and engineer the files on a text-based basis, so engineers at digital substations had difficulty in performing engineering tasks until they had acquired expert knowledge of the IEC 61850 international standard.

Meanwhile, the SSD (System Specification Description) among the configuration files used in the engineering of the digital substation provides a single line diagram (SLD) related to the configuration information of the substation. However, such a disconnection diagram is provided on a text basis, and it can not be widely used because it provides only a disconnection function in an engineering work of an actual substation.

Therefore, there is a need for a technology for automation of digital substations that can manage the completion and functional testing and maintenance of digital substations as well as IEC 61850 engineering based on the disconnection diagrams implemented with graphical scalability.

In this regard, Korean Patent Laid-Open Publication No. 2013-0019228 discloses an apparatus and method for automation of a digital substation.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and provides an apparatus and method for extracting association between IEDs in a digital substation that describes an association relationship between message exchanges between IEDs in a SCD (Substation Configuration Description) file, There is a purpose.

It is another object of the present invention to provide an apparatus and method for extracting association between IEDs in a digital substation that generates a correlation diagram between IEDs in a digital substation based on an SCD file.

It is another object of the present invention to provide an apparatus and method for extracting a correlation between IEDs in a digital substation in which the complexity between IEDs is calculated and the position of the IEDs is arranged in the degree of association.

According to another aspect of the present invention, there is provided an apparatus for extracting association between IEDs in a digital substation, comprising: a file manager for collecting and storing IED configuration files from a plurality of IEDs provided in a digital substation; An IED relationship diagram generating unit for generating an association diagram indicating a relation between a plurality of IEDs based on the IED configuration file and providing the relation diagram to a user screen; And an IED relocation unit for calculating the complexity based on the plurality of IED positions disposed in the association diagram and resetting the placement positions of the plurality of IEDs in the association diagram.

In addition, the file management unit includes an SSD file including the configuration information of the digital substation, an SCD file including setting information of the IED, an ICD file including function information of the IED, and a CID file including operation information of the IED And collecting the IED configuration file.

The file management unit may store the location information in the SCD file of each of the plurality of IEDs after the resetting of the locations of the plurality of IEDs is completed.

The IED relationship diagram generator may include a subscription distribution processor for deriving data distribution and subscription relationships between the plurality of IEDs based on the collected IED configuration file; An IED arrangement unit for extracting an association between a plurality of IEDs based on the derived data distribution and subscription relationship and setting a placement position of a plurality of IEDs according to the extracted association; A generating unit for generating an association degree based on the set placement position; And a display unit for providing the generated association graph to a user screen.

Also, the generator may generate an association diagram based on the arrangement position reset by the IED relocation unit.

Also, the IED relocation unit may include: an arrangement generating unit for generating a placement arrangement in which positions of a plurality of IEDs arranged in rows and columns are arranged in an association diagram, and an association arrangement for associating relationships between a plurality of IEDs; A first complexity calculator for calculating a first complexity based on the generated arrangement; A second complexity calculating a second complexity based on a placement arrangement in which arbitrary IEDs and points are selected from the placement array, the positions of the selected IEDs and points are mutually changed, and the positions of a plurality of IEDs changed in position are indicated by rows and columns A calculating unit; And a resetting unit comparing the complexity before and after the position change and resetting the arrangement positions of the two IEDs based on the comparison result.

Also, the first complexity calculator may combine predetermined complexity values according to the case where another IED associated with the reference IED is located on the right or left side of the reference IED, or in the same row, or in the upper row or the lower row Calculating a connection complexity between the first and second communication terminals, and calculating a first complexity based on the arrangement arrangement by summing all the connection complexities calculated among the connection complexities.

Also, the second complexity calculator may calculate the connection complexity of the IEDs by summing predetermined complexity values according to the case where the selected points are located on the right or left side of the arbitrarily selected IED, or in the same row or in the upper row or the lower row And calculating a second complexity based on the arrangement arrangement by summing all the connection complexities calculated between the first and second complexities.

In addition, if other IEDs associated with the reference IED are located in the right and bottom rows of the IED that is the basis, the complexity value previously determined along the right side and the predetermined complexity value according to the following row are added together to determine the other And the connection complexity between the IEDs is calculated.

The first complexity calculator repeatedly calculates the first complexity until the first complexity is less than or equal to the predetermined target complexity.

In addition, the resetting unit compares the first complexity before the position change and the second complexity after the position change. If the second complexity is lower than the first complexity, the resetting unit resets the placement positions of the two IEDs after the change, And the arrangement positions of the two IEDs are not changed when the complexity is high.

According to another aspect of the present invention, there is provided a method of extracting an IED association file from a plurality of intelligent electrical devices (IEDs) provided in a digital substation by a file collection unit, Generating an association diagram indicating a relationship between a plurality of IEDs based on the IED configuration file by the IED association diagram generation unit and providing the association diagram to a user screen; And a step of calculating the complexity based on the plurality of IED positions arranged in the degree of association by the IED relocation unit and resetting the placement positions of the plurality of IEDs in the degree of association relationship.

The step of collecting an IED configuration file from a plurality of IEDs may include an SSD file containing configuration information of the digital substation, an SCD file containing configuration information of the IED, and an ICD A file and an IED configuration file including a CID file including operation information of the IED.

The step of generating and providing the relationship diagram to a user screen may include deriving a data distribution and a subscription relationship between the plurality of IEDs based on the collected IED configuration file; Extracting a relationship between a plurality of IEDs based on the derived data distribution and subscription relationship, and setting a placement position of a plurality of IEDs according to the extracted association; Generating an association diagram based on the set placement location; And providing the generated degree of association to a user screen.

The step of generating an association degree based on the set placement position is characterized in that the degree of association is generated based on the placement position reset by the IED relocation unit.

The step of resetting the placement positions of the plurality of IEDs includes the steps of: generating a placement arrangement in which positions of a plurality of IEDs arranged in association relationship diagrams are indicated by rows and columns; Calculating a first complexity based on the generated placement arrangement; Calculating a second complexity based on a placement arrangement in which an arbitrary IED and a point are selected in a placement arrangement, mutual positions of the selected IED and a point are mutually changed, and a position of a plurality of IEDs changed in position is indicated by rows and columns; Comparing the complexity before and after the position change, and resetting the placement positions of the two IEDs based on the comparison result.

In addition, the step of calculating the first complexity may further include calculating a first complexity based on a case where another IED associated with the reference IED is located on the right or left side of the IED as the reference, And calculating a first complexity based on the arrangement arrangement by summing the connection complexities calculated between the connection complexities.

The step of calculating the second complexity may further include calculating a second complexity by summing predetermined complexity values according to the case where the selected point is located on the right or left side of the arbitrarily selected IED or in the same row or in the upper row or the lower row, Calculating a connection complexity, and calculating a second complexity based on the arrangement arrangement by summing all the connection complexities calculated among the connection complexities.

The step of resetting the placement positions of the two IEDs based on the comparison result includes comparing the first complexity before the position change and the second complexity after the position change so that when the second complexity is lower than the first complexity, And when the second complexity is higher than the first complexity, the arrangement positions of the two IEDs are not changed.

The apparatus and method for extracting the association between IEDs in a digital substation according to the present invention having the above-described structure can be realized by describing the association between messages exchanged between IEDs in a SCD (Substation Configuration Description) file, The relationship between the IEDs in the digital substation can be easily grasped by automatically generating and providing the relationship diagram between the IEDs.

In addition, the present invention has an effect of easily analyzing a correlation between IEDs in a digital substation by calculating the complexity between IEDs and arranging the positions of IEDs in the degree of association.

FIG. 1 is a diagram for explaining a configuration of an inter-IED association extracting apparatus in a digital substation according to the present invention.
FIG. 2 is a diagram for explaining a detailed configuration of an IED relationship diagram generation unit employed in an apparatus for extracting association between IEDs in a digital substation according to the present invention.
3 is a diagram for explaining a detailed configuration of an IED relocation unit employed in an apparatus for extracting association between IEDs in a digital substation according to the present invention.
4 is a diagram for explaining calculation of the first complexity based on the generated placement arrangement and association arrangement.
5 is a diagram for explaining calculation of the second complexity based on the changed arrangement arrangement.
FIG. 6 is a diagram for explaining an association relationship between IEDs provided on a user screen according to the present invention.
FIG. 7 is a diagram for explaining an association relationship between IEDs whose placement positions are provided on a user screen according to the present invention.
FIG. 8 is a diagram for explaining a procedure of a method for extracting the association between IEDs in a digital substation according to the present invention.
FIG. 9 is a flowchart for explaining the order of creation of the relationship diagram in FIG. 8 in detail.
FIG. 10 is a flowchart for explaining the IED placement position reset procedure in detail in the association diagram of FIG. 8; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention. . First, in adding reference numerals to the constituents of the drawings, it is to be noted that the same constituents are denoted by the same reference symbols as possible even if they are displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, an apparatus and method for extracting association between IEDs in a digital substation according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a diagram for explaining a configuration of an inter-IED association extracting apparatus in a digital substation according to the present invention.

1, the apparatus for extracting the inter-IED relationship among digital substations according to the present invention includes a file management unit 110, an IED relationship diagram generation unit 120, and an IED relocation unit 130 do.

The file management unit 110 collects and stores IED configuration files from a plurality of IEDs (Intelligent Electrical Devices) provided in the digital substation. The file management unit 110 includes an SSD file including the configuration information of the digital substation, an SCD file including setting information of the IED, an ICD file including the function information of the IED, and an IED Collect configuration files. In addition, the file management unit 110 stores the placement position information in the SCD file of each of the plurality of IEDs when the placement of the plurality of IEDs is completed.

The IED relationship diagram 120 is generated based on the IED configuration file to generate a relation diagram indicating the relationship between the plurality of IEDs and provides the relation diagram to the user screen 10. Based on the collected IED configuration file, the IED relationship diagram 120 derives data distribution and subscription relationships among a plurality of IEDs, extracts association relationships between a plurality of IEDs based on the derived data distribution and subscription relationship, Sets the placement positions of a plurality of IEDs according to the association relationship, and provides the relationship diagram generated based on the set placement position on the user screen. In addition, the IED relocation unit 130 provides an association diagram based on the reconfigured placement position on the user screen.

The IED relocation unit 130 calculates the complexity based on the plurality of IED positions arranged in the degree of association relation, and resets the placement positions of a plurality of IEDs in the degree of association relationship. The IED relocation unit 130 generates an associative array for associating relationships between a plurality of IEDs and a placement arrangement in which the positions of a plurality of IEDs arranged in rows and columns are arranged in association diagrams, A second complexity is calculated based on a layout arrangement in which the positions of two selected IEDs are changed and the positions of a plurality of IEDs changed in position are indicated by rows and columns, And the placement positions of the two IEDs are reset based on the comparison result.

FIG. 2 is a diagram for explaining a detailed configuration of an IED relationship diagram generation unit employed in an apparatus for extracting association between IEDs in a digital substation according to the present invention.

Referring to FIG. 2, an IED relationship diagram 120 according to the present invention generates an association diagram indicating a relationship between a plurality of IEDs based on the IED configuration file, and provides the generated relationship diagram to a user screen.

To this end, the IED relationship diagram 120 includes a subscription distribution processing unit 121, an IED arrangement unit 122, a generation unit 123, and a display unit 124.

The subscription distribution processing unit 121 derives a data distribution and a subscription relationship between a plurality of IEDs based on the collected IED configuration file. Generally, 10 to 100 IEDs are installed in one digital substation, and since a large amount of data is subscribed and distributed among a plurality of IEDs, it is important to derive distribution and subscription relationships among them.

The IED placement unit 122 extracts the association between a plurality of IEDs based on the derived data distribution and subscription relationship, and sets the placement positions of a plurality of IEDs according to the extracted association relationship.

The generation unit 123 generates the degree of association based on the set placement position. The generator generates an association diagram based on the placement location reset by the IED relocation unit.

The display unit 124 provides the generated association diagram to the user screen. The display unit provides the generated association relation based on the placement position reset through the IED relocation unit to the user screen.

3 is a diagram for explaining a detailed configuration of an IED relocation unit employed in an apparatus for extracting association between IEDs in a digital substation according to the present invention.

Referring to FIG. 3, the IED relocation unit 130 according to the present invention calculates the complexity based on the plurality of IED positions arranged in the association diagram, and reorders the placement positions of a plurality of IEDs in the association diagram.

To this end, the IED relocation unit 130 includes an arrangement generation unit 131, a first complexity calculation unit 132, a second complexity calculation unit 133, and a resetting unit 134.

The array generating unit 131 generates a layout array in which the positions of a plurality of IEDs arranged in rows and columns are arranged in an association diagram, and an association array of association relationships between a plurality of IEDs.

The first complexity calculation unit 132 calculates the first complexity based on the generated arrangement arrangement. The first complexity calculator 132 may calculate a predetermined complexity value according to the case where another IED associated with the reference IED is located on the right or left side of the IED as the reference or in the same row or in the upper row or the lower row Calculates the connection complexity of the mutual connections, and calculates the first complexity based on the arrangement arrangement by summing all the connection complexities calculated among the connection complexities. That is, when the other IED associated with the reference IED is located in the right and lower rows of the reference IED, the first complexity calculator 132 calculates a complexity value predetermined according to the right side and a predetermined complexity value according to the lower row To calculate the connection complexity between the reference IED and other IEDs associated with it. The first complexity calculator 132 calculates the first complexity by repeating the process until the first complexity is less than or equal to the predetermined target complexity. A method of calculating the first complexity will be described in detail later with reference to FIG. Here, the complexity means time complexity.

The second complexity calculator 133 selects an arbitrary IED and a point in the arrangement, mutually changes the position of the selected IED and the point, and based on the arrangement arrangement in which the positions of the plurality of IEDs changed in position are indicated by rows and columns And calculates the second complexity. The second complexity calculator 133 combines the predetermined complexity values according to the case where the selected point is located on the right or left side of the arbitrarily selected IED or in the same row or the upper row or the lower row, And calculates the second complexity on the basis of the arrangement arrangement by summing all the connection complexities calculated mutually. A method for calculating the second complexity will be described in detail later with reference to FIG.

The resetting unit 134 compares the complexity before and after the position change and resets the placement positions of the two IEDs based on the comparison result. The resetting unit 134 compares the first complexity before the position change and the second complexity after the position change and resets the placement positions of the two IEDs after the change when the second complexity is lower than the first complexity, 2 If the complexity is high, do not change the placement of the two IEDs.

4 is a diagram for explaining calculation of the first complexity based on the generated placement arrangement and association arrangement.

Referring to FIG. 4, an arrangement for displaying the basic layout of the IED is created through the arrangement setting unit 131. FIG. The placement array shows the IED number at the location where the IED is placed and 0 at the empty location. It also creates an associative array that represents the association of the IEDs. The associative array is represented by the IED numbers associated with the IED number. For example, a placement array and an associative array indicating the degree of association composed of four IEDs are shown in FIG.

A method for calculating the first complexity for such an arrangement is as follows.

If the connected IED is located on the right side of the (reference) IED to be calculated, the complexity is increased by 2 for each drop, and if it is on the left, the complexity is increased by 8. Even if they are on the same line, the complexity is 8. It is down and increases by 1. If it is up, it increases by 1.1. If the IED associated with the reference IED is on the same line and the other IED does not block it, the calculated complexity is reduced by 2/3, and if the other IED is blocked, the calculated complexity is increased by 4/3. Therefore, the complexity of the above arrangement array and connection array is calculated as follows.

○ IED # 1 and IED # 2 connection complexity: width 2 + length 1 = 3

○ IED # 2 and IED # 3 connection complexity: 2 + 1 + 3

○ IED # 2 and IED # 4 connection complexity: 16 + 0 = 16

IED # 3 and IED # 4 Connectivity Complexity: Width 24 + length 1.1 = 25.1

Total complexity: 3 + 3 + 16 + 25.1 = 47.1

In this case, the horizontal direction is the right direction, and the vertical direction means the lower row.

Thus, the first complexity is 47.1.

To repeat the first complexity until it is equal to or less than the predetermined target complexity, a variable T is created and initialization is set to 1000, and the complexity calculation is repeated. The T value is reduced by 5% each time it is repeated. Finally, if the T value becomes smaller than 0.01, the iteration of the complexity calculation is stopped.

At this time, once the T value is changed, the first complexity calculation is repeated five times the number of IEDs.

5 is a diagram for explaining calculation of the second complexity based on the changed arrangement arrangement.

Referring to FIG. 5, an arbitrary two points are selected in the arrangement arrangement. In this case, the IED must exist in one of the two points. Exchange IED positions at two points. For example, if (1,2) and (4,2) are previously set in the arrangement arrangement used in FIG. 4, the setting is changed as shown in FIG.

The second complexity is calculated for the modified placement array.

○ IED # 1 and # 2: horizontal 2 + vertical 1 = 3

○ IED # 2 and # 3: horizontal 2 + vertical 1 = 3

○ IED # 2 and # 4: (width 2 × 2/3 (If you are on the same horizontal line,

Lower)) + height 0 = 1.3

○ IED # 3 and # 4: horizontal 8 (same vertical line) + vertical 1.1 = 9.1

Total complexity: 3 + 3 + 1.3 + 9.1 = 16.4

In this case, the horizontal direction is the right direction, and the vertical direction means the lower row.

Thus, the second complexity is 16.4.

here. Since the second complexity (the complexity after the position change) is 16.4 and the first complexity (the complexity before the position change) is less than 47.1, the second complexity calculation is repeated using the changed arrangement array. If the second complexity is larger than the first complexity, that is, if the complexity increases within an allowable range, the second complexity calculation is repeated using the rearranged arrangement arrangement at this time.

Whether the increase in complexity is allowed or not is judged using Kirkpatrick's 1985 Simulated Annealing calculation. If T is 10, the first complexity is 30. If the second complexity is increased to 40, the probability of allowing the complexity increase is 0.36. Therefore, when a random value between 0 and 1 is generated and a random value lower than 0.36 is generated, the complexity is increased and the second complexity calculation is repeated.

Here, the expression for the probability of increasing the complexity (Kirkpatrick's method of calculating the simulated annealing) is exp {- (second complexity - first complexity) / T} and the allowable probability for increasing the complexity from 30 to 40 = Exp {- (40-30) / 10} = exp (-1) = 0.36. At this time, if a random value higher than 0.36 is generated, the placement array is returned to its original state before the position change, and the second complexity calculation is repeated.

FIG. 6 is a view for explaining an association relationship between IEDs provided on a user screen according to the present invention. FIG. 7 is a view for explaining a relation relationship between IEDs provided in a user screen according to the present invention, FIG.

FIG. 6 shows that 37 IEDs are arranged in an arbitrary order, and the relationship between the IEDs is complicated, and it is not easy to grasp the relationship. Accordingly, the present invention generates an association diagram for the IED and applies a placement location resetting function so that the association can be grasped more easily as shown in FIG.

FIG. 8 is a diagram for explaining a procedure of a method for extracting the association between IEDs in a digital substation according to the present invention.

Referring to FIG. 8, the method for extracting the association between IEDs in a digital substation according to the present invention uses the above-described IED inter-association extracting apparatus in a digital substation, and a detailed description thereof will be omitted.

First, an IED configuration file is collected and stored from a plurality of IEDs provided in the digital substation (S100). In step S100, the SSD file including the configuration information of the digital substation, the SCD file including the setting information of the IED, the ICD file including the function information of the IED, and the IED configuration file including the CID file including the operation information of the IED And when the resetting of the placement positions of the plurality of IEDs is completed, the placement position information is stored in the SCD file of each of the plurality of IEDs.

Next, based on the IED configuration file, an association diagram indicating a relationship between a plurality of IEDs is generated (S110). In step S110, based on the collected IED configuration file, a data distribution and a subscription relationship among a plurality of IEDs are derived, a relation between a plurality of IEDs is extracted based on the derived data distribution and subscription relationship, IED placement position, and an association degree is created based on the set placement position.

Next, the complexity is calculated based on the plurality of IED positions arranged in the degree of association, and the placement positions of the plurality of IEDs in the degree of association are reset (S120).

Next, the degree of association generated based on the set placement position is provided to the user screen (S130).

FIG. 9 is a flowchart for explaining the order of creation of the relationship diagram in FIG. 8 in detail.

Referring to FIG. 9, first, a data distribution and a subscription relationship between a plurality of IEDs are derived based on the collected IED configuration file (S200).

Next, based on the derived data distribution and subscription relationship, an association relationship between a plurality of IEDs is extracted, and a plurality of IED placement positions are set according to the extracted association (S210).

Next, an association degree is generated based on the set placement position (S220).

FIG. 10 is a flowchart for explaining the IED placement position reset procedure in detail in the association diagram of FIG. 8; FIG.

Referring to FIG. 10, first, a placement array in which the positions of a plurality of IEDs arranged in rows and columns are arranged in a relation diagram and an association array of association relationships between a plurality of IEDs are generated (S300).

Next, the first complexity is calculated based on the generated arrangement array (S310). Step S310 is a step of calculating the connection complexity of the other IEDs by summing the predetermined complexity values when the other IEDs associated with the reference IED are located on the right or left or the same row or the upper row or the lower row of the reference IED And calculates the first complexity on the basis of the arrangement arrangement by summing all of the calculated connection complexities.

Next, the arbitrary two IEDs are selected from the arrangement array, the positions of the selected two IEDs are mutually changed, and the second complexity is calculated based on the placement array in which the positions of the plurality of IEDs are displayed in rows and columns (S320) . In step S320, one of two arbitrarily selected IEDs is set as a reference IED, and when the remaining IED is located on the right or left side of the reference IED or in the same row or in the upper row or the lower row, Calculates a connection complexity between the calculated complexity values, and calculates a second complexity based on the arrangement arrangement by summing all of the connection complexity calculated among the calculated connection complexities.

Next, the complexity before and after the position change is compared (S330). Step S330 compares the first complexity before the position change and the second complexity after the position change.

Next, if the second complexity is lower than the first complexity, the placement positions of the two IEDs are reset after the change. If the second complexity is higher than the first complexity, the placement positions of the two IEDs are not changed (S340, S350).

In this manner, the degree of association generated based on the set placement position is provided to the user screen.

As described above, the apparatus and method for extracting the association between IEDs in a digital substation according to the present invention describe an association relationship between message exchanges between IEDs in a SCD (Substation Configuration Description) file, The IEDs in the digital substations can be easily identified.

In addition, the present invention can easily analyze the association between IEDs in a digital substation by calculating the complexity between IEDs and locating the location of the IEDs in the degree of association.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art without departing from the scope of the appended claims. As will be understood by those skilled in the art.

100: Relation extraction device between IEDs in digital substation
110: File manager
120: IED relationship diagram generator
130: IED relocation unit

Claims (19)

A file management unit for collecting and storing IED configuration files from a plurality of Intelligent Electrical Devices (IEDs) provided in the digital substation;
An IED relationship diagram generating unit for generating an association diagram indicating a relation between a plurality of IEDs based on the IED configuration file and providing the relation diagram to a user screen; And
An IED relocation unit for calculating a complexity on the basis of a plurality of IED positions disposed in the association diagram and resetting the placement positions of the plurality of IEDs in the association diagram;
And an IED extracting unit for extracting an association between the IEDs in the digital substation. The method according to claim 1,
The file management unit includes an SSD file including the configuration information of the digital substation and an IED configuration including an SCD file including setting information of the IED, an ICD file including the function information of the IED, and a CID file including operation information of the IED Wherein the IED extraction unit collects the IEDs in the digital substation. The method according to claim 1,
Wherein the file management unit stores the location information in the SCD file of each of the plurality of IEDs when the resetting of the locations of the plurality of IEDs is completed. The method according to claim 1,
Wherein the IED relationship diagram generator comprises:
A subscription distribution processor for deriving data distribution and subscription relationships among a plurality of IEDs based on the collected IED configuration files;
An IED arrangement unit for extracting an association between a plurality of IEDs based on the derived data distribution and subscription relationship and setting a placement position of a plurality of IEDs according to the extracted association;
A generating unit for generating an association degree based on the set placement position; And
A display unit for providing the generated association diagram to a user screen;
And an IED extracting unit for extracting an association between the IEDs in the digital substation. 5. The method of claim 4,
Wherein the generation unit generates an association relation based on the placement location reset by the IED relocation unit. The method according to claim 1,
The IED relocation unit,
An array generating unit for generating a plurality of IEDs arranged in rows and columns and a plurality of associative arrays for associating the plurality of IEDs;
A first complexity calculator for calculating a first complexity based on the generated arrangement;
A second complexity calculating a second complexity based on a placement arrangement in which arbitrary IEDs and points are selected from the placement array, the positions of the selected IEDs and points are mutually changed, and the positions of a plurality of IEDs changed in position are indicated by rows and columns A calculating unit; And
A resetting unit for comparing the complexity before and after the position change and resetting the placement positions of the two IEDs based on the comparison result;
And an IED extracting unit for extracting an association between the IEDs in the digital substation. The method according to claim 6,
The first complexity calculator may calculate the first complexity by summing predetermined complexity values according to the case where the other IED associated with the reference IED is located on the right or left side of the IED as the reference, Calculating connection complexity, and summing all the connection complexities calculated to calculate a first complexity based on the arrangement arrangement. The method according to claim 6,
The second complexity calculator calculates the connection complexity of the IEDs by summing predetermined complexity values according to the case where the selected points are located on the right or left side of the arbitrarily selected IED or in the same row or in the upper row or the lower row And calculating a second complexity based on the arrangement arrangement by summing all the connection complexities calculated between the IEDs in the digital substation. 8. The method of claim 7,
If other IEDs associated with the reference IED are located in the right and bottom rows of the IED that is the reference, then the complexity value previously determined along the right side and the predetermined complexity value according to the following row are added together to form a reference between the other IEDs associated with the reference IED And calculating the connection complexity of the IED in the digital substation. 9. The method of claim 8,
Wherein the first complexity calculator repeatedly calculates the first complexity until the first complexity is less than or equal to a preset target complexity. 9. The method of claim 8,
Wherein the resetting unit compares the first complexity before the position change and the second complexity after the position change to reset the placement positions of the two IEDs after the change when the second complexity is lower than the first complexity, And the arrangement position of the two IEDs is not changed when the number of IEDs is high. Collecting an IED configuration file from a plurality of Intelligent Electrical Devices (IEDs) provided in the digital substation by the file collection unit;
Generating an association diagram indicating a relationship between a plurality of IEDs based on the IED configuration file by the IED association diagram generation unit and providing the association diagram to a user screen; And
Calculating a complexity based on a plurality of IED positions arranged in the degree of association by the IED relocation unit and resetting the placement positions of the plurality of IEDs in the degree of association;
Wherein the IED includes a plurality of IEDs. 13. The method of claim 12,
Collecting an IED configuration file from a plurality of Intelligent Electrical Devices (IEDs)
An SSD file including the configuration information of the digital substation, an SCD file including setting information of the IED, an ICD file including the function information of the IED, and an IED configuration file including the CID file including the operation information of the IED The method comprising the steps of: extracting an association relationship between IEDs in a digital substation; 13. The method of claim 12,
The step of generating an association diagram and providing the association diagram to a user screen includes:
Deriving a data distribution and a subscription relationship between a plurality of IEDs based on the collected IED configuration file;
Extracting a relationship between a plurality of IEDs based on the derived data distribution and subscription relationship, and setting a placement position of a plurality of IEDs according to the extracted association;
Generating an association diagram based on the set placement location; And
Providing the generated association degree to a user screen;
Wherein the IED includes a plurality of IEDs. 15. The method of claim 14,
The step of generating an association diagram based on the set placement location comprises:
Wherein the IED relocation unit generates an association degree based on the placement location reset by the IED relocation unit. 13. The method of claim 12,
The step of resetting the placement positions of the plurality of IEDs includes:
Generating an association array for associating relationships between a plurality of IEDs arranged in rows and columns and a plurality of IEDs arranged in association diagrams;
Calculating a first complexity based on the generated placement arrangement;
Calculating a second complexity based on a placement arrangement in which an arbitrary IED and a point are selected in a placement arrangement, mutual positions of the selected IED and a point are mutually changed, and a position of a plurality of IEDs changed in position is indicated by rows and columns;
Comparing the complexity before and after the position change, and resetting the placement positions of the two IEDs based on the comparison result;
Wherein the IED includes a plurality of IEDs. 17. The method of claim 16,
The step of calculating the first complexity includes:
Calculating the connection complexity of the other IEDs by summing the predetermined complexity values when the other IEDs associated with the reference IEDs are located on the right or left side of the reference IED or in the same row or in the upper row or the lower row, And calculating the first complexity based on the arrangement arrangement by summing all the connection complexities calculated between the IEDs in the digital substation. 17. The method of claim 16,
The step of calculating the second complexity includes:
The connection complexity is calculated by summing predetermined complexity values according to the case where the selected point is located on the right or left side of the randomly selected IED or the same row or the upper row or the lower row, And the second complexity based on the arrangement arrangement is calculated by summing up the complexity of the IEDs in the digital substation. 17. The method of claim 16,
Resetting the placement positions of the two IEDs based on the comparison result,
The first complexity before the position change and the second complexity after the position change are compared. When the second complexity is lower than the first complexity, the placement positions of the two IEDs are reset after the change. When the second complexity is higher than the first complexity, And the location of the IED in the digital substation is not changed.

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