KR102505181B1 - User based interface screen display apparatus and method for nuclear power plant - Google Patents

Abstract

According to a preferred embodiment of the present invention, a user-based interface screen display device for a nuclear power plant comprises: a log collection unit that collects control behavior logs of a user related to operations of facilities in a nuclear power plant; an interface setting unit configured to set a user-based interface screen based on the control behavior logs of the user; and a control unit controlling a display unit to display the user-based interface screen when authentication of the user is completed.

Description

User-based interface screen display device and method for nuclear power plants {USER BASED INTERFACE SCREEN DISPLAY APPARATUS AND METHOD FOR NUCLEAR POWER PLANT}

The present invention relates to a user-based interface screen display device and method for a nuclear power plant.

Conventionally, the control room of a nuclear power plant is operated in a manner of displaying information of various monitors constituting a monitoring system of a nuclear power plant and various controllers constituting a control system according to an analog method. And in the case of the conventional method, the information of the monitor and controller is expressed in the form of a nuclear power plant system-based mimic so that the user can operate the monitor and controller, or information in the form of a single sensor and single indicator It is provided to the user so that the user can drive according to the procedure.

Meanwhile, with the development of technology, current nuclear power plant control rooms can use VDU (Visual Display Unit) type monitoring and control equipment. In this case, since the VDU monitoring and control equipment can display information of a plurality of different monitors and controllers through a plurality of screen pages displayed through one display unit, the user can sit down and view the information of the monitors and controllers. make it possible to check Accordingly, the current control room has a compact design characteristic of a seated type, which minimizes the user's movement and enables the operation of the plurality of monitors and controllers even in a seated state, so that the user's macro job It can greatly contribute to enhancing performance.

Meanwhile, information of the monitor and controller is configured based on P&ID (Piping and Instrumentation Diagram). In addition, when information configured in the P&ID method is displayed through a VDU having a display space limitation, it may be implemented in a form having a hierarchical structure.

Accordingly, in order to confirm necessary information, the user may search for necessary information in a manner such as information navigation, in addition to direct duties such as monitoring, diagnosis, and action duties.

Therefore, in order for the user to check necessary information and operate the monitor or controller, additional tasks such as cruising the information are further required.

The information display device of the current domestic digital-based nuclear power plant control room requires users to perform additional tasks such as cruising the information, and such additional tasks may cause delays in the user's reaction time and difficulties in maintaining cognitive context. can

In addition, such delay in reaction time and difficulty in maintaining cognitive context become factors that can cause errors by users in situations such as emergencies.

Therefore, it is necessary to design the structure and visualization of information based on the analysis and understanding of the user's work domain.

Republic of Korea Patent No. 110-15538911

Therefore, the present invention has been made in view of the above circumstances, and provides a user-based interface screen display device and method for a nuclear power plant that improves work efficiency by analyzing user control logs for a predetermined period and setting a user-based interface screen. aims to

A user-based interface screen display device for a nuclear power plant according to a preferred embodiment of the present invention for achieving the above object includes a log collection unit for collecting a user's control behavior log related to the operation of facilities in a nuclear power plant; an interface setting unit configured to set a user-based interface screen based on the control action log of the user; and a control unit controlling the display unit to display the user-based interface screen when the authentication of the user is completed.

The control action log may include the user's search frequency, search time, search period, control frequency, control time, and control period for facilities in the nuclear power plant for a predetermined time.

The interface setting unit configures equipment zones on the user-based interface screen to have equipment objects having large sizes in the order of the search frequency, the search time, the search period, the control frequency, the control time, and the control period. can be set

The interface setting unit may set facility zones on the user-based interface screen for each predetermined safety level of facilities in the nuclear power plant.

The safety class includes a first safety class including a pressure-resistant part and a support structure of a facility constituting a reactor coolant pressure boundary, a pressure-resistant part and a support structure of a reactor containment building, and any one of the first safety class that does not belong to the first safety class. A second safety level including pressure-resistant parts and supporting structures of facilities performing safety functions, and a third level including facilities performing any one safety function without belonging to the first safety level or the second safety level. It may include a safety level, and a non-safety level including facilities that do not belong to the first safety level, the second safety level, and the third safety level and perform predetermined functions.

The interface setting unit may differentially apply a grid ratio of facility zones in the user-based interface screen for each safety level.

Facilities corresponding to the first safety level have a grid ratio of 30% to the preset reference grid size, facilities corresponding to the second safety level have a grid ratio of 60% to the reference grid size, and the third Facilities corresponding to the safety level may have a grid ratio of 90% to the standard grid size, and facilities corresponding to the non-safety level may have an unlimited grid ratio.

A user-based interface screen display method for a nuclear power plant according to a preferred embodiment of the present invention for achieving the above object includes a collection step of collecting a user's control behavior log related to the operation of a facility in a nuclear power plant by a log collector; a screen setting step in which an interface setting unit sets a user-based interface screen based on the user's control action log; and a display step of controlling the display unit to display the user-based interface screen when the authentication of the user is completed by the controller.

The control action log may include the user's search frequency, search time, search period, control frequency, control time, and control period for facilities in the nuclear power plant for a predetermined time.

After the collecting step, the interface setting unit analyzes the search frequency, search time, search period, control frequency, control time, and control period of the user for a predetermined period using the control behavior log; further comprising: can

The screen setting step may include the user-based interface such that the interface setting unit has equipment objects having a large size in the order of the search frequency, the search time, the search period, the control frequency, the control time, and the control period. Equipment zones can be set on the screen.

After the collecting step, the interface setting unit may further include a zone definition step of setting a facility zone on the user-based interface screen for each predetermined safety level of the facility in the nuclear power plant.

The safety class includes a first safety class including a pressure-resistant part and a support structure of a facility constituting a reactor coolant pressure boundary, a pressure-resistant part and a support structure of a reactor containment building, and any one of the first safety class that does not belong to the first safety class. A second safety level including pressure-resistant parts and supporting structures of facilities performing safety functions, and a third level including facilities performing any one safety function without belonging to the first safety level or the second safety level. It may include a safety level, and a non-safety level including facilities that do not belong to the first safety level, the second safety level, and the third safety level and perform predetermined functions.

The zone definition step may include differentially applying, by the interface setting unit, a lattice ratio of a facility zone in the user-based interface screen for each safety level.

Facilities corresponding to the first safety level have a grid ratio of 30% to the preset reference grid size, facilities corresponding to the second safety level have a grid ratio of 60% to the reference grid size, and the third Facilities corresponding to the safety level may have a grid ratio of 90% to the standard grid size, and facilities corresponding to the non-safety level may have an unlimited grid ratio.

According to a user-based interface screen display apparatus and method for a nuclear power plant according to a preferred embodiment of the present invention, a user-based interface screen is set by analyzing a user control log for a predetermined period, thereby improving work efficiency.

1 is a block diagram of a user-based interface screen display device for a nuclear power plant according to a preferred embodiment of the present invention.
2 is a diagram showing an example of a user-based interface screen.
3 is a flowchart of a user-based interface screen display method for a nuclear power plant according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to components of each drawing, it should be noted that the same components have the same numerals as much as possible even if they are displayed on different drawings. In addition, although preferred embodiments of the present invention will be described below, the technical idea of the present invention is not limited or limited thereto and can be modified and implemented in various ways by those skilled in the art.

1 is a block diagram of a user-based interface screen display device for a nuclear power plant according to a preferred embodiment of the present invention.

Referring to FIG. 1 , a user-based interface screen display device 100 for a nuclear power plant includes a log collection unit 110, an interface setting unit 120, a display unit 130, and a control unit 140.

The log collection unit 110 may collect user behavior information and user control behavior logs in the nuclear power plant. Here, user behavior information may be obtained through a camera installed in a nuclear power plant. When the user enters and exits the nuclear power plant, the camera may search for the user, obtain user behavior information, and provide the user behavior information to the log collection unit 110 . User behavior information may include user location, power plant use time, and the like.

The control behavior log may be generated based on input information input through a user's manipulation of the input device 20 . The input device 20 may include various configurations such as a touch screen and a key pad. The input information may include various command information related to facility operation in a nuclear power plant, such as a facility search command and a facility control command. The control behavior log may include a user's search frequency, search time, and search period for a predetermined facility. The control behavior log may further include a user's control frequency, control time, and control period for a predetermined facility.

The interface setting unit 120 may set the interface screen based on the user's control action log. The interface setting unit 120 may set the interface screen to have equipment zones in the order of highest search frequency, search time, search period, control frequency, control time, and control period.

In addition, the interface setting unit 120 may set facility zones on the interface screen for each safety level of various facilities in a preset nuclear power plant.

In one embodiment, the safety level may include a first safety level, a second safety level, a third safety level, and a non-safety level.

The first safety level may include a pressure-resistant portion of a facility constituting a reactor coolant pressure boundary and a support structure thereof.

The second safety level may include the pressure-resistant part of the reactor containment building and its support structure, and the pressure-resistant part and its support structure of a facility that does not belong to the first safety level and performs any one safety function.

The third safety level may include equipment that does not belong to the first safety level or the second safety level and performs any one safety function.

The non-safety level may include facilities that do not belong to the first safety level, the second safety level, and the third safety level and perform the functions specified in Article 8 of the Enforcement Decree.

The interface setting unit 120 may implement the facility area of the interface screen in a lattice form. In one embodiment, the grid shape may have a size of 10 mm*10 mm. The interface setting unit 120 may dynamically change the interface screen to implement a facility zone using at least one grid.

The interface setting unit 120 may change the interface screen for each user in real time based on the control action log of the user.

The interface setting unit 120 may disable screen change in which the grid size of the facility area exceeds a predetermined grid ratio to the preset standard grid size on the standard interface screen prepared for an arbitrary user. The reference grid size may be appropriately set according to user needs. The pre-determined grid ratio can be applied differentially for each safety level of the facility.

In one embodiment, a facility corresponding to the first safety level may have a grid ratio of approximately 30% of the reference grid size. Equipment corresponding to the second safety class may have a grid ratio of approximately 60%. Equipment falling under the third safety class may have a grid ratio of approximately 90%. Equipment falling under the non-safety class can have unlimited grid ratios.

Through this, the interface setting unit 120 can prevent an excessive degree of freedom for each user in changing the interface screen. In addition, the interface setting unit 120 can prevent the interface screen from being excessively distorted, thereby preventing proper search and control of relatively important facilities from being performed.

In addition, the interface setting unit 120 may implement the user's facility search and control activity effects by setting the interface screen in a direction that reduces the variation for each user.

The display unit 130 may be a visual display unit (VDU). The display unit 130 may display a user-based interface screen set in the interface setting unit 120 . A touch screen may be applied to the display unit 130, but is not limited thereto.

The controller 140 may control the display unit 130 to display the interface screen set by the interface setting unit 120 . The control unit 140 may perform authentication for the user's control authority. The control unit 140 may compare user authentication information pre-stored in the storage device 10 with input information input by the input device 20 and determine user authentication success according to whether they match.

The controller 140 may control the display unit 130 to display a control screen of the selected facility grid on the interface screen when at least one of a plurality of facility grids displayed on the interface screen is selected by the user. there is.

Meanwhile, the controller 140 may lock the operation of the user-based interface screen based on the user's behavioral information. In one embodiment, the control unit 140 compares the preset available time for each user with the user's power plant use time, and if the user's power plant use time exceeds the available time according to the comparison result, the user operation is performed. You can lock the interface screen to avoid being affected.

In one embodiment, the control unit 14 compares the user's location information with a predetermined access-prohibited place for each user, and if the user is located in the restricted-entry location according to the comparison result, the interface screen is set to be locked so as not to be affected by the user's manipulation. can

On the other hand, the controller 140 may control the display unit 130 to activate an emergency call button and a unlock button within the interface screen so as to receive a user's emergency control command while the interface screen is locked. The emergency call button may be connected to a manager communication device of a nuclear power plant. Through this, in the event of an unexpected emergency at the nuclear power plant, the user can contact the manager using the emergency call button and receive a password related to unlocking from the manager.

The controller 140 may control the display unit 130 to display a password-related screen when a user presses the unlock button. The controller 140 can unlock the interface screen when a normal password is input by the user. Through this, the user can evade an emergency situation by using the unlocked interface screen to urgently control equipment in an emergency situation.

On the other hand, when setting the interface screen lock using user behavior information, the controller 140 may further consider the control behavior log to determine whether or not to set the lock. That is, when it is determined that it is necessary to lock the operation of the interface screen according to user behavior information, the control unit 140 determines the user's control frequency, control time, and control period based on the preset reference control frequency, reference control time, and It can be further determined whether the reference control period is exceeded.

When the user's control frequency, control time, and control period exceed the preset reference control frequency, reference control time, and reference control period, the control unit 140 determines that the user is an important user for facility safety control, and the interface screen is operated. Locking may not be performed.

2 is a diagram showing an example of a user-based interface screen.

Referring to FIG. 2 , an example of a user-based interface screen displayed through the display unit 130 can be seen.

The display unit 130 may display the interface screen set by the interface setting unit 120 . The interface screen of the display unit 130 may include a standard user zone GS, a user change zone SS, and user-based facility zones US1, US2, US3, and US4. Each zone may be implemented in a lattice form.

In one embodiment, the display unit 130 may display the reference user area GS at the upper left corner. The reference user zone GS may be connected to an initial interface screen other than a specific user. The initial interface screen is stored in the storage device 10 . When the reference user zone GS is selected by the user, the display unit 130 may convert the current interface screen to the initial interface screen.

In one embodiment, the display unit 130 may display the user change area (SS) at the upper right corner. The user change area SS may be connected to an interface screen based on a user currently manipulating the interface screen. The user-based interface screen is stored in the storage device 10 . When the user change zone SS is selected by the user, the display unit 130 may convert the current interface screen into a user-based interface screen.

In one embodiment, the display unit 130 may appropriately display the user-based facility zones US1, US2, US3, and US3 in the remaining areas except for the upper left and upper right. The user-based facility zones (US1, US2, US3, and US4) include a first safety-class facility area (US1), a second safety-class facility area (US2), a third safety-class facility area (US3), and a non-safety-class facility area ( US4) may be included.

In the first safety level facility area US1, various types of facilities corresponding to the first safety level may be displayed in the form of objects of various sizes. The first safety level facility zone US1 may be connected to control screens of various facilities. When any one facility object within the first safety level facility area US1 is selected by the user, the display unit 130 may convert the current interface screen to a control screen of the selected facility object.

In the second safety level facility area US2, various types of facilities corresponding to the second safety level may be displayed in the form of objects of various sizes. The second safety level facility zone US2 may be connected to control screens of various facilities. When any one facility object in the second safety level facility area US2 is selected by the user, the display unit 130 may switch the current interface screen to a control screen of the selected facility object.

In the third safety level facility area US3, various types of facilities corresponding to the third safety level may be displayed in the form of objects of various sizes. The third safety level facility zone US3 may be connected to control screens of various facilities. When any one facility object in the third safety level facility area US3 is selected by the user, the display unit 130 may convert the current interface screen to a control screen of the selected facility object.

In the non-safety grade facility area US4, various types of facilities corresponding to the non-safety grade may be displayed in the form of objects of various sizes. The non-safety class facility area US4 can be connected to the control screens of various facilities. When any one facility object in the non-safety grade facility area US4 is selected by the user, the display unit 130 may switch the current interface screen to a control screen of the selected facility object.

Meanwhile, non-marked facility areas may be included in each of the first safety level facility area US1, the second safety level facility area US2, the third safety level facility area US3, and the non-safety level facility area US4. there is. A non-display facility area can be connected to a facility object that cannot be displayed within one screen. When a non-display facility object is selected by a user, the display unit 130 may convert an existing displayed facility object for each safety level within each safety level facility area into a non-display facility object.

3 is a flowchart of a user-based interface screen display method for a nuclear power plant according to a preferred embodiment of the present invention.

Referring to FIG. 3 , a method for displaying a user-based interface screen for a nuclear power plant is characterized by displaying a user-based interface screen based on user behavior information in a nuclear power plant and a user's control behavior log.

In the user confirmation step (S310), the control unit 140 confirms the user's intention to operate the facility through input information according to the user's manipulation of the input device 20.

In the collection step (S320), the log collection unit 110 may collect a user's control behavior log related to facility operation in the nuclear power plant. The control behavior log may be generated based on input information input through manipulation of the input device 20 by the user for a predetermined period (eg, one week). The input device 20 may include various configurations such as a touch screen and a key pad. The input information may include various command information related to facility operation in a nuclear power plant, such as a facility search command and a facility control command. The control behavior log may include a user's search frequency, search time, and search period for a predetermined facility on the display unit 130 . The control behavior log may further include a user's control frequency, control time, and control period for a predetermined facility on the display unit 130 .

Also, the log collection unit 100 may collect user behavior information related to user behavior in the nuclear power plant. User behavior information may be acquired through a camera installed in a nuclear power plant. When the user enters and exits the nuclear power plant, the camera may search for the user, obtain user behavior information, and provide the user behavior information to the log collection unit 110 . User behavior information may include user location, power plant use time, and the like.

In the zone definition step (S330), the interface setting unit 120 may set a facility zone on the interface screen for each safety level of various facilities in the nuclear power plant. In one embodiment, the safety level may include a first safety level, a second safety level, a third safety level, and a non-safety level. The equipment zone may include a standard user zone (GS), a user change zone (SS), and a user-based equipment zone (US1, US2, US3, US4). Each zone may be implemented in a lattice form.

Also, the interface setting unit 120 may disable screen change exceeding a predetermined grid ratio. The pre-determined lattice ratio can be applied differentially for each safety level of the facility.

In one embodiment, a facility corresponding to the first safety level may have a grid ratio of approximately 30% to a reference grid size. Equipment corresponding to the second safety level may have a grid ratio of approximately 60% of the standard grid size. Equipment corresponding to the third safety level may have a grid ratio of approximately 90% to the standard grid size. Equipment falling under the non-safety class can have unlimited grid ratios.

Through this, the interface setting unit 120 can prevent an excessive degree of freedom for each user in changing the interface screen. In addition, the interface setting unit 120 can prevent the interface screen from being excessively distorted, thereby preventing proper search and control of relatively important facilities from being performed.

In addition, the interface setting unit 120 may implement the user's facility search and control activity effects by setting the interface screen in a direction that reduces the variation for each user.

In the analysis step (S340), the interface setting unit 120 may analyze the search frequency, search time, search period, control frequency, control time, and control period of the user for a predetermined period using the user's control action log. The predetermined period may be one week, but is not limited thereto.

In the screen setting step ( S350 ), the interface setting unit 120 may set a user-based interface screen based on the analysis result of the user's control action log and the preset facility safety level.

In the verification step (S360), the control unit 140 may determine whether the user has control authority for facilities in the nuclear power plant. In one embodiment, the control unit 140 compares user authentication information pre-stored in the storage device 10 with user input information input through the input device 20, and controls the user according to whether or not the information matches according to the comparison result. authority can be judged.

In the display step (S370), when the user's facility control authority is confirmed, the controller 140 may display the user-based interface screen set by the interface setting unit 120 on the display unit 130. The controller 140 may not display the user-based interface screen set by the interface setting unit 120 on the display unit 130 when the user's facility control authority is not confirmed.

Meanwhile, the controller 140 may lock the interface screen operation for each user based on the user's behavior information. In one embodiment, the control unit 140 compares the preset available time for each user with the user's power plant use time, and if the user's power plant use time exceeds the available time according to the comparison result, the user operation is performed. You can lock the interface screen to avoid being affected.

In one embodiment, the control unit 140 compares the user's location information with a predetermined access-prohibited place for each user, and if the user is located in the restricted-entry location according to the comparison result, the interface screen is set to be locked so as not to be affected by the user's manipulation. can

On the other hand, the controller 140 can activate an emergency call button and a lock release button within the interface screen to receive a user's emergency control command in a state in which the interface screen is locked. The emergency call button may be connected to a manager communication device of a nuclear power plant. Through this, in the event of an unexpected emergency at the nuclear power plant, the user can contact the manager using the emergency call button and receive a password related to unlocking from the manager.

When the unlock button is executed by the user, the controller 140 may display a password-related screen. The controller 140 can unlock the interface screen when a normal password is input by the user. Through this, the user can evade an emergency situation by using the unlocked interface screen to urgently control equipment in an emergency situation.

The above description is merely an example of the technical idea of the present invention, and those skilled in the art can make various modifications, changes, and substitutions without departing from the essential characteristics of the present invention. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings. .

Steps and/or actions in accordance with the present invention may occur concurrently in different embodiments, in different orders, or in parallel, or for different epochs, etc., as would be understood by one skilled in the art. can

In some embodiments, some or all of the steps and/or actions may include instructions, programs, interactive data structures, clients and/or servers stored on one or more non-transitory computer-readable media. At least some of them may be implemented or performed using one or more processors that do. The one or more non-transitory computer-readable media may illustratively be software, firmware, hardware, and/or any combination thereof. Additionally, the functions of a “module” discussed herein may be implemented in software, firmware, hardware, and/or any combination thereof.

100: interface screen display device
110: log collection unit
120; Interface setting part
130: display unit
140: control unit

Claims (15)

a log collection unit that collects user's control behavior logs related to the operation of facilities in a nuclear power plant;
an interface setting unit configured to set a user-based interface screen based on the control action log of the user; and
a control unit controlling a display unit to display the user-based interface screen when the authentication of the user is completed;
including,
The control action log includes the user's search frequency, search time, search period, control frequency, control time, and control period for facilities in the nuclear power plant for a predetermined time,
The interface setting unit,
An equipment zone is set on the user-based interface screen to have equipment objects having large sizes in the order of the search frequency, the search time, the search period, the control frequency, the control time, and the control period, and the nuclear energy Setting a facility zone on the user-based interface screen for each preset safety level of equipment in the power plant, differentially applying a grid ratio of the facility zone in the user-based interface screen for each safety level,
The log collection unit collects user behavior information including the location and usage time of the user entering and exiting the nuclear power plant,
Wherein the control unit locks the operation of the user-based interface screen based on the user behavior information and the control behavior log. delete delete delete According to claim 1,
The safety level is
A first safety class, including pressure-resistant parts and support structures of facilities constituting the reactor coolant pressure boundary;
A second safety level including pressure-resistant parts and support structures of reactor containment buildings and pressure-resistant parts and support structures of facilities that do not belong to the first safety level and perform any one safety function;
A third safety level including facilities that perform any one safety function without belonging to the first safety level or the second safety level, and
A user-based interface screen display device for a nuclear power plant, characterized in that it includes a non-safety level including facilities performing predetermined functions without belonging to the first safety level, the second safety level, and the third safety level. delete According to claim 5,
The facility corresponding to the first safety level has a grid ratio of 30% to the preset reference grid size,
The facility corresponding to the second safety level has a grid ratio of 60% to the standard grid size,
The facility corresponding to the third safety level has a grid ratio of 90% to the standard grid size,
A user-based interface screen display device for a nuclear power plant, characterized in that the equipment corresponding to the non-safety class has an unlimited grid ratio. A collection step in which the log collection unit collects user's control behavior logs related to the operation of facilities in the nuclear power plant;
a screen setting step in which an interface setting unit sets a user-based interface screen based on the user's control action log; and
a display step of controlling a display unit to display the user-based interface screen when the authentication of the user is completed by the controller;
including,
The control action log includes the user's search frequency, search time, search period, control frequency, control time, and control period for facilities in the nuclear power plant for a predetermined time,
The screen setting step may include the user-based interface such that the interface setting unit has equipment objects having a large size in the order of the search frequency, the search time, the search period, the control frequency, the control time, and the control period. Set the facility area on the screen,
After the collecting step, a zone definition step in which the interface setting unit sets a facility zone on the user-based interface screen for each predetermined safety level of the facility in the nuclear power plant;
Including more,
The zone definition step includes a step of differentially applying, by the interface setting unit, a grid ratio of a facility zone in the user-based interface screen for each safety level,
The collecting step includes collecting, by the log collection unit, user behavior information including the location and usage time of the user entering and exiting the nuclear power plant;
The displaying step comprises the step of, by the control unit, locking the operation of the user-based interface screen based on the user behavior information and the control behavior log. delete According to claim 8,
After the collecting step, an analysis step of the interface setting unit analyzing the user's search frequency, search time, search period, control frequency, control time, and control period for a predetermined period using the control behavior log;
A user-based interface screen display method for a nuclear power plant, characterized in that it further comprises. delete delete According to claim 8,
The safety level is
A first safety class, including pressure-resistant parts and support structures of facilities constituting the reactor coolant pressure boundary;
A second safety level including pressure-resistant parts and support structures of reactor containment buildings and pressure-resistant parts and support structures of facilities that do not belong to the first safety level and perform any one safety function;
A third safety level including facilities that perform any one safety function without belonging to the first safety level or the second safety level, and
A method for displaying a user-based interface screen for a nuclear power plant, characterized in that it includes a non-safety level including facilities performing predetermined functions without belonging to the first safety level, the second safety level, and the third safety level. delete According to claim 13,
The facility corresponding to the first safety level has a grid ratio of 30% to the preset reference grid size,
The facility corresponding to the second safety level has a grid ratio of 60% to the standard grid size,
The facility corresponding to the third safety level has a grid ratio of 90% to the standard grid size,
A user-based interface screen display method for a nuclear power plant, characterized in that the facilities corresponding to the non-safety class have an unlimited grid ratio.

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