KR20200114856A - Training System and Method for Preparing for Failure of Power Plant Using Virtual Reality Simulation Contents - Google Patents

Abstract

The present invention relates to a power plant failure preparation training system using virtual failure simulation training content and a method thereof, the power plant failure preparation training system using virtual failure simulation training content, increasing the training effect for a procedure for coping with power plant equipment failures by using VR content for virtual experience of power generation facilities that reproduce a work site of a power plant, and improving work efficiency of workers at a power plant. The power plant failure preparation training system using virtual failure simulation training content comprises: a virtual failure simulation training procedure analysis unit for constructing a scenario for virtual failure simulation training by analyzing a previous training procedure and materials; a virtual failure training scenario conversion unit for converting a scenario constructed in the virtual failure simulation training procedure analysis unit to be suitable for the purpose and target of virtual failure simulation training; an equipment/device and background 3D modeling unit for performing 3D modeling on equipment/device and background to be suitable for the scenario for the virtual failure simulation training; a training tool 3D modeling unit for performing 3D modeling on a training tool for proceeding the scenario for the virtual failure simulation training using the equipment/device and background on which the 3D modeling is performed; and an interaction technique application and simulation training progress control unit for applying an interaction technique capable of effectively implementing various interactive operations or functions that are required by a user using a controller, and controlling a simulation training progress according to the scenario for the virtual failure simulation training by enabling smooth operation in virtual reality by spatial sensor recognition.

Description

Training System and Method for Preparing for Failure of Power Plant Using Virtual Reality Simulation Contents

The present invention relates to training in preparation for a power plant failure, and specifically, using VR content for a power generation facility virtual experience that reproduces a power plant work site, increases the training effect on the procedure for coping with power plant equipment failure, and improves work efficiency of workers at the power plant. The present invention relates to a training system and method for power plant failure prepared by using virtual failure simulation training contents.

Virtual reality (VR) technology is being evaluated as a major technology of the 4th industrial revolution along with the rapid development of hardware and graphic technologies. In reality, it is difficult to reproduce or expensive environments and equipment, etc. at relatively low cost. It has the advantage of being able to reproduce in.

Virtual reality (VR) technology has a great potential for growth in entertainment businesses such as games and movies, but its effect can be even greater when linked with other industries. In particular, the application is actively taking place in the field of education, because in the case of virtual reality (VR)-based education (training), learning immersion is higher than that of existing e-learning-type learning materials, and learner-led active learning is possible.

Up to now, simulation training for virtual faults at power plants has been conducted in the form of simulation training focused on reading scenarios or providing written procedures, and learning know-how to cope with virtual faults is provided through delivery training of high-ranking officials or experienced experienced persons.

Hopefully, in the case of new employees and new employees, the ability to cope in a timely manner in the event of a failure may decrease, which can lead to loss of power plant operation.

Therefore, there is a need to develop a technology for training against failure of a new power plant that enables the improvement of training efficiency and gain rate, rather than a scenario-reading training.

Korean Patent Registration No. 10-1770064 Republic of Korea Patent Publication No. 10-2018-0109339 Korean Patent Registration No. 10-0929255

The present invention is to solve the problem of training against failure of a power plant in the prior art, by using VR content for virtual experience of power generation equipment that reproduces the work site of a power plant, to increase the training effect on the procedure for coping with power plant equipment failure, and The purpose of this is to provide a training system and method for power plant failures using simulation training contents for virtual failures so as to increase the work efficiency of the company.

The present invention is a virtual fault with high training efficiency and high acquisition rate through the development of VR-based virtual fault simulation training content that enables new employees and new employees to learn the know-how to cope with power plant equipment failure situations by systematizing personal experiences. Its purpose is to provide a training system and method for power plant failure prepared by using simulation training contents.

Other objects of the present invention are not limited to the objects mentioned above, and other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

The power plant failure preparation training system using the virtual failure simulation training content according to the present invention to achieve the above object analyzes the virtual failure simulation training procedure to construct a scenario for the virtual failure simulation training by analyzing the previous training procedure and data. Part; A virtual failure training scenario conversion unit that converts the scenario built in the virtual failure simulation training procedure analysis unit to suit the purpose and target of the virtual failure simulation training; Equipment/equipment and background suitable for the scenario for the virtual failure simulation training 3D modeling unit for 3D modeling facilities/devices and background; 3D modeling unit for training tools for 3D modeling of training tools for scenario progression for virtual failure simulation training using 3D modeling facilities/devices and background; User using controller An interaction that controls the progress of simulation training according to the scenario for virtual failure simulation training by applying an interaction technology that can effectively implement various interactive actions or functions required by and enabling smooth movement in virtual reality with spatial sensor recognition. It characterized in that it includes; technology application and simulation training progress control.

Here, the facility/device and background 3D modeling unit and training tool A 3D modeling optimization unit that optimizes the facility/device, background, and training tools for which 3D modeling is performed in the 3D modeling unit to suit a scenario for simulation training of a virtual failure, and It characterized in that it further comprises a VR material and environment setting unit for setting the material and environment of the virtual failure simulation training content in which 3D modeling has been optimized.

In addition, the interaction technology application and simulation training control unit supports a scenario using virtual failure simulation training content to be driven as an executable file without a separate plug-in, and supports automatic head tracking technology that can be moved according to the user's point of view. do.

In order to achieve another object, the training method for power plant failure using the virtual failure simulation training content according to the present invention includes a virtual failure simulation training procedure analysis step of constructing a scenario for the virtual failure simulation training by analyzing previous training procedures and data; Virtual failure training scenario conversion stage in which the scenario built in the virtual failure simulation training process analysis stage is converted to suit the purpose and target of the virtual failure simulation training; 3D modeling of facilities/devices and background to suit the scenario for virtual failure simulation training 3D modeling step for facilities/devices and backgrounds to perform 3D modeling; 3D modeling steps for training tools for 3D modeling of training tools for scenario progression for simulation training of virtual faults using facilities/devices and backgrounds with 3D modeling; facilities/devices with 3D modeling And 3D modeling optimization step of optimizing the background and training tools to suit the scenario for virtual fault simulation training; VR material and environment setting step of setting the material and environment of the virtual fault simulation training content with 3D modeling optimization; It applies interaction technology that can effectively implement various interactive motions or functions required by users, and enables smooth motion in virtual reality with spatial sensor recognition to control the progress of simulation training according to the scenario for virtual failure simulation training. It characterized in that it comprises a; the interaction technology application and the simulation training progress control step.

The system and method for training against failure of a power plant using the virtual failure simulation training content according to the present invention as described above have the following effects.

First, the use of VR contents for virtual experience of power generation facilities is used to increase the effectiveness of training against power plant failures and to increase work efficiency of workers at power plants.

Second, by systematizing personal experiences, new employees and new employees can learn the know-how to cope with power plant equipment failures in the shortest time, and virtual failure simulation training using VR-based virtual failure simulation training contents can enhance the training effect against power plant failures. have.

Third, it is possible to improve training efficiency and acquisition rate by using VR-based virtual breakdown simulation training contents.

1A to 1D are configuration diagrams showing an example of a virtual failure simulation training content screen according to the present invention
2 is a block diagram of a training system for power plant failure using virtual failure simulation training content according to the present invention
3A and 3B are configuration diagrams showing an example of a virtual failure simulation training using a power plant failure preparation training system using a virtual failure simulation training content according to the present invention
Figure 4 is a flow chart showing a training method for power plant failure using the virtual failure simulation training content according to the present invention

Hereinafter, a detailed description will be given of a preferred embodiment of a system and method for preparing for power plant failure using virtual failure simulation training content according to the present invention.

Features and advantages of the training system and method for power plant failure prepared by using the virtual failure simulation training content according to the present invention will become apparent through detailed description of each embodiment below.

1A to 1D are configuration diagrams showing an example of a virtual fault simulation training content screen according to the present invention, and FIG. 2 is a configuration diagram of a power plant failure preparation training system using the virtual fault simulation training content according to the present invention.

Currently, content to which VR technology is applied is recognized as a technology that is very suitable for providing high-quality content or services in various fields such as education, exhibitions, and games, and can increase the educational effect in a short time for new employees who are familiar with new IT technologies. .

The trend is developing from one-way online education for knowledge transfer using texts, pictures, videos, etc. to interactive interactive education using VR that allows direct experience of education contents.

The present invention relates to training in preparation for power plant failure using contents to which such VR technology is applied, and by using VR contents for virtual experience of power generation facilities, the training effect for power plant failures can be improved and work efficiency of workers in the power plant field can be increased.

In particular, it is possible to improve training efficiency and acquisition rate through the development of VR-based virtual breakdown simulation training content that allows new employees and new employees to learn the know-how to cope with power plant facility failures in the shortest time by systematizing personal experiences. .

1A to 1D are diagrams showing an example of a virtual failure simulation training content screen according to the present invention.

The configuration of the training system for power plant failure using the virtual failure simulation training content according to the present invention using such virtual failure simulation training content is a scenario for virtual failure simulation training by analyzing the previous training procedure and data, as shown in FIG. A virtual failure training scenario conversion unit that converts the scenario built in the virtual failure simulation training procedure analysis unit 21 and the virtual failure simulation training procedure analysis unit 21 to suit the purpose and target of the virtual failure simulation training ( 22), and facilities/devices and background 3D modeling unit 23 that 3D model facilities/devices and backgrounds suitable for scenarios for virtual fault simulation training, and virtual fault simulation using 3D modeling facilities/devices and backgrounds A training tool 3D modeling unit 24 for 3D modeling a training tool for progressing a scenario for training, a facility/equipment and background 3D modeling unit 23 and a training tool 3D modeling unit 24 A 3D modeling optimization unit 25 that optimizes devices, backgrounds, and training tools to suit the scenario for virtual failure simulation training, and VR material and environment that sets the material and environment of the virtual failure simulation training content with 3D modeling optimization Using the setting unit 26 and a controller, an interaction technology that can effectively implement various interactive motions or functions required by the user is applied, and a virtual failure simulation training is performed by enabling smooth operation in virtual reality through spatial sensor recognition. It includes an interaction technology application and a simulation training progress control unit 27 to control the simulation training progress according to the scenario for.

The present invention applies a technology for modeling the shape of a product with precision in a form capable of disassembling and assembling using the data obtained by visiting, taking photos, and measuring a site when drawing data provided for detailed 3D modeling of a device is insufficient.

In addition, it is possible to build a realistic virtual 3D environment by applying a technology that implements a standard shape using a specialized program based on the prior understanding and experience of the facility.

Apply professional power generation facility 3D expression design technology accumulated while producing various power generation system flow videos and power generation main facility disassembly and assembly videos.

Application of interaction technology and progress of simulation training The control unit 27 applies a technology driven by an executable file without a separate plug-in, applies an automatic head tracking technology that can be moved according to the user's point of view, and uses a controller to provide various interactive actions requested by the user. It includes features of application of interaction technology that can effectively implement functions and application of smooth motion function technology in virtual reality through spatial sensor recognition.

A detailed description of the training method for power plant failure using the virtual failure simulation training content according to the present invention is as follows.

3A and 3B are configuration diagrams showing an example of a virtual failure simulation training using a power plant failure preparation training system using the virtual failure simulation training content according to the present invention, and FIG. 4 is a diagram showing an example of a virtual failure simulation training content according to the present invention. This is a flow chart showing the training method for power plant failure.

First, by analyzing the previous training procedures and data, a scenario for simulated training for virtual failures is constructed (S401).

Then, the constructed scenario is converted to suit the purpose and target of the virtual failure simulation training (S402).

In addition, 3D modeling of facilities/equipment and background is performed to suit the scenario for simulated virtual failure training (S403).

Subsequently, 3D modeling is performed on a training tool for scenario progression for simulation training of virtual failures using 3D modeled facilities/devices and background (S404).

In addition, 3D modeling is optimized so that it is suitable for the scenario for the simulation of virtual failure by optimizing facilities/devices, backgrounds and training tools for which 3D modeling has been performed (S405).

Then, the material and environment of the virtual failure simulation training content for which 3D modeling has been optimized are set (S406).

In addition, by applying interaction technology that can effectively implement various interactive motions or functions required by users using a controller, and enabling smooth motion in virtual reality through spatial sensor recognition, simulation training according to scenarios for virtual failure simulation training Control the progress (S407)

The power plant failure preparation training system and method using the virtual failure simulation training content according to the present invention described above is designed to increase the training effect for power plant failures and increase the work efficiency of the power plant field workers by using the virtual experience VR contents of power generation facilities. .

In particular, it is possible to improve training efficiency and acquisition rate through the development of VR-based virtual breakdown simulation training content that allows new employees and new employees to learn the know-how to cope with power plant facility failures in the shortest time by systematizing personal experiences. .

As described above, it will be understood that the present invention is implemented in a modified form without departing from the essential characteristics of the present invention.

Therefore, the specified embodiments should be considered from a descriptive point of view rather than a limiting point of view, and the scope of the present invention is shown in the claims rather than the above description, and all differences within the scope equivalent thereto are included in the present invention. It will have to be interpreted.

21. Virtual failure simulation training procedure analysis department
22. Virtual failure training scenario conversion unit
23. Equipment/equipment and background 3D modeling unit
24. Training tool 3D modeling unit
25.3D modeling optimization unit
26.VR material and environment setting part
27. Application of interaction technology and control of simulation training

Claims (4)

Virtual failure simulation training procedure analysis unit to construct a scenario for virtual failure simulation training by analyzing previous training procedures and data;
A virtual failure training scenario conversion unit for converting the scenario built in the virtual failure simulation training procedure analysis unit to suit the purpose and target of the virtual failure simulation training;
A facility/device and background 3D modeling unit for 3D modeling facilities/devices and backgrounds suitable for a scenario for virtual failure simulation training;
A training tool 3D modeling unit for 3D modeling a training tool for a scenario progression for a simulation training of a virtual failure using 3D modeling facilities/devices and a background;
Simulation training is conducted according to scenarios for virtual failure simulation training by applying interaction technology that can effectively implement various interactive actions or functions required by users using a controller, and enabling smooth movement in virtual reality through spatial sensor recognition. A training system for power plant failure using virtual failure simulation training content, comprising: an interaction technology application and a simulation training progress control unit to control. The 3D modeling according to claim 1, wherein the facility/device and background 3D modeling unit and training tool optimize the facility/device, background, and training tools for which 3D modeling is performed in the 3D modeling unit to suit a scenario for simulated virtual failure training. Optimization unit and,
A training system for power plant failure using virtual failure simulation training content, characterized in that it further comprises a VR material and environment setting unit to set the material and environment of the virtual failure simulation training content with 3D modeling optimization. The method of claim 1, wherein the interaction technology application and simulation training progress control unit,
Power plant failure preparedness training using virtual failure simulation training content, which supports scenarios using virtual failure simulation training contents as an executable file without a separate plug-in, and supports automatic head tracking technology that can be moved according to the user's point of view. system. Virtual failure simulation training procedure analysis step of constructing a scenario for virtual failure simulation training by analyzing previous training procedures and data;
A virtual failure training scenario conversion step of converting the scenario built in the virtual failure simulation training procedure analysis step to suit the purpose and target of the virtual failure simulation training;
A facility/device and background 3D modeling step of 3D modeling the facility/device and the background to suit the scenario for the virtual failure simulation training;
A training tool 3D modeling step of 3D modeling a training tool for a scenario progression for a simulation training of a virtual failure using 3D modeling facilities/devices and a background;
3D modeling optimization step of optimizing facilities/devices, backgrounds, and training tools on which 3D modeling has been performed to fit a scenario for simulated virtual failure training;
VR material and environment setting step of setting the material and environment of the virtual failure simulation training content in which 3D modeling has been optimized;
Simulation training is conducted according to scenarios for virtual failure simulation training by applying interaction technology that can effectively implement various interactive actions or functions required by users using a controller, and enabling smooth movement in virtual reality through spatial sensor recognition. Application of the interaction technology to control and controlling the progress of the simulation training; A training method for power plant failure using the virtual failure simulation training content comprising a.

Images