KR102598063B1 - Training system and computer readable storage medium - Google Patents

Abstract

The purpose of the present invention is to provide preliminary training in a virtual space before workers are put into the work site and to improve their ability to respond to accidents that occur during work, and specifically to store work training materials (101) on the server (10). Storage step (S100); After the storage step, an output step (S200) of outputting the work training material to the trainee (20); Among the output steps, an input step (S300) in which the server receives the work behavior of the trainee; After the output step and the input step, it consists of a time-series step including an evaluation step (S400) of evaluating the worker's work results (202).

Description

Job training system and computer readable recording medium {Training system and computer readable storage medium}

The present invention is an invention of a training system that provides preliminary training in a virtual space before workers are put into the work site and improves their ability to respond to accidents that occur during work.

Patent inventions 001 to 002 are technically related to the present invention, and patent invention 001 is an immersive system that enables recognition of individual virtual training spaces by multiple trainers and collective and organized collaborative training in a shared virtual workspace through multiple access. It is an invention about a network virtual training system, and patent invention 002 is an invention about a network virtual training processing device that constitutes a client system. This invention, patented inventions 001 and 002, has technical relevance to task management in a virtual environment.

This invention, patented inventions 001 and 002, has technical relevance to task management in a virtual environment.
Prior art literature
[Patent Document]
(Patent Document 0001) KR 10-1839113 B1 (Registration date March 9, 2018)
(Patent Document 0002) KR 10-1671320 B1 (Registration Date: October 26, 2016)

The purpose of the present invention is to provide workers with preliminary training in a virtual space before being put into the work site and to improve their ability to respond to accidents that occur during work.

The present invention relates to a work training system, and specifically includes a storage step (S100) of storing work training materials 101 on the server 10; After the storage step, an output step (S200) of outputting the work training material to the trainee (20); Among the output steps, an input step (S300) in which the server receives the trainee's educational behavior (201); After the output step and the input step, it consists of a time-series step including an evaluation step (S400) of evaluating the worker's work results (202).

The present invention relates to a work training system, and in the invention presented above, the work training material is formed from 3D data of the power plant equipment 11 and consists of time-series steps including. The present invention relates to a job training system, and in the invention presented above, it consists of time-series steps including an authentication step (S900) of authenticating the trainee to the server before the storage step.

The present invention relates to a job training system, and in the invention presented above, in the storage step, the job training material includes a first storage step (S110) of storing a plurality of workplace data 401 as codes; After the first storage step, a second storage step (S120) of storing a plurality of event data 402 as codes; After the first storage step, it consists of a time-series step including a third storage step (S130) of storing the guidance material 403 and/or warning material 404 as a code. The present invention relates to a work training system, and in the invention presented above, the output step consists of time-series steps including an output step (S210) of outputting the screen 31.

The present invention relates to a work training system, and in the invention presented above, in the input step, the work action includes a first input step (S310) of receiving motion information 601; The work action consists of time-series steps including a second input step (S320) in which the operation of the operating body 40 is input. The present invention relates to a work training system, and in the invention presented above, the evaluation step includes a performance judgment step (S410) that judges the performance of the trainee; It consists of time-series steps including a completion rate judgment step (S420) that determines the completeness of the work.

The present invention relates to a program that implements a job training system, and is a recording medium on which a computer-readable program featuring the job training system presented above is recorded.

The present invention relates to a training system for workers who perform tasks such as maintenance (repair, replacement) of power plants, and has the effect of improving work efficiency by allowing workers to receive prior training through virtual space.
The present invention has the effect of allowing multiple workers to perform simultaneous training in one virtual space through each simulator.

The present invention can improve practice effectiveness because workers learn job training through guidance and warnings during the training process.
The present invention improves the work program with artificial intelligence, which uses the work results of multiple workers as big data.

1 is a flow chart of the work training system of the present invention
Figure 2 is a conceptual diagram of work training of the present invention

Hereinafter, the most preferred embodiments of the present invention will be described in detail in order to enable those skilled in the art to easily practice the present invention. The reference number in the example is not limited to the designated number, and any number can be accepted. The configuration presented in the examples can be expanded to objects that have the same purpose and effect. The sub-concepts of the configuration presented in the examples can be viewed as inherent even if they are not directly described.

[Example 1-1] The present invention relates to a work training system, and specifically, a storage step (S100) of storing work training material 101 in the server 10; After the storage step, an output step (S200) of outputting the work training material to the trainee (20); Among the output steps, an input step (S300) in which the server receives the work behavior of the trainee; After the output step and the input step, it consists of a time-series step including an evaluation step (S400) of evaluating the worker's work results (202).

[Example 1-2] The present invention relates to a job training system. In Example 1-1, the output step and the input step are performed simultaneously for a plurality of trainees.
[Example 1-3] The present invention relates to a job training system. In Example 1-1, the output step and the input step are performed simultaneously in real time.

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The present invention [Examples 1-1 to 1-3] is an invention for a work training system.
The present invention is for training workers (trainees) working in thermal power plants, etc., and workers learn the work environment, work sequence, and work situation through prior training and virtual practice in a virtual space, especially emergency situations that occur during work. The purpose is to improve on-site adaptability.
To implement this, it consists of a storage stage, output stage, input stage, and evaluation stage. In the storage step, the work environment is constructed as 3D data on the server, and work training materials are output on the VR worn by the worker. Workers perform work using work tools in virtual space. The worker's work results are judged on the completion rate and appropriateness of the work in the evaluation stage.
In another embodiment, multiple workers may perform training in one workspace. Multiple workers can be trained remotely, each from a different location.
The present invention can be applied not only to thermal power plants but also to various educational environments. In other words, it can be used in areas related to maintenance (replacement and repair) of power generation facilities, construction education, and operation and control of power generation facilities.
For example, piping replacement work for power generation facilities is scheduled, and workers who will be involved in this work receive prior training in the same virtual space. Some workers operate valves, some fix valves, some cut pipes through welding, and some workers control the flow of fluid through the operation of pipes. These tasks are performed in a set order.
In other words, multiple workers can accurately judge their tasks through prior simulation of the work environment, become familiar with the prescribed sequence, and perform proficient work in practice.

[Example 2-1] The present invention is an invention for a work training system. In Example 1-1, the work training material is formed from 3D data of the power plant equipment 11. Time-series steps including: It consists of

[Example 2-2] The present invention relates to a work training system. In Example 2-1, the 3D data includes composition combination data of power generation equipment.
[Example 2-3] The present invention relates to a work training system. In Example 2-1, the 3D data includes piping flow fluid data of power generation equipment.
[Example 2-4] The present invention relates to a work training system. In Example 2-1, the 3D data includes tool data of power generation equipment.
[Example 2-5] The present invention relates to a work training system. In Example 2-1, the 3D data includes maintenance work data of power generation equipment.

The present invention (Examples 2-1 to 2-5) embodies the work training material of Example 1-1. The above work training material is about power generation facilities and is implemented as 3D data.
The power generation facility is implemented with various facilities, multiple pipes, valves and sensors coupled to the pipes, etc. Additionally, workers use a variety of tools and equipment at work sites, and operations using 3D data for various tools and equipment can be implemented.
For example, a worker wearing VR can operate the same crane as the crane in the field, and confirm in virtual space that the crane is operated by the worker's manipulation.
Afterwards, workers can use a crane to combine equipment and replace equipment by operating the crane.
In order to implement this, the power generation equipment must be implemented identically to the actual device, and in addition to the power generation equipment, equipment such as cranes and forklifts must be implemented identically, and welders, cutters, tools, materials, etc. must be presented as 3D data as in the field. do.

[Example 3-1] The present invention is an invention for a job training system. In Example 1-1, the time-series steps include an authentication step (S900) of authenticating the trainee to the server before the storage step. It comes true.

[Example 3-2] The present invention is an invention for a job training system. In Example 3-1, it includes a proposal step (S910) in which the server proposes optimal job training materials after the authentication step. .
[Example 3-3] The present invention is an invention for a job training system. In Example 3-1, it includes a selection step (S920) in which the trainee selects a job training material after the authentication step.
[Example 3-4] The present invention relates to a job training system. In Example 3-1, the authentication includes one selected from number input, image recognition, and object recognition.
[Example 3-5] The present invention relates to a job training system. In Example 3-1, after the authentication step, a personal information storage step (S930) in which the personal information 301 of the trainee is applied; Includes.

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The present invention [Examples 3-1 to 3-5] relates to authentication of trainees (workers).
Before training, workers are required to authenticate themselves to the server. Prior to authentication, the worker's personal information storage step is performed.
Workers' skills may vary depending on their work experience and level of education. Therefore, rather than providing the same training to all workers, training should be provided according to the worker's condition.
For example, when providing guidance information during a training course, training information can be omitted for workers who are familiar with the content, and training information must be provided to unskilled workers before starting work.
Personal information includes physical conditions. The height and weight of the worker are set to a lower level so that the degree of external interference can be felt when put into the work environment, and in particular, the purpose is to identify problems caused by the worker's weight at the worker's location.
Prior to on-the-job training, a variety of on-the-job training materials must be prepared. Workers must select work training materials that are suitable for them from a variety of work training materials, and when necessary, the server can suggest the optimal work training materials based on prior information.
Selection of work training materials can be directly selected by the worker, suggested to the worker at the request of the manager, or automatically suggested by the server.
In the personal information storage stage, the worker's physical conditions (weight, height) and face can be entered. This is to ensure familiarity with actual people when multiple workers work simultaneously in one virtual space.

[Example 4-1] The present invention relates to a work training system. In Example 1-1, in the storage step, the work training material includes a first storage step of storing a plurality of work place data 401 as codes. (S110); After the first storage step, a second storage step (S120) of storing a plurality of event data 402 as codes; After the first storage step, it consists of a time-series step including a third storage step (S130) of storing the guidance material 403 and/or warning material 404 as a code.

[Example 4-2] The present invention relates to a work training system. In Example 4-1, the guidance material is formed as pre-work training material .
[Example 4-3] The present invention relates to a work training system. In Example 4-1, the guidance material or warning material is formed as post-work training material .
[Example 4-4] The present invention relates to a work training system. In Example 4-1, the guidance material or warning material is formed as training material during work .
[Example 4-5] The present invention relates to a work training system. In Example 4-1, the workplace data and event data are formed as 3D data.
[Example 4-6] The present invention relates to a work training system. In Example 4-1, the event data includes fire data, explosion data, gas leak data, and damage data. .

The present invention (Examples 4-1 to 4-6) embodies the storage step of Example 1-1.
The storage stage is divided into a first storage stage, a second storage stage, and a third storage stage. The first storage step stores workplace data, the second storage step stores event data, and the third storage step stores guidance and warning materials.
Multiple pieces of data are formed so that they can be applied according to each situation, and they must be provided as set codes. In other words, managers can form necessary training materials by combining codes by setting workers' training materials.
For example, in order to implement job training for a thermal power plant, 3D CAD data for the entire power plant is required, and the data must be divided into individual codes based on the set sectors and composed of multiple data. The above workplace data must be identically implemented as data on the painting and lighting of the workplace.
In the case of event data, events such as fire, gas leak, equipment explosion, and equipment crash can be expected during the work process, and these events must be implemented in advance.
In the case of warning data, when cutting work on chambers and pipes where high pressure is formed is performed, the guidance data generates a warning because internal pressure exists, and to resolve this, preliminary work such as valve and motor operation can be instructed. there is.
Additionally, if the pipe is at a high temperature, it is possible to predict whether the worker's hand will come into contact with it and warn in advance. Guidance materials are provided in advance before work, and may also be provided during and after work.

[Example 5-1] The present invention is an invention for a work training system. In Example 1-1, the output step is a time-series step including an output step (S210) of outputting the screen 31. It comes true.

[Example 5-2] The present invention relates to a job training system. In Example 5-1, the output step includes a sound output step (S220) of outputting a sound 501 through a speaker 32; Includes.
[Example 5-3] The present invention relates to a work training system. In Example 5-1, the output step includes a wind direction output step (S230) of outputting wind 502 through the blower 33; Includes.
[Example 5-4] The present invention is an invention for a work training system. In Example 5-1, the output step is a heat output step (S230) in which heat 503 is output through the cooling and heating device 34. Includes ;
[Example 5-5] The present invention relates to a work training system. In Example 5-1, the output step is an odor output step (S230) in which the odor 504 is output through the aroma device 35. Includes ;
[Example 5-6] The present invention is an invention for a work training system. In Example 5-1, the output step is a vibration output step (S230) of vibration 505 through a gripping tool or glove. Includes.
[Example 5-7] The present invention relates to a work training system. In Example 5-1, the output stage is formed by VR (36), AR (37), and 3-dimensional hologram (38). Includes ;

The present invention (Examples 5-1 to 5-7) embodies the output step of Example 1-1.
The output step of the present invention is not only applied to VR, but also to the environment of an educational simulator. In other words, the server provides various output information, a three-dimensional space screen is output through VR, sound is output through speakers installed inside the simulator, and wind, Heat, odor, etc. can be replicated in the same way as at a work site.
Additionally, workers can sense pressure and vibration from their hands through grip-type tools and gloves, and the pressure and vibration must be implemented under the same conditions as at the work site.
The screen can be output through VR and AR, and can be implemented by implementing a 3D hologram environment inside the simulator.

[Example 6-1] The present invention relates to a work training system. In Example 1-1, the input step includes a first input step (S310) in which the work action receives motion information (601); The work action consists of time-series steps including a second input step (S320) in which the operation of the operating body 40 is input.

[Example 6-2] The present invention relates to a work training system. In Example 6-1, the motion information includes determining the body movement of the trainee by a camera.
[Example 6-3] The present invention relates to a work training system, and in Example 6-2, the actuator is formed as a sensor of the gripping tool 41 or the glove 42. do.
[Example 6-4] The present invention is an invention for a work training system, and in Example 6-3, includes a correction step (S330) of performing correction of the motion information and the actuator before the input step. do.

The present invention (Examples 6-1 to 6-4) embodies the input step of Example 1-1.
The input step can receive input of the movements of the trainee (worker) that occurs during work activities, or input of details operated by tools and gloves.
In order to receive input of the worker's movements, multiple cameras are located inside the simulator, and the worker's movements are input to the server as 3D data. In other words, behavioral data is supplied as 3D data for actions such as the worker bending or raising his or her hands. Additionally, instead of a camera, multiple markers are mounted on the body to recognize the educator's movements.
Workers can use work tools or work equipment. In this case, a tool identical to an actual tool existing at the work site exists as 3rd party data, and the worker's actions of holding and manipulating it can be input. Additionally, through the gloves, the worker's hand movements and hand positions can be provided to the server.
For example, when a worker performs welding work in a simulator, the glove must hold the welding holder, manipulate the fingers, join the welding electrode, and operate the switch on the welder. These procedures and processes can be implemented in three-dimensional space by operating the glove and body movements on the server in real time.
In another embodiment, the worker can use the provided multi-remote control to use the work tool and operate it instead.

[Example 7-1] The present invention relates to a work training system. In Example 1-1, the evaluation step includes a performance judgment step (S410) of judging the performance of the trainee; It consists of time-series steps including a completion rate judgment step (S420) that determines the completeness of the work.

[Example 7-2] The present invention is an invention for a job training system. In Example 7-1, after the performance board step and the completion rate judgment step, a retraining judgment step (S430) to determine the retraining target for each trainee. Includes ;
[Example 7-3] The present invention is an invention for a work training system. In Example 7-1, after the above judgment step, the training order and repetition of work training materials according to the degree of the trainee according to the results of a plurality of judgments. It includes a schedule setting step (S440) for determining the order.

The present invention (Examples 7-1 to 7-3) embodies the evaluation step of Example 1-1.
The above evaluation stage is divided into a performance judgment stage and a completion rate judgment stage. In other words, a distinction is made between judging from the perspective of the trainee and judging from the perspective of the work. Work training materials implement work steps in various stages, and step settings can be changed depending on the worker's skill level. The optimal training level must be set according to the worker's training results.
In order to implement this, after determining the level of experience and knowledge of multiple educators, comparing educational performance results to secure learning results, the optimal educational stage and educational schedule are determined by artificial intelligence based on the multiple judgment results. do. In other words, the schedule setting step consists of the step of setting the educational materials presented earlier. As a result, optimal education settings using deep learning can be implemented with artificial intelligence. This is implemented as a program built into the server.

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[Example 8-1] The present invention relates to a computer-readable recording medium that implements a job training system, and is characterized by implementing a job training system consisting of any one selected from Examples 1-1 to 7-1. It is about a recording medium on which a computer-readable program is recorded.

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10: Server 11: Power plant equipment
20: Trainee 31: Screen
32: Speaker 33: Blower
34: Cooling and heating device 35: Direction device
36: VR 37: AR
38: 3D hologram 40: actuator
41: gripping tool 42: glove
101: Work training material
202: Work result 301: Personal information
401: Workplace data 402: Event data
403: Information material 404: Warning material
501: Sound 502: Wind
503: Heat 504: Odor
505: Vibration 601: Motion information

Claims (12)

In the work training system,
A storage step (S100) of storing the work training material 101 on the server 10;
In the storage step, the work training material includes a first storage step (S110) of storing a plurality of workplace data 401 as codes;
After the first storage step, a second storage step (S120) of storing a plurality of event data 402 as codes;
After the first storage step, a third storage step (S130) of storing the guidance material 403 or warning material 404 as a code;
After the storage step, an output step (S200) of outputting the work training material to the trainee (20);
Among the output steps, an input step (S300) in which the server receives the work behavior of the trainee;
After the output step and input step, an evaluation step (S400) of evaluating the worker's work results (202);
A work training system that includes.
In claim 1,
The work training material is formed from 3D data of power plant equipment 11;
A work training system that includes.
In claim 1,
Before the storage step, an authentication step (S900) of authenticating the trainee to the server;
A work training system that includes.
delete In claim 1,
The output step includes an output step (S210) of outputting the screen 31;
A work training system that includes.
In claim 1,
In the input step, the work action includes a first input step (S310) of receiving motion information 601;
The work action includes a second input step (S320) that receives the manipulation of the operating body 40;
A work training system that includes.
In claim 1,
The evaluation step is a performance judgment step (S410) that judges the performance of the trainee.
Completion rate judgment step (S420) to determine the completeness of the work
A work training system that includes.
A recording medium recording a computer-readable program characterized by a job training system selected from any one of claims 1 to 3 and 5 to 7.

In the work training system,
A storage step (S100) of storing the work training material 101 on the server 10;
In the storage step, the work training material includes a first storage step (S110) of storing a plurality of workplace data 401 as codes;
After the first storage step, a second storage step (S120) of storing a plurality of event data 402 as codes;
After the first storage step, a third storage step (S130) of storing the guidance material 403 or warning material 404 as a code;
After the storage step, an output step (S200) of outputting the work training material to the trainee (20);
Among the output steps, an input step (S300) in which the server receives the work behavior of the trainee;
After the output step and the input step, an evaluation step (S400) of evaluating the worker's work results (202),
The guidance or warning materials are formed as educational materials during work or as educational materials after work;
A work training system characterized by .
In the work training system,
A storage step (S100) of storing the work training material 101 on the server 10;
In the storage step, the work training material includes a first storage step (S110) of storing a plurality of workplace data 401 as codes;
After the first storage step, a second storage step (S120) of storing a plurality of event data 402 as codes;
After the first storage step, a third storage step (S130) of storing the guidance material 403 or warning material 404 as a code;
After the storage step, an output terminal for outputting work training materials to the trainee (20)
System (S200);
Among the output steps, an input step (S300) in which the server receives the work behavior of the trainee;
After the output step and input step, an evaluation step (S400) of evaluating the worker's work results (202);
Before the storage step, an authentication step (S900) of authenticating the trainee to the server;
After the authentication step, a proposal step (S910) in which the server suggests work training materials suitable for the trainee;
After the authentication step, a selection step (S920) in which the trainee selects a work training material;
A work training system that includes.
In the work training system,
A storage step (S100) of storing the work training material 101 on the server 10;
In the storage step, the work training material includes a first storage step (S110) of storing a plurality of workplace data 401 as codes;
After the first storage step, a second storage step (S120) of storing a plurality of event data 402 as codes;
After the first storage step, a third storage step (S130) of storing the guidance material 403 and/or warning material 404 as a code;
After the storage step, an output step (S200) of outputting the work training material to the trainee (20);
Among the output steps, an input step (S300) in which the server receives the work behavior of the trainee;
After the output step and the input step, an evaluation step (S400) of evaluating the worker's work results (202);
The output step outputs wind 502 through the blower 33, outputs heat 503 through the cooling and heating device 34, outputs smell 504 through the aroma device 35, or outputs a grip type. A work training system characterized by simulating an environment similar to a work site by outputting vibration 505 through a tool or glove.
In the work training system,
A storage step (S100) of storing the work training material 101 on the server 10;
In the storage step, the work training material includes a first storage step (S110) of storing a plurality of workplace data 401 as codes;
After the first storage step, a second storage step (S120) of storing a plurality of event data 402 as codes;
After the first storage step, a third storage step (S130) of storing the guidance material 403 and/or warning material 404 as a code;
After the storage step, an output step (S200) of outputting the work training material to the trainee (20);
Among the output steps, an input step (S300) in which the server receives the work behavior of the trainee;
After the output step and input step, an evaluation step (S400) of evaluating the worker's work results (202);
The evaluation step includes a performance judgment step (S410) that judges the performance of the trainee;
A completion rate determination step (S420) for determining the degree of completeness of the work result (202);
After the performance judgment step (S410) and the completion rate judgment step (S420), the schedule setting step (S440) determines the training order and repetition order of the work training materials by judging the level of experience and knowledge of the trainee according to the multiple judgment results. ;
Work training system including.