KR20140083472A - Virtual training simulator and method of aircraft maintenance education using the same - Google Patents

Abstract

The purpose of the present invention is to provide a mock training device and an aircraft maintenance training method using the same, which enable the acquisition of a theoretical learning ability, which is the limitation of hardware-based practical training education, and enable actions for maintenance through the understanding of aircraft systems to be quantitatively performed. To achieve the above-described purpose, the method for the aircraft maintenance training using a mock training system according to the present invention comprises: a step of performing autonomous breakdown diagnosis for each subsystem of the mock training system when power is supplied to each subsystem of the mock training system (S100); a step of selecting training lists for aircraft maintenance education (S200); a step of initializing the mock training device so as to prepare a mock training device for the selected training lists and start mock training (S300); a step of confirming checklists and controlling the mock training device by training processes (S400); a step of finishing the mock training and automatically evaluating the results of the mock training (S500); and a step of saving the automatically evaluated results and outputting the evaluated results (S600). The steps (S200) to (S500) are repeated a plurality of times.

Description

TECHNICAL FIELD [0001] The present invention relates to a simulation training apparatus and an aircraft maintenance training method using the simulation training apparatus.

The present invention relates to a simulation training apparatus and an aircraft maintenance training method using the simulation training apparatus. In particular, it is possible to acquire the theoretical learning ability which is a limit point of hardware-based training and quantitatively perform a maintenance action by understanding an aircraft system And a method for training aircraft maintenance using the same.

Generally, the cost of manufacturing an aircraft or a ship is high, so that a pilot has a great deal of risk in manipulating an aircraft or a ship by manipulating it directly. In other words, the death of a pilot caused by an accident caused by a pilot's inability to steer an aircraft or a ship is also a problem. However, the cost of the expensive aircraft or ship due to the accident caused by the accident is also problematic .

In order to solve such a problem, in recent years, for devices and equipment that require expensive manufacturing costs such as an aircraft or a ship, a simulated training device implemented in an environment similar to the actual one is used for piloting the pilot, And has been conducting piloting exercises.

However, accidents occurring when piloting an aircraft or a ship may occur due to inadequate control of the pilot, but accidents caused by failure of the aircraft or the ship itself may also be a cause. Therefore, it is becoming increasingly important to train mechanics who repair aircraft or ships.

However, the training of mechanics of existing aircraft or ship is mostly hardware oriented training. In other words, training is carried out according to the instructor's explanation of the aircraft or the components of the ship, or the training of the airline or the ship's technical manual is conducted by the mechanic after the self-learning of the mechanic, Most of them are maintenance education to carry out the education to detach and remove.

Therefore, there is a need for a method to quantitatively perform the maintenance action through the acquisition of the theoretical learning ability and understanding of the system, which is the limit point of the hardware - oriented practical training.

In addition, training of mechanics on modern aircrafts, which are highly dependent on all technology and electronic equipment, is also required to develop training and equipment through software simulation training equipment rather than hardware.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for learning a theoretical learning ability which is a limit of hardware- And to provide an aircraft maintenance training method using the same.

In order to achieve the above object, an aircraft maintenance education method using a simulation training system according to the present invention is characterized in that, when power is supplied to each subsystem of the simulation training system, (S200) of selecting a training item of the aircraft maintenance training (S200); and preparing a simulated training equipment of the selected training item to initialize the simulated training equipment (S400) of confirming the check items and controlling the simulator according to a training procedure (S400); terminating the simulator and automatically evaluating the simulator results (S500) And a step (S600) of storing the automatically evaluated evaluation result and outputting the evaluation result, wherein the steps (S200) to (S500) Characterized by performing a plurality of times.

In the aircraft maintenance training method using the simulation training equipment according to the present invention, the result of the self-diagnosis of each of the subsystems performed in the step S100 is transmitted to the master's computer, The power status and the communication status of the system can be checked, and the result of the self-diagnosis can be displayed as the number of errors, contents, and a pop-up window at the bottom of the screen of the computer.

Also, in the aircraft maintenance training method using the simulated training equipment according to the present invention, in the step S200, the instructor computer selects a training mode and a training classification for an item to be performed, .

Also, the training method using the simulation training equipment according to the present invention is characterized in that the training mode consists of an exercise mode and an evaluation mode, and the training is divided into an operation check, a trouble search, and a field removal.

In addition, the aircraft maintenance training method using the simulation training equipment according to the present invention is characterized in that, after the selection of the training item, the detailed training item is further selected.

Also, in the step S300, the initialization may be performed by using the simulation training apparatus to perform the training for the hardware, And the detailed procedure of the training item to be performed is output after the initialization state is set.

In addition, in the method of training an aircraft maintenance using a simulation training apparatus according to the present invention, when the initialization is not performed or the simulated training is in progress, the hardware components recognized as a failure are skipped (step S300) Skip), and the maintenance training is performed except for the components of the hardware that are faulty.

Also, in the method for training the aircraft maintenance using the simulation training equipment according to the present invention, in the step (S400), each reaction is confirmed by performing the corresponding operation according to the training procedure in the simulation training equipment, and a normal maintenance procedure is performed And a warning sound and a message for the erroneous operation are generated, and when the erroneous operation of the simulated training equipment is detected, The training procedure can not be performed, the score of the training information is decreased for each training item, and the simulated training system exhibits a different reaction.

In addition, the aircraft maintenance training method using the simulation training equipment according to the present invention is characterized in that in the step (S400), the specific procedure of the simulation training can be repeatedly performed.

Also, the method for training an aircraft maintenance using a simulation training apparatus according to the present invention may further include the step of finishing the simulation training in the step (500) (S500), and the simulation training result includes basic information of the completed maintenance training and performance And is stored by an instructor computer, including evaluation items, ratings and opinions of the instructor.

In addition, the simulation training apparatus according to the present invention includes a simulation cockpit for operating the mounting equipment required for the training procedure and simulating the response of the simulated aircraft, a simulation cockpit for presenting the training procedure to be performed during the training procedure, A display system that displays an execution completion procedure when completed, displays a connection with the technical manual procedure, manipulates the hardware necessary for the training procedure, manipulates the contents required for the training procedure, and displays the simulated response of the aircraft A host computer for generating a data value through simulation software, determining whether a wrong operation is performed during the training procedure, and calculating a simulation data value by moving the procedure; , And confirms whether or not the erroneous operation is performed, And a supervisor computer for calculating a maintenance training score through the evaluation score logic when the car is completed, checking the subsystem, and checking the communication and power status, wherein the supervisor computer interacts with the host computer in the simulated training Wherein the host computer transmits selection data of the item, a database of the host computer, and control signal data, and the display system displays simulated training situation control and interlocked data in a bidirectional manner with the host computer, Wherein the simulated cockpit transmits the manipulation data of the mounting equipment and the reaction signal data of the aircraft and the determination data in a bidirectional manner with the host computer, Operation data, It characterized in that for transmitting the response signal data and the detection data of the air.

According to the present invention, there is provided a simulation training apparatus which can learn the theoretical learning ability which is a limit point of hardware-based practical training and quantitatively perform maintenance action through understanding of an aircraft system, and an aircraft maintenance training method using the same .

1 is a system diagram of a simulator for aircraft maintenance training according to an embodiment of the present invention.
2 is a block diagram schematically illustrating a simulation training apparatus for aircraft maintenance training according to an embodiment of the present invention.
3 is a floor chart showing a maintenance training flow of an aircraft maintenance training method using simulation training equipment according to an embodiment of the present invention.
4 is a diagram illustrating a screen for performing a user login in the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention.
5 is a view showing a screen for performing power supply and self diagnosis in the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention.
6 is a view showing a screen for performing a training mode and item selection in an aircraft maintenance training method using simulation training equipment according to an embodiment of the present invention.
FIG. 7 is a diagram illustrating a screen for performing equipment initialization in an aircraft maintenance training method using simulation training equipment according to an embodiment of the present invention; FIG.
8 is a view showing a screen for performing training control and monitoring in the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention.
FIG. 9 is a view illustrating a screen for performing an evaluation of an instructor and storing training results in an aircraft maintenance training method using a simulation training device according to an embodiment of the present invention. FIG.
10 is a view showing a screen for performing the output of the training results in the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention.
11 is a view showing a screen for performing power shutdown in the aircraft maintenance training method using simulation training equipment according to the embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises" or "having" and the like refer to the presence of stated features, integers, steps, operations, elements, components, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Also, the terms " part, "" module," and the like, which are described in the specification, refer to a unit for processing at least one function or operation, and may be implemented by hardware or software or a combination of hardware and software.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a system diagram of a simulation training apparatus for aircraft maintenance training according to an embodiment of the present invention, and FIG. 2 is a schematic diagram illustrating a simulation training apparatus for aircraft maintenance training according to an embodiment of the present invention.

Referring to FIGS. 1 and 2, the simulation training apparatus 100 for aircraft maintenance training according to an embodiment of the present invention is a simulation training apparatus for aircraft maintenance training, A simulated cockpit 110 for simulating the response of the aircraft, a display 110 for presenting the training procedure to be performed during the training procedure, displaying the completion procedure when the training procedure is completed, A system simulation panel 130 for manipulating the hardware necessary for the training procedure, manipulating the contents required for the training procedure, and simulating the reaction of the simulated aircraft; A hose for calculating the simulation data value through the procedure shift, (140), checks whether or not the current operation state is interlocked in real time during the training procedure, calculates the maintenance training score through the evaluation score logic when the training procedure is completed, and checks the subsystem The host computer 140 receives the selection data of the simulated training item and the host computer 140 in a bidirectional manner with respect to the host computer 140 And the display system 120 transmits the control data to the host computer 140 in a bidirectional manner with respect to the simulation data, And the simulated cockpit 110 is connected to the host computer 140 in a manner that bi- And transmits the response data and the determination data to the system simulation panel 130. The system simulation panel 130 transmits operation data of the hardware, reaction signal data of the aircraft, and the determination data in a bidirectional manner to the host computer 140 .

Each configuration of the simulation training apparatus 100 for the above-mentioned aircraft maintenance training will be described.

First, the simulated cockpit 110, which simulates the simulated response, will be described, along with manipulating the on-board equipment required for the training procedure. The simulated cockpit 110 is equipped with an input / output system for handling equipment and signal processing necessary for operation check of the simulation training apparatus 100 and trouble search / elimination. In addition, the on-board equipment may be equipped with real equipment and simulation equipment, and a signal according to the operation of the on-board equipment is transmitted to the host computer 140 through the input / output system. On the other hand, the response of the simulated aircraft (for example, the instrument value, the lamp point / the light-off, etc.) can be visualized in the onboard equipment in the host computer 140 and the signal state between the onboard equipment and the input / / Abnormal) can be confirmed and checked.

Next, the display system 120 that displays the training procedures to be performed at present during the training procedure, displays the completion status when the training procedure is completed, and displays the linkage with the technical manual procedure will be described. The display system 120 is a training medium for a maintenance training trainee to perform an operation check, a trouble inquiry / exclusion, and a field removal training. The display system 120 displays learning contents for performing maintenance training such as training procedures, technical manual contents, and learning contents. In addition, it is possible to demonstrate training procedures for operation check and troubleshooting / exclusion training items (for example, linkage through technical manual style similarity expression or separate database), and support function using graphic simulation For example, connection / disconnection of supporting equipment, aircraft component exchange, connector connection / disconnection, warning, caution, and note sighting.

Next, the system simulation panel 130, which manipulates the hardware required for the training procedure, manipulates the content required for the training procedure, and the training procedure simulates the reaction, is described. The system simulation panel 130 is a training medium required for performing operation check, failure investigation / exclusion, and field removal training, and each component required for maintenance training is configured as a simulated part. , Aircraft parts, connectors, graphics, and so on. In addition, simulated hardware components required for training are mounted (eg, onboard equipment, support equipment, connectors, etc.), and 3D visibility (including internal) of 3D aircraft is possible. On the other hand, it is possible to manipulate and visualize on-board equipment and supporting equipment using 2D graphical simulation, and to check the pin-to-pin of the aircraft connector using the connector graphic display and the simulated multimeter , A check function of the multimeter operation state (normal / abnormal) is implemented).

Next, a description will be given of the host computer 140 that generates data values through the simulation software, judges whether the training procedure is erroneous operation, and calculates the simulation data value through the procedure movement. The host computer 140 is a computer equipped with simulation software for implementing an aircraft response required for operation check and trouble search / elimination. The host computer 140 simulates the entire system of the aircraft by software and calculates the response of the aircraft system according to each condition Signal to the subsystem. In addition, various supporting equipments required for maintenance training are simulated by software, signals are transmitted, training control and training procedure database, and internal / external interlocking signals are simulated. On the other hand, O and X are judged when the training procedure is carried out. In other words, it is judged to be O when maintenance trainees are trained according to the selected training procedures, and X when maintenance is different from the selected training procedures.

Finally, the current status of the training procedure is interlocked in real time, and it is checked whether there is a mistake operation. When the training procedure is completed, the maintenance training score is calculated through the evaluation score logic, the subsystem is checked, The computer 150 will be described. The instructor computer 150 is a device for performing control of the power of the training equipment, selecting the training items, moving the procedure, monitoring and monitoring the progress of the training, and performing training and management such as evaluation, And a function of power supply control (for example, total and individual power supply control). Also, it has the function of training and monitoring the training of the trainee under the supervision of the supervisor of the trainee, and has the training result review, file backup, print function, subsystem history management and checking function. On the other hand, it is possible to implement web configuration items (for example, to set scoring and evaluation factor ratios, to browse websites, etc.), and to provide self-diagnosis and inspection functions for training equipment (for example, I have.

The following describes a method of training aircraft maintenance using the simulator (100).

For ease of explanation, the present invention will be described by way of an example in which an aircraft maintenance training method using the simulator training apparatus 100 is performed in a group. However, the present invention is not limited to this embodiment, and the simulator maintenance training for maintenance of a civil aircraft It should be noted that it is used.

3 is a flow chart showing a maintenance training flow of the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention.

Referring to FIG. 3, an aircraft maintenance training method using a simulation training apparatus according to the present invention is an aircraft maintenance training method using a simulation training system. When power is supplied to each subsystem of the simulation training system, (S200) of selecting training items of the aircraft maintenance training (S200), and preparing simulated training equipment of the selected training items to perform simulated training The method includes the steps of initializing the simulated training equipment (S300), checking the check items and controlling the simulated training equipment according to the training procedures (S400), terminating the simulated training, (S500) of automatically evaluating the training result, storing the automatically evaluated evaluation result, and outputting the evaluation result (S600) But also performs a plurality of times the steps (S200) to the step (S500).

This will be described in more detail.

4 is a view illustrating a screen for performing a user login in the aircraft maintenance training method using the simulated training equipment according to the embodiment of the present invention.

Referring to FIG. 4, in order to carry out the maintenance training according to the aircraft maintenance training method using the simulated training equipment, the instructor first inputs the group number 1 and the private number 2, and then presses the confirmation button 3 The login screen closes and the power management screen is displayed.

Also, when the instructor presses the cancel button 4, the information for log-in (group number (1), password (2)) is canceled.

5 is a view illustrating a screen for performing power supply and self diagnosis in the aircraft maintenance training method using the simulated training equipment according to the embodiment of the present invention.

Referring to FIG. 5, when power is supplied to each subsystem of the simulation training system among the aircraft maintenance training methods using the simulation training apparatus according to the embodiment of the present invention, the host system of the simulation training system performs self- The step of performing diagnosis (S100) will be described.

Referring to the figure, in order to perform power supply and self-diagnosis, a total power control item 5 for a subsystem, a power control item 6 for each subsystem, And an operation state monitoring item (8) are required. Here, the total power control item 5 for the subsystem performs the power on function, and the power control item 6 for each subsystem can be controlled by selecting the image of the subsystem. On the other hand, the self-diagnosis result display item 7 displays the number of errors or error contents according to the self-diagnosis result, and can monitor the power and communication status in real time through the operation status monitoring item 8.

When each subsystem is powered on, it performs its own fault diagnosis and transmits the result to the supervisory computer 150. The supervisory computer 150 checks the power state and communication state of the corresponding system, Is displayed as the number of errors, contents, and a popup window at the bottom of the screen.

FIG. 6 is a view illustrating a screen for performing training mode and item selection in the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention.

Referring to FIG. 6, step S200 of selecting the training item of the aircraft maintenance training among the aircraft maintenance training methods using the simulation training equipment according to the embodiment of the present invention will be described.

In order to perform the training mode and item selection, a mode selection button 9, a training classification selection button 10, a training item list, a time, a procedure visualization item 11, A training item selection confirmation button 12 and a troubleshooting inquiry detail item selection window screen item 13 are required. Here, either the exercise or the evaluation can be selected through the mode selection button 9, and the operation check or the trouble search can be selected through the training classification selection button 10. When selecting the training item list, the time, and the procedure presenting item 11, the training item list and the time and procedure number according to the list are highlighted, and the selected training item selection confirmation button 12 You can switch to the procedure progress screen. On the other hand, it is possible to select the high magnetic field action part through the screen of the detail item selection window.

The instructor-seat computer 150 selects the training mode (exercise, evaluation), the training classification (operation check, trouble search), and the corresponding training item (fault code) for the item to be performed today. In the case of troubleshooting, additional training items can be selected after the training item.

Next, FIG. 7 is a view illustrating a screen for performing equipment initialization in the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention.

Referring to FIG. 7, in order to prepare simulation training equipment of the selected training items among the aircraft maintenance training methods using the simulation training equipment according to the embodiment of the present invention, initialization of the simulation training equipment (S300) will be described.

Referring to the figure, in order to perform the equipment initialization, an equipment initialization button 14, an initialization state value for each subsystem, a procedure initialization state view item 15, and an initialization completion training start button 16 are required Do.

In order to execute the selected training item, an initialization list for setting the hardware initialization state is output, and an item on the initialization list of the expert system computer 150 disappears when the itemized subsystem of the initialization list is manipulated. If initialization is not performed or simulation training is in progress, components recognized as failures can be skipped and allowed to proceed with training except for the faulty components. After confirming the completion of the initialization and selecting the OK button, if the training start button 16 is selected, the training is performed.

Next, FIG. 8 is a view showing a screen for performing training control and monitoring in the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention.

Referring to FIG. 8, description will be made of a step (S400) of confirming the check items among the aircraft maintenance training methods using the simulation training equipment according to the embodiment of the present invention, and controlling the simulation training equipment for each training procedure.

Referring to the figure, in order to perform training control and monitoring, a training procedure information visualization item 17, an icon 18 for confirming whether the procedure is normal, erroneous or not performed, a training progress button 19, A pause button 20, a training end button 21, an erroneous operation history output window 22, and a student's erroneous operation history real time output item 23 are required. Here, erroneous operation performance information by the trainee can be displayed through the erroneous operation history output window 22.

Further, after the completion of the initialization, the user selects the training start button 16 to proceed with the training. The current operation is highlighted (high-lighted), and the erroneous operation history is outputted through the erroneous operation history output window 22 in the erroneous operation, and accumulated information is accumulated in the training information. It is also possible to repeat certain procedures using the movement function during training. After confirming the completion of the training, if the training end button 21 is selected, the screen is switched to the evaluation screen.

9 is a view illustrating a screen for performing an instructor evaluation and training result storage in the aircraft maintenance training method using the simulated training equipment according to the embodiment of the present invention.

Referring to FIG. 9, step S500 of terminating the simulated training and automatically evaluating the simulated result of the training method using the simulated training equipment according to the embodiment of the present invention will be described.

Referring to the figure, in order to perform the evaluation of the instructor and the storage of the training results, an instructor evaluation item input and evaluation grade selection area 24, an instructor opinion input field 25 item, Is required.

The basic information and the execution result of the completed training are outputted, and the instructor inputs the evaluation items and rating input of the instructor and the opinion of the instructor through the consultant's computer 150. When the evaluation completion button is pressed, the result is stored in the supervisor computer 150. Pressing the evaluation storage button 26 asks whether to cancel the storage of the current result, and moves to the training item selection page.

10 is a view showing a screen for performing the output of the training results in the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention.

With reference to FIG. 10, description will be made of a step S600 of storing an evaluation result of the automatic evaluation of the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention, and outputting the evaluation result.

Referring to the drawing, a training result review screen item 27, a training result file open button 28 and a review result output selection button 29 are displayed on the display system 120 in order to output the training results. A training result confirmation button 30, a stored training result backup button 31, and a button 32 for outputting a training result offline. Here, the training performance information can be displayed through the training result review screen item 27, and the training result can be output through the button 30 for confirming the training result of the trainee.

First, the stored training result file is opened to review and output the training results. The basic information and the execution result of the stored training are confirmed, and the basic information of the stored training and the performance result Can be displayed. Also, if you select the icon to check whether the training is performed, you can check the misoperation of the trainee.

11 is a view illustrating a screen for performing power shutdown in the aircraft maintenance training method using the simulation training equipment according to the embodiment of the present invention.

Referring to FIG. 11, in order to perform power shutdown, a total power control item 5 for the subsystem and a power control item 6 for each subsystem are required. Here, the total power control item 5 for the subsystem performs the power off function, and the power control item 6 for each subsystem can be controlled by selecting the image of the subsystem.

The power supply of each subsystem is turned off and the supervisor computer 150 confirms the power state and the communication state of the corresponding subsystem as the upper right icon and the off state of the drawing. The supervisory computer 150 terminates the power supply after completion of the supervisory program.

A simulation training device that enables the students to acquire the theoretical learning ability which is the limit of the hardware-based training and to perform the maintenance action quantitatively by understanding the aircraft system by the aircraft maintenance training method using the simulated training equipment It is effective to provide an aircraft maintenance training method using the aircraft.

Although the embodiments of the present invention have been described above, various modifications may be made by those skilled in the art. Therefore, it should be understood that the present invention should not be construed as being limited to the above embodiments, but should be construed in accordance with the following claims.

100: simulation training equipment
110: Mock cockpit
120: Display system
130: system simulation panel
140: Host computer
150: Supervisor computer

Claims (11)

As an aircraft maintenance training method using a simulation training system,
Performing a self-diagnosis of each subsystem of the simulated training system when power is supplied to each subsystem of the simulated training system;
A step S200 of selecting training items of the aircraft maintenance training,
(S300) of preparing the simulated training equipment of the selected training item and initiating the simulated training equipment,
Checking the check items and controlling the simulator according to a training procedure (S400)
(S500) of terminating the simulated training and automatically evaluating the simulation training result,
Storing the automatically evaluated evaluation result and outputting the evaluation result (S600)
Wherein the step (S200) to the step (S500) are performed a plurality of times. The method according to claim 1,
In the step S100,
The results of the self-diagnostics for each of the subsystems performed are transmitted to a supervisor computer,
The power supply status and the communication status of the system can be checked in the supervisory computer,
Wherein the self diagnosis diagnostic result is displayed as the number of errors, contents, and a popup window at the bottom of the screen of the computer monitor. The method according to claim 1,
In the step S200,
Wherein the instructor computer selects a training mode and a training class for an item to be performed, and then selects a corresponding training item. The method of claim 3,
Wherein the training mode comprises an exercise mode and an evaluation mode,
Wherein the training classification comprises an operation check, a failure search, and a long-distance desorption. The method of claim 3,
The method of training aircraft maintenance training using simulated training equipment according to claim 1, characterized in that after the training item is selected, the detailed training item is additionally selected. The method according to claim 1,
In the step S300,
Wherein the initialization step sets the initialization state for performing training on the hardware in order to perform the selected training item, and then outputs a detailed procedure of the training item to be performed, Aircraft maintenance training method using equipment. The method according to claim 1,
In the step S300,
Wherein, when the initialization is not performed or the simulated training is in progress, skipping the components of the hardware recognized as a failure causes the maintenance training to be performed except for the components of the hardware that are faulty. Aircraft maintenance training method using equipment. The method according to claim 1,
In the step S400,
The simulated training equipment is checked for each reaction by performing the corresponding operation according to the training procedure, and if the normal maintenance procedure is performed,
When the simulator is erroneously operated, the details of the erroneous operation are output to the supervisor computer and accumulated in the training information of the trainee. A warning sound and a message for the erroneous operation are generated, , The score of the training information of the training information is decreased, and the simulated training system shows a different response. The method according to claim 1,
In the step S400,
And the specific procedure of the simulation training can be repeatedly performed. The method according to claim 1,
In step 500,
Ending the simulated training (S500)
Wherein the simulated training result is basic information and performance results of the completed maintenance training and is stored including the evaluation items of the instructor, the grade, and the opinion by the instructor computer. As simulation training equipment for aircraft maintenance education,
A simulated cockpit simulating the response of the simulated aircraft, manipulating the onboard equipment required for the training procedure,
A display system for presenting a training procedure to be performed during the training procedure, displaying a completion procedure when the training procedure is completed, and displaying the connection with the technical manual procedure,
A system simulation panel for operating hardware necessary for the training procedure, manipulating contents required for the training procedure, and simulating the reaction of the simulated aircraft;
A host computer for generating a data value through simulation software, determining whether the training procedure is erroneous operation, calculating a simulation data value through a procedure shift,
Checking whether the erroneous operation has been performed, calculating the maintenance training score through the evaluation score logic when the training procedure is completed, checking the subsystem, Including computer monitors,
Wherein the supervisory computer transmits selection data of the simulated training item, a database of the host computer and control signal data in a bidirectional manner to the host computer,
The display system transmits simulation data on the simulation training state control and interlocking data and whether or not the simulation training procedure is normally performed in a bidirectional manner with the host computer,
Wherein the simulated cockpit transmits operation data of the on-board equipment and reaction signal data of the aircraft and the judgment data in a bidirectional manner with the host computer,
Wherein the system simulation panel transmits operation data of the hardware, reaction signal data of the aircraft, and the determination data in a bi-directional manner with the host computer.

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