KR102037947B1 - Method, Apparatus and System for Training for Interworking Identification Friend or Foe - Google Patents

Abstract

Disclosed by the present invention are a simulation training system to interwork with the identification of friend or foe, a simulation training apparatus and a method thereof. According to an embodiment of the present invention, the simulation training apparatus to interwork with the identification of friend or foe includes: an instructor training controlling unit which generates a simulation training scenario and controls a simulation training operation using a new mode; an aerial threat simulation processing unit which generates track information against an aerial threat object based on the simulation training scenario; a control station simulation processing unit which generates a simulation control station for at least one of an operation control station and an engagement control station to perform the identification of friend or foe; and a multifunctional radar simulation processing unit which detects an aerial threat target within a preset detection range based on the simulation training scenario and the track information, and performs simulation training by transmitting to the simulation control station a friend or foe identification-linked message having performed the identification of friend or foe against the aerial threat target based on the new mode.

Description

Mock Training System, Apparatus and Apparatus for Interworking Identification {Method, Apparatus and System for Training for Interworking Identification Friend or Foe}

The present invention relates to a simulation training system, simulation training apparatus and method for linking child identification between the old mode and the new mode.

The contents described in this section merely provide background information on the embodiments of the present invention and do not constitute a prior art.

In general, identification friend or foe (IFF) is an encryption device that identifies enemies and allies by using radio waves or sound waves.Weapons such as air vehicles, water vehicles, underwater vehicles, interceptors, and surface-to-air attack means It is installed in the system.

At present, the operating system of the child identification system in Korea uses the old mode, but as the operation system of the child identification system in foreign countries is replaced with the new mode, the training equipment supporting the education of instructors and students should also have the environment to test and train the new mode. .

The operation / action control training method is divided into engagement control training, individual operation control training, and team training, and through the modeling and simulation (M & S) -based training equipment, operators perform air defense operation procedures in a realistic environment. Provide a hands-on environment.

If the existing child identification system is replaced with the new mode from the old mode, training should be carried out in the new mode to apply the new child identification training, but the current training equipment is equipped with the training environment based on the old mode. Therefore, a new mode-based training environment is needed for instructor and student IDE training.

The present invention performs a simulation training using the simulation control test scenario and the operation control station simulation information generated based on the track information and simulation information generated based on the new mode, the simulation training system for interlocking child identification to evaluate this; The main purpose is to provide a simulation training apparatus and method.

According to an aspect of the present invention, the simulation training apparatus for achieving the above object is to create a simulation training scenario, the instructor training control unit for controlling the simulation training operation using the new mode; An aerial threat simulation processing unit for generating track information on the aerial threat object based on the simulation training scenario; A control station simulation processing unit that generates a simulation control station for at least one of an operation control station and an engagement control station for performing child identification; And detecting an aerial threat target within a preset detection range based on the simulation training scenario and the track information, and performing an enemy identification identification on the aerial threat target based on the new mode. It may include a multi-function radar simulation processing unit to transmit to perform a simulation training.

In addition, according to another aspect of the present invention, the simulation training method for achieving the above object is to generate a simulation training scenario, the simulation training control step of controlling the simulation training operation using the new mode; An aerial threat simulation processing step of generating track information on an aerial threat object based on the simulation training scenario; A detection step of detecting an aerial threat target within a preset detection range based on the simulation training scenario and the track information; A child-host identification processing step of generating a child-id identification linkage message by performing a child-id identification on the target of the aerial threat based on the new mode according to the detection result of the aerial threat; A control station simulation processing step of applying the child identification identification linkage message to a simulation control station for at least one of an operation control center and an engagement control center; And a simulation training step of performing simulation training based on the application result of the simulation control station.

As described above, the present invention generates aerial threat simulation information including the new mode information from the aerial threat object, and when captured by the multi-function radar simulator, transmits IFF information to each engagement control center (ECS) to determine students' identification. After verifying the information, it is effective to practice the training exercises.

1 is a block diagram schematically showing a simulation training system for linking child identification according to an embodiment of the present invention.
2 is a view showing the configuration of a simulation training system for linking child identification according to an embodiment of the present invention.
3 is a flowchart illustrating a simulation training method for linking child identification according to an embodiment of the present invention.
4 is a view for explaining in detail the simulation training operation according to an embodiment of the present invention.
Figure 5 is a block diagram schematically showing a simulation training apparatus according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the following will describe a preferred embodiment of the present invention, but the technical idea of the present invention is not limited thereto and may be variously modified and modified by those skilled in the art. Hereinafter, with reference to the drawings will be described in detail with respect to the simulation training system, simulation training apparatus and method for interworking identification proposed in the present invention.

In the field of defense simulation training, interlocking training using actual shooting test or actual system may be limited due to domestic training grounds, budget constraints and safety issues. In this case, the above-described constraints and risks can be solved by developing and using a simulation training system for performing real fire test and weapon system integration test through virtual engagement environment. The simulation training system according to the present invention can support the simulation training reflecting the change applied to the new mode through the software change of the existing simulation training system.

The present invention will be described for the design method of the simulation training system for linking child identification and the operation of the components included in the simulation training system. The old mode of the present invention may be an IFF old mode and the new mode may be an IFF new mode, but is not necessarily limited thereto, and may be a different version of mode capable of identifying children.

1 is a block diagram schematically showing a simulation training system for linking child identification according to an embodiment of the present invention.

The child identification simulation training system 100 according to the present embodiment includes an instructor training control device 110, an air threat simulator 120, a multifunctional radar simulator 130, and an engagement control station simulator (ECS: Engagement Control Station, 140). And Information Coordination Central (ICC). The IDE simulation training system 100 of FIG. 1 is according to an exemplary embodiment, and not all blocks illustrated in FIG. 1 are essential components, and in some embodiments, some blocks included in the IDE training system 100 are different. This can be added, changed or deleted.

Instructor training control device 110 performs the control of the overall operation of the simulation training system. The instructor training control unit 110 performs scenario generation and management for the simulation training test, and controls the start and stop of the simulation training test.

The aerial threat simulator 120 provides threatening objects in the air. The aerial threat simulator 120 may generate and manage a threatenable object in the air for the simulation training test. Here, the threatening object in the air may be a flying vehicle, but is not necessarily limited thereto, and may be an aerial vehicle having a cruise guidance, anti-radiation guidance, and ballistic tracking function.

Multi-function radar simulator 130 performs a simulation training test for the function of the multi-function radar. The multi-function radar simulator 130 has a plurality of functions such as the detection radar and the tracking radar of a single function to simulate the radar having the functions of detection, tracking, air vehicle guidance, child identification, area detection, and intercept confirmation. Handle training exams.

In addition, the multi-function radar simulator 130 performs the interface interworking of the new mode in the simulation training test.

Engagement control station simulator 140 generates simulation information for the device for controlling the engagement system of the actual weapon system. The engagement control station simulator 140 may generate simulation information to be controlled by reflecting in the engagement system of the real weapon system when obtaining the threat object information according to the new mode from the multi-function radar simulator 130.

The operation control station simulator 150 generates simulation information on the device for controlling the operation system of the real weapon system. When the operation control station simulator 150 acquires threat object information and engagement system simulation information according to the new mode from the engagement control station simulator 140, the operation control station simulator 150 may generate simulation information to be controlled by reflecting the operation system of the real weapon system. .

Hereinafter, the simulation training operation of the simulation training system 100 will be described.

The instructor training control device 110 transmits the simulation training test scenario generated based on the operator's input signal to the aerial threat simulator 120, and receives the aerial threat object information as a response signal corresponding to the simulation training test scenario. . Thereafter, the instructor training control device 110 controls to start the simulation training test according to the input signal of the operator.

The multi-function radar simulator 130 detects an air threat object for a simulation training test using a multi-function radar, and transmits a new mode based IDE query code for the detected air threat object to the air threat simulator 120. do.

The multi-function radar simulator 130 obtains a response code corresponding to the child identification query code from the aerial threat simulator 120 and performs identification of the aerial threat object. The multi-function radar simulator 130 transmits the new mode-based aerial threat object information to the combat control simulator 140 based on the result of the child identification of the aerial threat object to be reflected in the engagement system of the weapon system.

In addition, the engagement control station simulator 140 transmits the new mode-based aerial threat object information to the operation control station simulator 150 to be reflected in the weapon system operation system.

The instructor training control device 110 controls the simulation training is performed based on the engagement system and operation system simulation information reflecting the new mode-based aerial threat object information.

2 is a view showing the configuration of a simulation training system for linking child identification according to an embodiment of the present invention.

Referring to FIG. 2, the new mode-based simulation training system 100 includes an instructor training control device 110, an air threat simulator 120, a multi-function radar simulator 130, an engagement control device 140, and operation control. Apparatus 150, and may further include a datalink unit simulator 210, student training controller 220, guided missile simulator 230 and launch pad simulator 240.

Hereinafter, the operation of providing a simulation training test for student training in the simulation training system 100 will be described.

The instructor training control device 110 generates and sets the data link unit simulator 210 and the child identification code, and controls the simulation simulation training test through the engagement control request signal.

The data link unit simulator 210 cooperates with the aerial threat simulator 120 to provide aerial threat simulation information on the aerial threat object to the multifunctional radar simulator 130.

The multi-function radar simulator 130 interworks with the guided missile simulator 230 to transmit and receive bullet simulation information according to the aerial threat simulation information.

The multi-function radar simulator 130 transmits the information on the aerial threat object determined based on the aerial threat simulation information to the engagement control station simulator 140. In this case, the information on the threat object includes new mode-based information and Managed Security Service (MSS) information.

Engagement control station simulator 140 may obtain a control command from the student training controller 220 operated under the management of the instructor training control device 110 or instructor training control device (110). Engagement control station simulator 140 may control the launch simulator 240 in accordance with the control command.

In addition, the warfare control station simulator 140 transmits information on the new mode-based aerial threat object to the operation control station simulator 150, the operation control station simulator 150 is determined based on the new mode identification result. You can control the operation.

The simulation training system 100 generates a new mode-based interworking identification message having a plurality of levels in the course of conducting a simulation training test based on the new control mode with the combat control station simulator 140 and the operation control station simulator 150. Can send and receive For example, the simulation training system 100 may obtain a level 1 signal using new mode response information such as a small child identification and a unique identification number of an aerial vehicle as basic information. Meanwhile, the simulation training system 100 may acquire a level 2 signal including latitude / longitude, an altitude information unique identification number, mission / operation information, etc. as the new mode response information. In addition, the simulation training system 100 may broadcast a level 2 signal (for example, 5 to 9 times / second) when the simulation training test is started, and obtain response information thereto.

3 is a flowchart illustrating a simulation training method for linking child identification according to an embodiment of the present invention.

Instructor training control device 110 generates a simulation training test scenario for a threatening object in the air based on the input signal of the operator (S310). Instructor training control unit 110 may generate a new mode-based simulation training test scenarios, and may load the pre-stored simulation training test scenarios. Here, an object capable of threatening (rotating wing, fixed wing, etc.) in the air may be a flying vehicle, but is not limited thereto, and may be an aerial vehicle having a cruise induction, anti-radiation induction, and ballistic tracking function.

Instructor training control device 110 distributes the simulation training test scenarios to at least one simulator (S320). Instructor training control unit 110 may distribute the simulation test scenario to at least one test configuration simulator of the aerial threat simulator 120, multi-function radar simulator 130, subordinate artillery simulator 138. Here, the simulation training scenario may include an attack scenario, a defense scenario.

The instructor training control unit 110 controls to start the simulation training test, and to operate each of the plurality of simulators in accordance with the generated simulation training test scenario (S330).

The aerial threat simulator 120 generates tracks after identifying information on the aerial threat object based on the simulation training test scenario in the database (S340).

The multi-function radar simulator 130 detects and captures aerial threats or tracks within the detection range (S350). When the multi-function radar simulator 130 detects an air threat, the multi-function radar simulator 130 obtains a new mode based IDF query information from the air threat simulator 120 (S352). The multi-function radar simulator 130 identifies and displays the child identification of the aerial threat object based on the IF query information (S360).

Engagement control station simulator 140 receives the information on the threat object from the multi-function radar simulator 130, and confirms and displays the child identification (S370).

The operation control station simulator 150 receives the information on the threat object from the engagement control station simulator 140, and confirms and displays the child identification (S380).

Instructor training control device 110, if it is determined that the enemy is the right time as a result of the identification of the child threat identification (S390), transmits the enemy child identification (IFF) information of the aerial threat object to the engagement control center simulator 140. Instructor training control device 110 performs the engagement control for the student training-based simulation training test through the engagement command (S392). Instructor training control device 110 performs the training of the simulation training test, and monitors this (S394).

Instructor training control device 110 checks the training observation screen in conjunction with the student training controller 220, and through this performs a comprehensive check and evaluation of the training situation of the simulation training test (S396).

In FIG. 3, the steps are described as being sequentially executed, but are not necessarily limited thereto. In other words, since the steps described in FIG. 3 may be applied by changing or executing one or more steps in parallel, FIG. 3 is not limited to the time series order.

The simulation training method for interlocking child identification according to the present embodiment described in FIG. 3 may be implemented in an application (or program) and recorded on a recording medium readable by a terminal device (or computer). An application (or program) for implementing the simulation training method for interlocking child identification according to the present embodiment is recorded, and the recording medium readable by the terminal device (or computer) includes all data that can be read by the computing system. Kinds of recording devices or media.

4 is a view for explaining in detail the simulation training operation according to an embodiment of the present invention.

Instructor training control device 110 generates a simulation training test scenario based on the information obtained from the external device. The instructor training control unit 110 delivers the generated simulation training test scenarios to the aerial threat simulator 120, the multi-function radar simulator 130, the subordinate artillery simulator 240, and share the simulation training test scenarios. Control the start of the test.

The aerial threat simulator 120 generates track information on the aerial threat object based on the simulation training scenario. The aerial threat simulator 120 generates track information for each aerial threat object by assigning an individual ID to each identified aerial threat object, and the track information includes a national code, a mission code, and a PIN number. Platform identification).

The aerial threat simulator 120 shares track information with the multifunction radar simulator 130 and the engagement control station simulator 140.

The multi-function radar simulator 130 obtains the spherical mode-based enemy identification information for the track information from the engagement control station simulator 140, and transfers the acquired enemy identification information to the aerial threat simulator 120.

The aerial threat generator 120 generates signal confusion simulation information and frit simulation information based on the track information and the spherical mode based child identification information and transmits the generated signal to the multi-function radar simulator 130. Here, the signal confusion simulation information refers to the simulation information on the signal mixing phenomenon generated when the air objects are crowded, and the distortion simulation information refers to the phenomenon of receiving response information that does not match the query information of the child identification. The corresponding simulation information.

In addition, the aerial threat simulator 120 transmits random delay information (Random Delay) for a different time delay for each of the aerial threat targets to the multi-function radar simulator (130). Here, the random delay information means delay information for distinguishing a plurality of aerial threat targets.

The multi-function radar simulator 130 detects an aerial threat target within a set detection range based on a plurality of information received from the aerial threat simulator 120, and determines a primary enemy identification for the detected aerial threat target. Transfer to the control station simulator 140.

The multi-function radar simulator 130 obtains the new mode query information (Lethal) from the combat control station simulator 140 based on the first child identification, and sets the query information (Lethal) of the new mode to the aerial threat simulator ( 120).

The aerial threat simulator 120 returns the response information of the new mode corresponding to the query information (Lethal) of the new mode to the multi-function radar simulator 130 so that the identification is performed.

The multi-function radar simulator 130 performs an enemy identification of the aerial threat target based on the response information of the new mode, and transmits the enemy identification identification interworking message to the engagement control station simulator 140. Engagement control station simulator 140 performs the engagement determination based on the child identification identification linkage message. In addition, the encounter control station simulator 140 may update the tactical engagement procedure by sharing a new mode question and answer table for the child identification based on the child identification identification interworking message.

On the other hand, the multi-function radar simulator 130 is described as performing a small identification based on the response information of the new mode, but is not necessarily limited to this, and transmits the response information of the new mode to the engagement control station simulator 140 In the engagement control station simulator 140, the identification may be performed based on the response information of the new mode.

Figure 5 is a block diagram schematically showing a simulation training apparatus according to an embodiment of the present invention.

The child identification simulation training apparatus 500 according to the present embodiment includes an instructor training control unit 510, an aerial threat simulation processing unit 520, a multifunctional radar simulation processing unit 530, and a control station simulation processing unit 540. . The child identification simulation training apparatus 500 of FIG. 5 is according to an embodiment, and all blocks shown in FIG. 5 are not essential components, and in some embodiments, some blocks included in the child identification simulation training apparatus 500 are shown. This can be added, changed or deleted.

The instructor training control unit 510 generates a simulation training test scenario, and controls the simulation training operation using the new mode.

The instructor training control unit 510 generates a simulation training test scenario based on information input from an operator or information obtained from an external device. Here, the simulation training test scenarios are scenarios for mock training, and may include attack scenarios or defense scenarios generated based on information such as simulation information, situation information, and operation information.

The instructor training controller 510 transmits the generated test scenarios to the aerial threat simulation processor 520 and the multi-function radar simulation processor 530 to share the simulation training test scenarios. That is, the instructor training control unit 510 shares the simulation training test scenarios so that the track information and enemy identification of the aerial threat objects are performed according to the simulation training test scenarios.

The instructor training control unit 510 may control the start and stop operation of the simulation training according to the simulation training test scenario based on the operation information of the operator, and when the simulation training starts the aerial threat simulation processing unit 520, The multi-function radar simulation processing unit 530 or the like to share the operation.

The aerial threat simulation processing unit 520 generates the track information on the aerial threat object based on the simulation training test scenario.

The aerial threat simulation processing unit 520 may interwork with a database, identify information on an aerial threat object previously stored in the database, and generate track information based on the identified aerial threat object.

The aerial threat simulation processing unit 520 generates track information for each aerial threat object by assigning an individual ID to each identified aerial threat object, and the track information includes a national code, a mission code, and a PIN number. Platform identification).

In addition, the aerial threat simulation processing unit 520 may generate track information so that the selective response response according to the identification of each public threat object is possible.

In addition, the aerial threat simulation processing unit 520 may generate signal confusion simulation information, distortion simulation information, and the like based on the track information and transmit the generated signal to the multi-function radar simulation processing unit 530.

The aerial threat simulation processing unit 520 generates the signal confusion simulation information on the signal mixing phenomenon generated when the air objects are concentrated based on the spherical mode, and generates the generated signal confusion simulation information to the multifunction radar simulation processing unit 530. Can transmit

In addition, the aerial threat simulation processing unit 520 generates the distortion simulation information corresponding to the phenomenon of receiving response information that does not match the query information of the child identification based on the spherical mode, and generates the generated distortion simulation information multifunctional. The radar simulation processor 530 may transmit the data.

The aerial threat simulation processing unit 520 transmits the signal confusion simulation information and the distortion simulation information to the multifunction radar simulation processing unit 530, so that the multifunction radar simulation processing unit 530 simulates the signal confusion simulation information and the distortion simulation information based on the new mode. Etc., and using the identified signal confusion simulation information, distortion simulation information, etc. to make a child identification identification interworking message is generated.

The multi-function radar simulation processing unit 530 detects the air threat target within the preset detection range based on the test scenario and the track information when the simulation training device 800 is interlocked with the engagement control station simulator 140, and the new mode. Based on this, the hostile identification of the aerial threat target is performed.

The multi-function radar simulation processing unit 530 generates a child identification identification interlock message according to the result of the identification identification, and transmits the generated identification identification linkage message to the engagement control station simulator 140.

The multi-function radar simulation processing unit 530 transmits the query information of the new mode to the aerial threat target, and responds to the response information corresponding to the query information from the aerial threat target, and performs the identification.

In addition, the multi-function radar simulation processing unit 530 may check the signal confusion simulation information, the distortion simulation information, etc. based on the new mode, and may generate an interlocking identification message using the identified signal confusion simulation information, the distortion simulation information, and the like. have.

The multi-function radar simulation processing unit 530 transmits the interlocking identification message based on the new mode-based identification of the child identification to the engagement control station simulator 140, and the new mode question answering response to the identification of the child placement in the engagement control station 140. Share the table so that tactical engagement procedures are updated.

Control station simulation processing unit 540 when the simulation training device 800 interlocks with the operation control station 120, and generates a submarine turret simulation information for the submarine turret including the engagement control station simulator 140.

The control station simulation processing unit 540 may generate subordinate artillery simulation information for at least one engagement control station, a launch pad, and a multifunctional radar.

The control simulation simulation unit 540 detects the aerial threat based on the test scenario and the track information, and performs a new mode-based identification of the submarine turret according to the detection result.

The control center simulation processing unit 540 generates a child-id identification linkage message according to the result of performing the child-id identification on the subordinate turret, and transmits the generated child-id identification linkage message to the engagement control center simulator 140 and the operation control station simulator 150. .

The control station simulation processing unit 540 transmits the query information of the new mode to the aerial threat target, and responds to the response information corresponding to the query information from the aerial threat target, and performs the identification.

The control center simulation processing unit 540 confirms the identification of the child identification in the operation control center 120 as the control mode simulation unit 150 transmits the child identification identification interworking message according to the result of performing the new mode-based identification of the child control to the engagement control station simulator 140 and the operation control station simulator 150. And the war operations.

The above description is merely illustrative of the technical spirit of the embodiments of the present invention, and those skilled in the art to which the embodiments of the present invention belong will various modifications and modifications without departing from the essential characteristics of the embodiments of the present invention. Modifications may be possible. Therefore, the embodiments of the present invention are not intended to limit the technical spirit of the embodiments of the present invention, but to describe, and the scope of the technical spirit of the embodiments of the present invention is not limited by these embodiments. The protection scope of the embodiments of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the embodiments of the present invention.

100: simulation training system
110: instructor training control device 120: air threat simulator
130: Multi-function Radar Simulator 140: Engagement Control Station Simulator
150: Operation Control Station Simulator
210: data link unit simulator 220: student training controller
230: guided missile simulator 240: launcher simulator
500: Identifier Simulator
510: instructor training control unit 520: air threat simulation processing unit
530: multi-function radar simulation processing unit 540: control station simulation processing unit

Claims (13)

Instructor training control unit for generating a simulation training scenario, and control the simulation training operation using the new mode;
An aerial threat simulation processing unit for generating track information on the aerial threat object based on the simulation training scenario;
A control station simulation processing unit that generates a simulation control station for at least one of an operation control station and an engagement control station for performing child identification; And
Based on the simulation training scenario and the track information, an aerial threat target is detected within a preset detection range, and an enemy identification linkage interworking message for performing the identification of the aerial threat target based on the new mode is sent to the simulation control station. Multi-function radar simulation processing unit for transmitting and performing the simulation,
The aerial threat simulation processing unit,
It interlocks with a database, identifies the information about the aerial threat object previously stored in the database, generates the track information based on the identified aerial threat object, and responds selectively to the aerial threat object according to the identification. Simulation device for interlocking child identification, characterized in that to generate the track information to. The method of claim 1,
The instructor training control unit,
A simulation training scenario is generated based on information input from an operator or information obtained from an external device, and the simulation training scenario is shared with the aerial threat simulation processing unit and the multi-function radar simulation processing unit. Simulator. The method of claim 2,
The instructor training control unit,
Generate the simulation training scenario including an attack scenario or a defense scenario, and control the start and stop operations of the simulation training according to the simulation training scenario,
When the simulation training is started, the simulation training device for interworking identification, characterized in that for sharing the simulation training scenario. delete The method of claim 1,
The aerial threat simulation processing unit,
Generating the track information for each aerial threat object by assigning an individual ID to each of the identified aerial threat objects;
The track information is simulated training apparatus for interlocking child identification, characterized in that generated based on at least one of the National Code (National Origin), Mission Code (Platform Identification). delete The method of claim 1,
The instructor training control unit,
Monitoring for the simulation training, the simulation training device for interlocking child identification, characterized in that to perform the evaluation according to a predetermined criterion for the simulation training. The method of claim 1,
The aerial threat simulation processing unit,
Generating signal confusion simulation information on the signal mixing phenomenon generated when the air objects are concentrated based on the spherical mode based on the track information, and transmitting the signal confusion simulation information to the multi-function radar simulation processing unit,
The multi-function radar simulation processing unit, the simulation training apparatus for interlocking identification identification, characterized in that for generating the linkage identification message by identifying the confusion simulation information based on the new mode. The method of claim 1,
The aerial threat simulation processing unit,
Generating distortion simulation information corresponding to a phenomenon of receiving response information not matching the query information of the child identification based on the spherical mode, and transmitting the distortion simulation information to the multi-function radar simulation processing unit,
The multi-function radar simulation processing unit, the simulation training device for interlocking identification identification, characterized in that for generating the linkage identification message by identifying the distortion simulation information based on the new mode. In the method of the simulation training device to perform the simulation training for linkage identification,
A simulation training step of generating a simulation training scenario and controlling a simulation training operation using the new mode;
An aerial threat simulation processing step of generating track information on an aerial threat object based on the simulation training scenario;
A detection step of detecting an aerial threat target within a preset detection range based on the simulation training scenario and the track information;
A child-host identification processing step of generating a child-id identification linkage message by performing a child-id identification on the target of the aerial threat based on the new mode according to the detection result of the aerial threat;
A control station simulation processing step of applying the child identification identification linkage message to a simulation control station for at least one of an operation control center and an engagement control center; And
Including the simulation training step of performing the simulation training based on the results of the application of the simulation control station,
The aerial threat simulation step,
It interlocks with a database, identifies the information about the aerial threat object previously stored in the database, generates the track information based on the identified aerial threat object, and responds selectively to the aerial threat object according to the identification. Simulation method for linking child identification, characterized in that to generate the track information to. The method of claim 10,
The little identification process step,
And transmitting the query information in the new mode to the aerial threat target, and receiving the response information corresponding to the query information from the aerial threat target, to perform the child identification. The method of claim 10,
The simulation training step,
Monitoring for the simulation training, and the simulation training method for interlocking child identification, characterized in that to perform the evaluation according to a predetermined criteria for the simulation training. A computer program stored in a medium for executing a simulation training method according to any one of claims 10 to 12 in a computer.

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