CN112489520B - Login obstacle-breaking training system and construction method thereof - Google Patents

Abstract

The invention discloses a landing obstacle-breaking training system and a construction method thereof, wherein the system comprises a guidance control subsystem, an unmanned blue army, a landing obstacle-breaking team, a digital obstacle field and a basic support environment; the basic supporting environment provides software and hardware environments for guiding, controlling and controlling the operation of a subsystem, an unmanned blue army, a landing obstacle breaking team and a digital obstacle field, and by providing a landing obstacle breaking training system scheme based on the unmanned blue army and the digital obstacle field, the unmanned blue army is utilized to solve the problem of construction of the blue army under the live ammunition shooting background, supplement fighting elements of the red and blue parties, improve the practical level of landing obstacle breaking training and greatly improve the quality and effect of the landing obstacle breaking training.

Description

Login obstacle-breaking training system and construction method thereof

Technical Field

The invention relates to the field of military training, in particular to a landing obstacle-breaking training system and a construction method thereof.

Background

The barrier breaking during landing is an important military operation for island-climbing operations, and the current barrier breaking during landing squad faces the following difficulties in actual combat training: firstly, the actual combat environment is difficult to set, and as the barrier breaking team is landed to carry out barrier breaking training by live ammunition, in order to avoid casualties, an entity blue army is not generally set, so that the barrier breaking process lacks countermeasures and is disjointed with the actual combat requirements; secondly, the obstacle-breaking effect is difficult to be scientifically evaluated, and due to the reasons of various obstacles, wide coverage range, complex enough environment and the like, damage information of various obstacles is difficult to be efficiently collected in real time, so that the obstacle-breaking effect evaluation difficulty is very high. At present, with the rapid development of technologies such as unmanned, military simulation, big data analysis, artificial intelligence, high-speed communication and the like, the method measures such as unmanned equipment, virtual and real combined obstacle system construction, digital battlefield environment generation, high-speed data acquisition and processing, automatic battle capacity evaluation and the like are utilized, the contradiction difficulty of obstacle-breaking teams in actual combat training can be effectively solved, and support is provided for constructing an confrontation training system meeting the actual combat training requirements.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a scheme of a landing obstacle-breaking training system based on an unmanned navy and a digital obstacle field, and can greatly improve the quality and the effect of the landing obstacle-breaking training, aiming at the problems that the actual combat environment is difficult to set, the obstacle-breaking effect is difficult to evaluate scientifically and the like in the current landing obstacle-breaking training.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a landing barrier-breaking training system comprises a guidance control subsystem, an unmanned navy, a landing barrier-breaking team, a digital barrier field and a basic supporting environment; the basic supporting environment provides software and hardware environments for the operation of a pilot control subsystem, an unmanned blue army, a landing obstacle-breaking team and a digital obstacle field.

Preferably, the guidance control subsystem comprises a training planning unit, a data management unit, a comprehensive display unit, an evaluation analysis unit and a guidance regulation intervention unit, and is used for generating and issuing a training scheme, monitoring situation fusion, conditioning real-time plots, collecting and distributing data, and evaluating, analyzing and calculating.

Preferably, the unmanned navy comprises a simulation deduction unit, a navy communication network and unmanned military force equipment, is used for constructing the navy based on the unmanned military equipment, and truly embodies the fighting thought and the military force equipment of main fighting opponents.

Preferably, the login and obstacle-breaking squad comprises a command post, manned military force equipment and unmanned military force equipment of the red military, and is used for training of information reconnaissance, command control, firepower striking, comprehensive guarantee and the like of the login and obstacle-breaking squad.

Preferably, the digital barrier field comprises a digital rail, 30758a digital mine, a digital triangular pyramid, a digital wire mesh, a digital barrier trench and a digital barrier wall, is used for simulating an anti-landing barrier field arranged by a bluesquare, and simultaneously has the functions of automatically acquiring and uploading damage information and is used for evaluating the efficiency of a landing barrier-breaking action.

Preferably, the basic supporting environment comprises a model resource library, a simulation engine, a high-speed communication network and a basic hardware unit, and is used for providing model services, simulation calculation services, communication services, positioning and time service, storage services and calculation services for a guidance control subsystem, an unmanned blue army, a login obstacle-breaking team and a digital obstacle field.

Preferably, the high-speed communication network consists of an iron tower, optical fibers and a 4G/5G network and is used for providing a communication means for each data node in a training field, wherein optical fiber communication is adopted among fixed data nodes, and other data nodes adopt 4G/5G wireless network communication.

Preferably, the basic hardware unit comprises a positioning time service module, a storage module, a calculation module and a management control module.

A construction method of a login barrier-breaking training system comprises the following steps:

s1: the training planning unit generates a preliminary training scheme according to the training task by combining the data resource information, and finishes training compilation and training scenario design; deduction, verification and optimization are carried out on the scheme, and the scheme is pushed to an unmanned blue army and a login obstacle-breaking team; carrying out overall control on the training process, and issuing a training starting instruction after the preparation of an unmanned blue army and a barrier-breaking landing team is finished, wherein the training can be suspended, continued and ended in the training process;

s2: the data management unit collects military force equipment, damage resistance, battlefield environment, command password and tactical action information in real time by relying on a high-speed communication network, and pushes related data to the simulation deduction unit and the red army military force equipment as required; the pilot modulation interference pre-unit acquires video information and command password information in real time; the evaluation and analysis unit carries out statistical calculation on actions, war losses, war fruits, material consumption and the like of both the unmanned blue army and the login obstacle-breaking squad, and outputs and displays the actions, war losses, war fruits, material consumption and the like in a mode of graphics, tables and characters, so that a director can know and master drilling and guarantee conditions in an all-around, multi-angle and hierarchical manner; scientifically evaluating the combat capability of the trained army by using a corresponding evaluation model according to data generated in the countermeasure process, and automatically generating a capability evaluation report; the comprehensive display unit displays training schemes, battlefield environments, strength compositions, guidance, adjustment and evaluation, battle situations, battle actions, battle results and evaluation and analysis information, and can select display elements according to needs;

s3: the manned force equipment of the red army adopts an actual soldier actual installation, a laser/data receiving device is additionally arranged on the actual soldier actual installation, and after being hit by laser/data of the unmanned blue army, under the support of a damage calculation model, the evaluation and judgment in the confrontation process are completed; the red-army unmanned military force equipment implements barrier-breaking action under the cooperative control of a command post, the red-army unmanned force equipment is additionally provided with a laser/data receiving device, and after being hit by laser/data of an unmanned blue army, under the support of a damage calculation model, the evaluation and judgment in the confrontation process are completed.

The invention has the beneficial effects that:

(1) In the prior art, as live ammunition shooting is used for avoiding casualties, a physical blue army is not generally arranged, and the difference between the training process and the actual combat requirement is large.

(2) In the obstacle breaking process, the digital obstacle field is utilized, the damage information of the obstacle field can be automatically collected and uploaded, the damage evaluation can be carried out according to a pre-designed evaluation model, the automation level and the accuracy of the damage evaluation are improved, and the efficiency evaluation is objective and efficient.

Drawings

FIG. 1 is a schematic view of the composition of the present invention.

Fig. 2 is a schematic diagram of information flow according to the present invention.

In the figure: 1 is a regulatory control subsystem; 11 is a training planning unit; 12 is a data management unit; 13 is an integrated display unit; 14 is an evaluation analysis unit; 15 is a pilot conditioning pre-drying unit;

2 is the unmanned blue army; 21 is a simulation deduction unit; 22 is a blue army communication network; 23 is unmanned military equipment;

3, logging in barrier-breaking teams; 31 is a command post; 32 is the red army military force equipment; 33 is unmanned military equipment of red army;

4 is a digitized obstacle field; 41 is a digital rail (30758); 42 is a digitized mine; 43 is a digital triangular pyramid; 44 is a digital wire mesh; 45 is a digital barrier trench; 46 is a digital isolation wall;

5 is the basic support environment; 51 is a model repository; 52 is a simulation engine; 53 is a high speed communication network; 54 is a basic hardware unit; 541 is a positioning time service module; 542 is a memory module; 543 is a calculation module; 544 is a management control module.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the accompanying drawings.

As shown in the attached figure 1, the system comprises a guidance control subsystem 1, an unmanned navy 2, a landing obstacle-breaking team 3, a digital obstacle field 4 and a basic support environment 5; the basic supporting environment 5 provides software and hardware environments for the operation of the pilot control subsystem 1, the unmanned navy 2, the landing obstacle-breaking squad 3 and the digital obstacle field 4.

Preferably, the guidance control subsystem 1 includes a training planning unit 11, a data management unit 12, a comprehensive display unit 13, an evaluation analysis unit 14, and a guidance and regulation intervention unit 15, and is mainly used for generating and issuing a training scheme, performing situation fusion monitoring, performing real-time plot regulation, collecting and distributing data, evaluating, analyzing, and calculating, and the like.

As shown in fig. 2, the training planning unit 11 generates a preliminary training scheme according to the training task by combining data resource information (military equipment, combat rules, training scenarios, historical data, etc.), and completes training compilation, training scenario design, etc.; deducting, verifying and optimizing the scheme, and pushing the scheme to an unmanned blue army 2 and a login obstacle-breaking squad 3; and (3) carrying out global control on the training process, and issuing a training starting instruction after the preparation of the unmanned blue army 2 and the barrier-breaking logged team 3 is finished, wherein the training can be suspended, continued and ended in the training process.

The data management unit 12 is used for collecting and distributing relevant data information in the training process, collecting information such as military equipment, damage resistance, battlefield environment, command commands, tactical actions and the like in real time by means of embedded acquisition, data mining, intelligent analysis and the like by means of a high-speed communication network 53, pushing relevant data to the simulation deduction unit 21 and the red army equipment 32 according to requirements, and using the information for the development situation research and judgment, task planning and the like of the two parties. The data management unit 12 can also continuously acquire data information such as the military force equipment, the combat thought, the combat action, the training exercise of the main combat opponent through the Internet and the like, provide data support for the learning and training of the unmanned military force equipment 23, and continuously improve the intelligent level of the unmanned military force equipment.

The comprehensive display unit 13 displays information such as training schemes, battlefield environments, strength composition, guidance, adjustment and assessment, battle situations, battle actions, battle results, evaluation and analysis in an all-around, all-flow and all-element manner, and can flexibly select display elements according to needs.

The evaluation and analysis unit 14 carries out statistical calculation on actions, battle damages, war results, material consumption and the like of both the unmanned blue army 2 and the landing obstacle-breaking squad 3, and outputs and displays the results in the form of graphs, tables and characters, so that the director can know and master the drilling and guarantee conditions in all directions, at multiple angles and in different levels; scientifically evaluating the combat capability of the trained army by using a corresponding evaluation model according to data generated in the countermeasure process, and automatically generating a capability evaluation report; the multi-disk file playback system can play back various data information, has the operation functions of layering, classified playing, pausing, stopping, advancing, retreating and the like, and realizes multi-disk analysis, training and comment and the like.

The pilot modulation intervention unit 15 obtains information such as video information and command passwords in real time to control the drilling process; the on-site task conditioning, damage judgment, personnel rescue verification, equipment emergency repair verification and the like are realized, and the orderly development of the countertraining activities is ensured.

Preferably, the unmanned blue army 2 comprises a simulation deduction unit 21, a blue army communication network 22 and unmanned military equipment 23, and is used for constructing the blue army based on the unmanned equipment and truly embodying the operation thought, the military equipment and the like of main operational opponents.

The simulation deduction unit 21 is a command center of the blue army, and receives the training scheme information issued by the training planning unit 11; secondly, receiving the confrontation training data issued by the data management unit 12; thirdly, pilot modulation information issued by the pilot modulation trunk pre-processing unit 15 is received; fourthly, according to the training scheme, the guiding and adjusting command, the confrontation data and other information, the initialization configuration, the intelligent training and the cooperative control of the unmanned military strength equipment 23 are completed; fifthly, data real-time acquisition, damage calculation, fighting capacity evaluation and the like of the unmanned blue army 2 in the confrontation process are completed.

The blue army communication network 22 mainly provides high-speed communication services for the simulation deduction unit 21 and the unmanned military equipment 23.

Unmanned military equipment 23 realizes the simulation of main battle opponent military equipment such as American platform Japanese seal and the like through software configuration, including personnel, ground equipment, airplanes and the like.

Preferably, the login wrecker 3 comprises a command post 31, red army manned force equipment 32 and red army unmanned force equipment 33, and is used for training of information reconnaissance, command control, fire striking, comprehensive guarantee and the like of the login wrecker.

The command post 31 is a command center for logging in the barrier-breaking team, and receives a training scheme, a guidance command, engagement data and the like sent by the guidance control system 1; secondly, command control data are uploaded to the data processing unit 12; thirdly, the planning of the combat plan, the issuing of the combat command, the control of the combat progress and the like are completed. The command post 31 adopts the high-speed communication network 53 to communicate with the command control subsystem 1, and adopts the prior technical system of the army to carry out command control.

The military force equipment 32 of the red army adopts an actual installation, a laser/data receiving device is additionally arranged on the actual installation, and after being hit by laser/data of the unmanned blue army 2, under the support of a damage calculation model, the evaluation and judgment in the countermeasure process are completed.

The red-army unmanned military equipment 33 implements barrier-breaking action under the cooperative control of a command post, and the red-army unmanned military equipment 33 is additionally provided with a laser/data receiving device which is supported by a damage calculation model after being hit by laser/data of the unmanned blue army 2 to complete evaluation and judgment in the confrontation process.

Preferably, the digital barrier field 4 comprises a digital rail strip (30758), a digital land mine (42), a digital triangular cone (43), a digital wire mesh (44), a digital blocking trench (45) and a digital blocking wall (46), is used for simulating an anti-landing barrier field arranged by a blue square, and simultaneously has the functions of automatically acquiring and uploading damage information and is used for evaluating the efficiency of a landing barrier-breaking action.

The digital rail (30758) 41 is mainly used for constructing a rail (30758) obstacle field, and mainly comprises a rail (30758), a pressure sensor, a positioning module, a 5G communication module, a microcontroller, a battery and the like, and after the digital rail (30758) is hit, information such as pressure, position and the like can be acquired in real time and uploaded to the guidance control subsystem (1) through the high-speed communication network (53) for damage evaluation and calculation.

The digital mine 42 is mainly used for building a mine field and mainly comprises a mine, a pressure sensor, a positioning module, a 5G communication module, a microcontroller, a battery and the like, and after the digital mine 42 is hit, information such as pressure, position and the like can be acquired in real time and uploaded to the guided control subsystem 1 through the high-speed communication network 53 for damage assessment calculation.

The digital triangular pyramid 43 is mainly used for triangular pyramid barrier fields, mainly comprises a triangular pyramid, a pressure sensor, a positioning module, a 5G communication module, a microcontroller, a battery and the like, can acquire information such as pressure, position and the like in real time after the digital triangular pyramid 43 is hit, and uploads the information to the guidance control subsystem 1 in real time through the high-speed communication network 53 for damage assessment and calculation.

The digital wire netting 44 is mainly used for constructing a wire netting barrier field, and mainly comprises a wire netting, a pressure sensor, a positioning module, a 5G communication module, a microcontroller, a battery and the like, when the digital wire netting 43 is hit, information such as pressure, position and the like can be collected in real time, and the information is uploaded to the guidance control subsystem 1 in real time through the high-speed communication network 53 and is used for damage assessment and calculation.

The digital barrier trench 45 is mainly used for constructing a barrier field of the barrier trench, mainly comprises the barrier trench, a camera, a 5G communication module, a microcontroller, a battery and the like, and can acquire information such as pressure, position and the like in real time after the digital barrier trench 45 is hit, and the information is uploaded to the guidance control subsystem 1 in real time through the high-speed communication network 53 for damage assessment calculation.

The digital isolation wall 46 is mainly used for constructing an isolation wall barrier field, mainly comprises an isolation wall, a pressure sensor, a positioning module, a 5G communication module, a microcontroller, a battery and the like, and can acquire information such as pressure, position and the like in real time after the digital isolation wall 46 is struck, and the information is uploaded to the guidance control subsystem 1 in real time through the high-speed communication network 53 for damage assessment and calculation.

Preferably, the basic support environment 5 includes a model resource library 51, a simulation engine 52, a high-speed communication network 53, and a basic hardware unit 54, and is configured to provide model services, simulation calculation services, communication services, positioning service, storage services, and calculation services for the guidance control subsystem 1, the unmanned blue army 2, the landing barrier breaking teams 3, and the digital barrier field 4.

The model resource library 51 contains all model supports required by the confrontation of the unmanned blue army 2 and the landing wreck squad 3 under the combined combat background, and mainly comprises a combined combat environment model (system support, nuclear biochemistry, electromagnetism, society and the like), an equipment model, an armed force model, a communication network model, a damage calculation model, a target characteristic model, an evaluation analysis model, a special effect model (used for creating a real battlefield atmosphere, such as fire, smoke, bloodstains, stumps and the like), a public service model and the like.

The simulation engine 52 is a central nerve for the whole system to operate, and various process control, resource scheduling, model calculation, rule analysis, force recombination, data processing, evaluation and arbitration, etc. are realized by depending on the coordination of the simulation engine.

Preferably, the high-speed communication network 53 mainly comprises iron towers, optical fibers, 4G and 5G base stations, and the like, and is used for providing communication means for each data node (personnel, equipment, facilities, environment, system support, and the like) in a training field, wherein optical fiber communication is adopted between fixed data nodes, and 4G/5G wireless network communication is adopted among other data nodes.

Preferably, the basic hardware unit 54 includes a positioning time service module 541, a storage module 542, a calculation module 543, and a management control module 544. The system is used for providing positioning time service, storage service, calculation service and management service for a guidance control subsystem 1, an unmanned blue army 2, a landing obstacle-breaking squad 3 and a digital obstacle field 4.

A construction method of a login barrier-breaking training system comprises the following steps:

s1: the training planning unit 11 generates a preliminary training scheme according to the training task by combining the data resource information, and finishes training compilation and training scenario design; deducting, verifying and optimizing the scheme, and pushing the scheme to an unmanned blue army 2 and a login obstacle-breaking squad 3; carrying out global control on the training process, and issuing a training starting instruction after the preparation of the unmanned blue army 2 and the barrier-breaking landing squad 3 is finished, wherein the training can be suspended, continued and ended in the training process;

s2: the data management unit 12 collects the military force equipment, the damage resistance, the battlefield environment, the command password and the tactical action information in real time by depending on a high-speed communication network 53, and pushes the relevant data to the simulation deduction unit 21 and the military force equipment 32 of the red army according to the requirements; the leading and adjusting intervention unit 15 obtains video information and command password information in real time; the evaluation and analysis unit 14 carries out statistical calculation on actions, battle damages, war results, material consumption and the like of both the unmanned blue army 2 and the landing obstacle-breaking squad 3, and outputs and displays the results in the form of graphs, tables and characters, so that the director can know and master the drilling and guarantee conditions in all directions, at multiple angles and in different levels; according to data generated in the process of confrontation, scientifically evaluating the fighting capacity of the trained army by using a corresponding evaluation model, and automatically generating a capacity evaluation report; the comprehensive display unit 13 displays training schemes, battlefield environments, strength compositions, guidance, adjustment and evaluation, battle situations, battle actions, battle results, evaluation and analysis information, and can select display elements as required;

s3: the red army force equipment 32 adopts an actual installation, a laser/data receiving device is additionally arranged on the actual installation, and after being hit by laser/data of the unmanned blue army 2, under the support of a damage calculation model, the evaluation and judgment in the countermeasure process are completed; the red-army unmanned military equipment 33 implements barrier-breaking action under the cooperative control of a command post, and the red-army unmanned military equipment 33 is additionally provided with a laser/data receiving device which is supported by a damage calculation model after being hit by laser/data of the unmanned blue army 2 to complete evaluation and judgment in the confrontation process.

The described embodiments are only some embodiments of the invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims (7)

1. A login barrier-breaking training system is characterized in that: the system comprises a guidance control subsystem (1), an unmanned blue army (2), a landing obstacle-breaking team (3), a digital obstacle field (4) and a basic supporting environment (5); the basic supporting environment (5) provides software and hardware environments for the operation of the guidance control subsystem (1), the unmanned navy (2), the landing obstacle-breaking team (3) and the digital obstacle field (4); the landing obstacle-breaking squad (3) can carry out live-action strike on the unmanned blue army (2) and the digital obstacle field (4), and the unmanned blue army (2) and the digital obstacle field (4) can carry out laser/data strike on the landing obstacle-breaking squad (3); the unmanned navy (2) comprises a simulation deduction unit (21), a navy communication network (22) and unmanned military equipment (23), and is used for constructing a navy based on the unmanned equipment and truly embodying the fighting thought and military equipment of main fighting opponents; the unmanned military force equipment (23) realizes the simulation of military force equipment of main combat opponents through software configuration, and comprises personnel, ground equipment and an airplane; the digital barrier field (4) comprises a digital rail (30758), a digital mine (42), a digital triangular cone (43), a digital wire netting (44), a digital barrier trench (45) and a digital barrier wall (46), is used for simulating an anti-landing barrier field arranged by a bluesquare, and simultaneously has the functions of automatically acquiring and uploading damage information and is used for evaluating the efficiency of a landing barrier breaking action.

2. The landing obstacle-breaking training system of claim 1, wherein: the guidance control subsystem (1) comprises a training planning unit (11), a data management unit (12), a comprehensive display unit (13), an evaluation analysis unit (14) and a guidance and adjustment intervention pre-prediction unit (15) and is used for generating and issuing a training scheme, carrying out situation fusion monitoring, carrying out real-time plot conditioning, collecting and distributing data, and carrying out evaluation analysis calculation.

3. The landing obstacle-breaking training system of claim 1, wherein: the login and wrecker squad (3) comprises a command post (31), red army manned force equipment (32) and red army unmanned force equipment (33) and is used for information reconnaissance, command control, fire striking and comprehensive guarantee training of the login and wrecker squad.

4. The landing obstacle-breaking training system of claim 1, wherein: the basic supporting environment (5) comprises a model resource library (51), a simulation engine (52), a high-speed communication network (53) and a basic hardware unit (54) and is used for providing model services, simulation calculation services, communication services, positioning time service, storage services and calculation services for a guidance control subsystem (1), an unmanned navy (2), a login obstacle-breaking team (3) and a digital obstacle field (4).

5. The landing obstacle-breaking training system of claim 4, wherein: the high-speed communication network (53) consists of an iron tower, optical fibers and a 4G/5G network and is used for providing a communication means for each data node in a training field, wherein optical fiber communication is adopted among fixed data nodes, and other data nodes adopt 4G/5G wireless network communication.

6. The landing obstacle-breaking training system of claim 4, wherein: the basic hardware unit (54) comprises a positioning time service module (541), a storage module (542), a calculation module (543) and a management control module (544).

7. A method for constructing a landing obstacle-breaking training system as claimed in any one of claims 1 to 6, wherein: the method comprises the following steps:

s1: the training planning unit (11) generates a preliminary training scheme according to the training task by combining the data resource information, and finishes training compilation and training scenario design; deducting, verifying and optimizing the scheme, and pushing the scheme to an unmanned blue army (2) and a login obstacle-breaking team (3); the training process is controlled globally, after the preparation of the unmanned blue army (2) and the login obstacle-breaking squad (3) is completed, a training starting instruction is issued, and the training can be suspended, continued and ended in the training process;

s2: the data management unit (12) collects military force equipment, damage resistance, battlefield environment, command password and tactical action information in real time by depending on a high-speed communication network (53), and pushes related data to the simulation deduction unit (21) and the red army personnel force equipment (32) according to requirements; the pilot modulation interference pre-unit (15) acquires video information and command password information in real time; the evaluation and analysis unit (14) carries out statistical calculation on actions, war losses, war fruits, material consumption and the like of both the unmanned blue army (2) and the login obstacle-breaking squadron (3), and outputs and displays the actions, war losses, war fruits, material consumption and the like in a pattern, table and character mode, so that a director can know and master the drilling and guarantee conditions in an all-around, multi-angle and hierarchical manner; scientifically evaluating the combat capability of the trained army by using a corresponding evaluation model according to data generated in the countermeasure process, and automatically generating a capability evaluation report; the comprehensive display unit (13) displays training schemes, battlefield environments, strength compositions, guidance, adjustment and evaluation, battle situations, battle actions, battle results and evaluation and analysis information, and can select display elements according to needs;

s3: the manned military force equipment (32) of the red army adopts an actual soldier actual installation, a laser/data receiving device is additionally arranged on the actual soldier actual installation, and after being hit by the laser/data of the unmanned blue army (2), the evaluation and judgment in the confrontation process are completed under the support of a damage calculation model; the red army unmanned military force equipment (33) implements barrier-breaking action under the cooperative control of a command post, a laser/data receiving device is additionally arranged on the red army unmanned force equipment (33), and after being hit by laser/data of the unmanned blue army (2), the red army unmanned force equipment completes evaluation and judgment in the countermeasure process under the support of a damage calculation model.

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