CN114023127A - Simulation command training simulation system and training method - Google Patents

Abstract

The invention discloses a simulation system and a simulation method for simulation command training, and relates to the technical field of simulation command training. The system comprises a simulation model module and a simulation data resource module; the simulation model module can simulate the combat environment, various weaponry of the red and blue parties, the military force maneuver of the red and blue parties and the thermal action, effect and loss of the red and blue parties in the simulation command training simulation system; the simulation data resource module is used for providing basic resources for the operation of the simulation command training simulation system, providing operation conditions and data required by the whole process of the drilling support, and storing and analyzing the data generated in the simulation training process; and the command training personnel can realize the realization of the functions of the simulation model module and the simulation data resource module based on the client application platform. By adopting the system and the method, the simulation command simulation training with diversity, economy, safety and repeatability is realized.

Description

Simulation command training simulation system and training method

Technical Field

The application relates to the technical field of simulation command training, in particular to a simulation system and a training method for simulation command training.

Background

The simulation command training is an important technical means for examining and verifying command capability, verifying a combat scheme, predicting combat effect (efficiency), optimizing and analyzing a combat plan and equipment configuration. The prior art has seen examples of training field warriors and special police warriors using electronic screen real-time training systems, which typically require significant capital investment and do not simulate a realistic combat environment very well. Therefore, it is necessary to create an intelligent, scientific and evolutionary simulation training platform, and perform simulation training by using simulation technology as a carrier and combining the characteristics of diversity, economy, safety, repeatability and the like of training modes, so as to solve the problem that actual combat training cannot be performed due to factors such as difficulty in organization and implementation, and effectively improve the operational command teaching level, the student command capability and the team coordination capability.

Disclosure of Invention

By providing the simulation system and the simulation method for the simulated command training, the embodiment of the application solves the problem that actual combat training is difficult to organize and implement in the prior art, and realizes the simulated command training with diversity, economy, safety and repeatability.

The embodiment of the invention provides a simulation command training simulation system, which comprises a simulation model module and a simulation data resource module;

the simulation model module can simulate the combat environment, various weaponry and weaponry of the red and blue parties, the military force maneuver of the red and blue parties and the thermal action, effect and loss of the red and blue parties in the simulation command training simulation system;

the simulation data resource module is used for providing basic resources for the operation of the simulation command training simulation system, providing operation conditions and data required by the whole process of the drilling support, and storing and analyzing data generated in the simulation training process;

and the command training personnel can realize the function realization of the simulation model module and the simulation data resource module based on a client application platform.

Furthermore, the simulation model module comprises an environment simulation module, a resource simulation module and a physical simulation module;

the environment simulation module is used for performing simulation and vivid display on the battlefield environment;

the resource simulation module is used for simulating a physical action entity in a battlefield environment;

the physical simulation module is used for realizing kinematics, dynamics and physical effect simulation in a battlefield environment.

Furthermore, the environment simulation module comprises a geographical environment simulation module, a weather environment simulation module and a sound effect environment simulation module;

the geographic environment simulation is used for simulating and vividly displaying all training regions in a battlefield environment;

the weather environment simulation can simulate and present all weather, climate and meteorological parameters of the battlefield environment in the simulation command training simulation system;

the sound effect environment simulation is used for performing simulation presentation on sound effects of all sound sources generated in a battlefield environment in the command training simulation system;

the simulation of the geographic environment, the simulation of the weather environment and the simulation of the sound effect environment can be mutually overlapped, and the simulation construction of different environments is jointly completed.

Furthermore, the resource simulation module comprises an arm model, a common crowd model, a weaponry model, a vehicle model and a work obstacle;

the force model can analyze a terrain topological structure, advance in a complex geographic environment and can make correct dynamic response to other entity models encountered in the command training simulation system;

the common crowd model and the work obstacle are set according to a training scheme;

after the weapon equipment model, the vehicle model and the force model are combined, the force model can control the weapon equipment model and the vehicle model to simulate and execute action behavior simulation;

the models included in the resource simulation module can be dynamically kept away from obstacles or other entities, so that collision is avoided.

Further, the physical simulation module comprises physical effect simulation of ammunition simulation, missile launching track simulation, shooting simulation, aiming simulation, locking simulation, hit simulation, damage simulation and explosion simulation.

Furthermore, the simulation data resource module comprises a basic resource module, a digital map module, a three-dimensional scene module and a three-dimensional model module;

the digital map module, the three-dimensional scene module and the three-dimensional model module are interacted and used for constructing a three-dimensional GIS environment of a visual three-dimensional combat environment so as to realize the browsing and rendering functions of a three-dimensional scene;

the basic resource module is used for providing basic support data which are input into the system from the outside for the application of the command training simulation system.

Still further, the base support data includes base data and training data;

the basic data comprises weapon equipment data, battlefield environment data, operational targets and military rules;

the training data comprises training process data, training result data, evaluation index data and assessment standard data.

Furthermore, the simulation command training simulation system also comprises a server system and a computer terminal;

the simulation model module and the simulation data resource module are deployed in the server system, and the server system provides computational support for the operation of the simulation model module and the simulation data resource module;

and the computer terminal is provided with a client application platform, and the command training personnel realize the man-machine interaction with the simulation command training simulation system through the client application platform.

A simulated command training method comprises the following steps:

setting a training task scene, task difficulty and a task target in the simulation command training simulation system;

the red and blue confrontation parties carry out force configuration, equipment configuration and tactical arrangement according to the training task;

calling the simulation model module and the simulation data resource module to simulate the armed situation, the action situation, the confrontation effect situation, the working state and the parameters of the confronting process of the two sides of the battlefield red and blue confrontation;

and acquiring a simulation training result based on the countermeasure process and according to the corresponding combat assessment index system.

Furthermore, before performing the armed configuration, the equipment configuration and the tactical arrangement on the red and blue confrontation parties according to the training task, the method further comprises the following steps:

the method comprises the steps of importing a digital map into a simulation command training simulation system, establishing a three-dimensional GIS environment of a combat three-dimensional environment by combining a three-dimensional scene and a three-dimensional model, replacing abstract map symbols with real three-dimensional terrain and ground objects, realizing browsing and rendering of the three-dimensional scene, and supporting a browsing interaction function combined in various modes.

One or more technical solutions provided in the embodiments of the present invention have at least the following technical effects or advantages:

the simulation system provides a collaborative training function by calling the simulation model module data and the simulation data resource module, generates a simulation statistical result based on a fighting process, comprehensively analyzes the interrelation among all elements in a fighting process according to a set fighting evaluation index system, and provides a basis for fighting command and action collaborative evaluation verification. By adopting the simulation command training simulation system and the simulation command training simulation method, the problem that actual combat training is difficult to organize and implement in the prior art is effectively solved, and the simulation command training with diversity, economy, safety and repeatability is realized.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a block diagram of a simulation command training simulation system according to an embodiment of the present disclosure;

FIG. 2 is a block diagram of a simulation model module according to an embodiment of the present disclosure;

FIG. 3 is a block diagram of an environment simulation module according to an embodiment of the present disclosure;

FIG. 4 is a block diagram of a simulation data resource module according to an embodiment of the present disclosure;

fig. 5 is a block diagram of a basic resource module structure provided in an embodiment of the present application;

FIG. 6 is a block diagram of an underlying data structure provided by an embodiment of the present application;

fig. 7 is a block diagram of a training data structure provided in an embodiment of the present application.

Icon: 1. a server system; 11. a simulation model module; 111. an environment simulation module; 1111. simulating a geographic environment; 1112. simulating a weather environment; 1113. simulating a sound effect environment; 112. a resource simulation module; 113. a physical simulation module; 12. a simulation data resource module; 121. a base resource module; 1211. basic data; 12111. weaponry data; 12112. battlefield environment data; 12113. a combat objective; 12114, military regulations; 1212. training data; 12121. training process data; 12122. training result data; 12123. evaluating the index data; 12124. assessment standard data; 122. a digital map module; 123. a three-dimensional scene module; 124. a three-dimensional model module; 2. a computer terminal; 21. a client application platform.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and 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.

As shown in fig. 1, a simulation system for training simulation of a simulation command provided by an embodiment of the present invention includes a simulation model module 11 and a simulation data resource module 12; the simulation model module 11 can simulate the combat environment, various weaponry and weaponry of the red and blue parties, the military force maneuver of the red and blue parties and the fire action, effect and loss of the red and blue parties in the simulation command training simulation system; the simulation data resource module 12 is used for providing basic resources for the operation of the simulation command training simulation system, providing operation conditions and data required for supporting the whole drilling process, and storing and analyzing data generated in the simulation training process; the command trainer can implement the function implementation of the simulation model module 11 and the simulation data resource module 12 based on the client application platform 21.

Specifically, in the simulation command training simulation system provided by the embodiment of the present invention, various training task scenes are simulated through the simulation model module 11, a training person can realize the realization of the functions of the simulation model module 11 and the simulation data resource module 12 based on the client application platform 21, the military force organization, tactical arrangement and simulated confrontation are performed in the simulation scene until a task target is completed, all data used for battle training are stored through the simulation data resource module 12, the simulation system provides a collaborative training function by calling the simulation model module 11 data and the simulation data resource module 12, a simulation statistical result is generated based on a battle process, the interrelation between each element in a battle process is comprehensively analyzed according to a set battle evaluation index system, and a basis is provided for battle command and action collaborative evaluation verification. By adopting the simulation command training simulation system and the simulation command training simulation method, the problem that actual combat training is difficult to organize and implement in the prior art is effectively solved, and the simulation command training with diversity, economy, safety and repeatability is realized.

As shown in FIG. 2, simulation model module 11 includes an environment simulation module 111, a resource simulation module 112, and a physics simulation module 113; the environment simulation module 111 is used for performing simulation and vivid display on the battlefield environment; the resource simulation module 112 is used for simulating physical action entities in a battlefield environment; the physics simulation module 113 is used to implement kinematics, dynamics, and physics effect simulation in a battlefield environment.

In this embodiment, the simulation model module 11 includes an environment simulation module 111, a resource simulation module 112, and a physical simulation module 113, and a training scene is truly presented through the environment simulation module 111, the resource simulation module 112, and the physical simulation module 113, and a computational support is provided for normal operation of the entire system through a server, so as to ensure that each simulation model module 11 can complete operation and processing of various models.

Referring to fig. 3, in particular, the environment simulation module 111 includes a geographic environment simulation 1111, a weather environment simulation 1112, and an audio effect environment simulation 1113; the geographic environment simulation 1111 is used for simulating and vividly displaying all training regions in a battlefield environment, and specifically, the training regions comprise landforms, terrains, roads, vegetation, water systems, trenches, shelters, artificial obstacles and buildings.

The weather environment simulation 1112 can simulate all weather, climate, and meteorological parameters of the battlefield environment in the simulated command training simulation system.

The sound effect environment simulation 1113 is used for simulating and presenting sound effects of all sound sources generated in the battlefield environment in the command training simulation system, specifically, the sound sources generated in the battlefield environment include engine noise, alarm sound, firing sound, explosion sound, crawler movement noise, rain sound and wind sound.

The geographical environment simulation 1111, the weather environment simulation 1112 and the sound effect environment simulation 1113 can be mutually overlapped to jointly complete the simulation construction of different environments.

In practical application, the environment simulation modules 111 can be mutually overlapped to jointly complete simulation construction of different environments; the geographic environment simulation 1111 mainly simulates and displays the elements of the training environment such as terrain, roads, water systems, buildings and the like with high precision, and specifically comprises the facilities of terrain and landforms such as geology, vegetation, rivers, lakes, bridges, dams and the like, trenches, shelters, residential areas, artificial barriers and the like; the weather environment simulation 1112 can simulate weather climate parameters such as wind, rain, snow, fog, visibility, temperature and humidity, daytime, night and the like of the simulated environment, and can simulate weather conditions and change processes thereof in the treatment process; the battlefield sound source that sound effect environment simulation 1113 can simulate includes engine noise, alarm sound, firing sound, explosion sound, track motion noise, rain sound, wind sound, and the like. Through the simulation, various environmental characteristics of battlefield training can be presented truly, so that the simulated scene is closer to reality, and the diversity, safety and repeatability of the training mode can be improved.

As a further improvement of the embodiment, the resource simulation module 112 includes an arm model, a general crowd model, a weaponry model, a vehicle model, and a work obstacle; the force model can analyze a terrain topological structure, advance in a complex geographic environment and can make correct dynamic response to other entity models encountered in a command training simulation system; setting a common crowd model and a working obstacle according to a training scheme; after the weapon equipment model, the vehicle model and the weapon force model are combined, the weapon force model can control the weapon equipment model and the vehicle model to simulate the execution action behavior simulation; each model contained in the resource simulation module can be dynamically kept away from an obstacle or other entities to avoid collision.

In practical application, the force model can autonomously analyze a terrain topological structure, can advance in a complex geographic environment, dynamically keep a distance with a barrier or other entities, avoid collision, and make a correct reflection according to an encountered entity structure, for example, a building can enter the interior of the building from a door of the building, can go upstairs and downstairs and the like; and corresponding tactical actions can be made according to the instructions.

The virtual force model can be combined with models such as a vehicle model and weapon equipment, so that behavior models of virtual forces such as confrontation, decision making, execution and the like of the red and blue parties can be realized, a hierarchical behavior model system such as basic actions, tactical actions, combat command and the like of combat can be simulated, and the combat behavior simulation of the virtual forces can be realized. In addition, by setting a vehicle model, a weapon equipment model, a work obstacle and the like, various tactical actions such as virtual force combat, action, getting on and off a bus, lying down, creeping forward, hiding, shooting and the like can be realized, and the simulation of a target searching process can be realized.

As a further improvement of the present embodiment, the physical simulation module 113 includes physical effect simulations of ammunition simulation, missile launching trajectory simulation, shooting simulation, aiming simulation, locking simulation, hit simulation, damage simulation, and explosion simulation.

Specifically, the physical simulation module 113 is mainly used for implementing kinematics, dynamics and physical effect simulation. The method specifically comprises physical effect simulation of ammunition, missile launching track simulation, shooting, aiming, locking, hitting, damage, explosion and the like. The physical simulation module 113 can simulate the physical phenomena of the simulated weapon such as target shooting, target hitting and target damage, and realize the effect simulation of weapon firing, explosion and target damage.

As shown in fig. 4, the simulation data resource module 12 includes a base resource module 121, a digital map module 122, a three-dimensional scene module 123 and a three-dimensional model module 124; the digital map module 122, the three-dimensional scene module 123 and the three-dimensional model module 124 are mutually interacted and used for constructing a three-dimensional GIS environment of a visual three-dimensional combat environment so as to realize browsing and rendering functions of a three-dimensional scene; the fundamental resources module 121 is used to provide fundamental support data entered into the system from the outside to the application commanding the training of the simulation system.

In practical application, the digital map module 122 is led into the analog command training simulation system, a three-dimensional GIS environment of a combat environment is established by using the three-dimensional scene module 123 and the three-dimensional model module 124 on the basis of the digital map through the led digital map, a three-dimensional visualization function is provided for the whole training system, abstract map symbols are replaced by real three-dimensional terrains and ground objects, functions of browsing, rendering and the like of a three-dimensional scene are further realized, and the formed three-dimensional GIS environment also supports a browsing interaction function combined in various modes.

As shown in connection with fig. 5-7, the base support data includes base data 1211 and training data 1212; the base data 1211 includes weapons equipment data 12111, battlefield environment data 12112, operational objectives 12113, military rules 12114; the training data 1212 includes training process data 12121, training result data 12122, evaluation index data 12123, and assessment criterion data 12124.

In this embodiment, the basic resource module 121 specifically includes basic data 1211 and training data 1212, where the basic data 1211 further includes weapons equipment data 12111, battlefield environment data 12112, combat targets 12113, military rules 12114, and the like, and the training data 1212 further includes training process data 12121, training result data 12122, evaluation index data 12123, and evaluation standard data 12124, and in practical applications, the basic data 1211 and the training data 1212 are combined, and data such as a digital map, a three-dimensional scene, and a three-dimensional model are combined to jointly construct a three-dimensional GIS environment of a three-dimensional combat environment, so that a simulation statistical result can be generated based on a combat process, and mutual relationships among elements in a combat process can be comprehensively analyzed according to a set combat evaluation index system, thereby providing a basis for a combat command and action collaborative evaluation verification.

The system also comprises a server system 1 and a computer terminal 2; the simulation model module 11 and the simulation data resource module 12 are deployed in the server system 1, and the server system 1 provides computational support for the operation of the simulation model module 11 and the simulation data resource module 12; the computer terminal 2 is provided with a client application platform 21, and the command training personnel realize the human-computer interaction with the simulation command training simulation system through the client application platform 21.

The server system 1 provides computational support for the operation of the simulation model module 11 and the simulation data resource module 12 in the system, and ensures the stability and the actual operation and application performance of the system in the application process. Based on the client application platform 21 installed on the computer terminal 2, the man-machine interaction between the two parties of the red-blue confrontation and the system can be realized.

In addition, the system of the embodiment further comprises a display device, an earphone, a microphone and a video monitoring device. Specifically, the command trainees of both sides of red and blue can enter into the simulation training simulation system more quickly with the help of hardware equipment such as display equipment, earphones, microphones and video monitoring equipment to carry out simulation training, the condition that the actual combat training can not be carried out due to factors such as difficulty in organization and difficulty in implementation is solved, and the combat command training level, the command ability of students and the cooperative ability of teams are effectively improved.

The simulation command training simulation system in the above embodiment mainly performs simulation around command training, weaponry, combat actions, and emergency rescue actions, and can simulate combat environment, various weaponry, combat action, force maneuver of both confronters, and fire action, effect, and loss of both confrontation training parties.

A simulated command training method comprises the following steps:

and setting a training task scene, task difficulty and task target in the simulation command training simulation system.

Specifically, a training task scene, task difficulty, task target and related conditions can be set on the client application platform 21, and the training personnel of the red and blue parties carry out force configuration, equipment configuration and tactical arrangement according to the related task arrangement. Meanwhile, a digital map is combined, a three-dimensional GIS environment of a combat environment is established by utilizing a three-dimensional scene and a three-dimensional model, and the armed situation, the action situation, the confrontation effect situation, the working state, the parameters and the like of the red and blue parties in the battlefield are displayed by adopting an intuitive and visual means.

And the red and blue confrontation parties carry out force configuration, equipment configuration and tactical arrangement according to the training task.

The red and blue confrontation parties carry out the armed configuration, the equipment configuration and the tactical arrangement on the resource simulation module 112 (an armed model, a vehicle model, a weapon equipment model and the like) according to the training task, and then the red and blue confrontation parties carry out simulation training on the system.

And calling a simulation model module 11 and a simulation data resource module 12 to simulate the armed situation, the action situation, the confrontation effect situation, the working state and the parameters of the confronting process of the two sides of the battlefield red and blue confrontation.

The command trainers of the red and blue parties use an analog simulation technology as a carrier, namely, the forces configuration, the equipment configuration and the tactical arrangement are realized by operating the simulation model module 11 and calling the model simulation resources of the simulation data resource module 12 with a cooperative training function, and then the simulated confrontation is carried out until the task target is completed.

And acquiring a simulation training result based on the fighting process and according to the corresponding fighting evaluation index system.

And finally, generating a simulation statistical result based on the fighting process of the red and blue parties, comprehensively analyzing the mutual relation among all elements in the fighting process according to a set fighting evaluation index system, obtaining the armed force situation, the action situation, the confrontation effect situation, the working state and the parameters of the red and blue parties in the battlefield, and providing a basis for fighting command and action collaborative evaluation verification.

Furthermore, before performing the armed configuration, the equipment configuration and the tactical arrangement on the red and blue counterparties according to the training task, the method further comprises the following steps: the method comprises the steps of importing a digital map into a simulation command training simulation system, establishing a three-dimensional GIS environment of a combat three-dimensional environment by combining a three-dimensional scene and a three-dimensional model, replacing abstract map symbols with real three-dimensional terrain and ground objects, realizing browsing and rendering of the three-dimensional scene, and supporting a browsing interaction function combined in various modes.

Before military force configuration, equipment configuration and tactical arrangement, a digital map is led into the server system 1, a three-dimensional GIS environment of a combat environment is established by utilizing a three-dimensional scene and a three-dimensional model to provide a three-dimensional visualization function, functions of browsing, rendering and the like of the three-dimensional scene are realized by replacing abstract map symbols with real three-dimensional terrain and ground objects, and a browsing interaction function combined in various modes is supported.

The storage medium includes, but is not limited to, a Random Access Memory (RAM), a Read-Only Memory (ROM), a Cache, a Hard Disk (Hard Disk Drive), or a Memory Card (HDD). The memory may be used to store computer program instructions.

Although the present application provides method steps as described in an embodiment or flowchart, additional or fewer steps may be included based on conventional or non-inventive efforts. The sequence of steps recited in this embodiment is only one of many steps performed and does not represent a unique order of execution. When an actual apparatus or client product executes, it can execute sequentially or in parallel (e.g., in the context of parallel processors or multi-threaded processing) according to the methods shown in this embodiment or the figures.

The apparatuses or modules illustrated in the above embodiments may be implemented by a computer chip or an entity, or by a product with certain functions. For convenience of description, the above devices are described as being divided into various modules by functions, and are described separately. The functionality of the modules may be implemented in the same one or more software and/or hardware implementations of the present application. Of course, a module that implements a certain function may be implemented by a plurality of sub-modules or sub-units in combination.

The methods, apparatus or modules described herein may be implemented in a computer readable program code means for a controller in any suitable manner, for example, the controller may take the form of, for example, a microprocessor or processor and a computer readable medium storing computer readable program code (e.g., software or firmware) executable by the (micro) processor, logic gates, switches, Application Specific Integrated Circuits (ASICs), programmable logic controllers and embedded microcontrollers, examples of which include, but are not limited to, the following microcontrollers: ARC 625D, Atmel AT91SAM, Microchip PIC18F26K20, and Silicone Labs C8051F320, the memory controller may also be implemented as part of the control logic for the memory. Those skilled in the art will also appreciate that, in addition to implementing the controller as pure computer readable program code, the same functionality can be implemented by logically programming method steps such that the controller is in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Such a controller may therefore be considered as a hardware component, and the means included therein for performing the various functions may also be considered as a structure within the hardware component. Or even means for performing the functions may be regarded as being both a software module for performing the method and a structure within a hardware component.

Some of the modules in the apparatus described herein may be described in the general context of computer-executable instructions, such as program modules, being executed by a computer. Generally, program modules include routines, programs, objects, components, data structures, classes, etc. that perform particular tasks or implement particular abstract data types. The application may also be practiced in distributed computing environments where tasks are performed by remote processing devices that are linked through a communications network. In a distributed computing environment, program modules may be located in both local and remote computer storage media including memory storage devices.

From the above description of the embodiments, it is clear to those skilled in the art that the present application can be implemented by software plus necessary hardware. Based on such understanding, the technical solutions of the present application may be embodied in the form of software products or in the implementation process of data migration, which essentially or partially contributes to the prior art. The computer software product may be stored in a storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, mobile terminal, server, or network device, etc.) to perform the methods described in the various embodiments or portions of the embodiments of the present application.

The embodiments in the present specification are described in a progressive manner, and the same or similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. All or portions of the present application are operational with numerous general purpose or special purpose computing system environments or configurations. For example: personal computers, server computers, hand-held or portable devices, tablet-type devices, mobile communication terminals, multiprocessor systems, microprocessor-based systems, programmable electronic devices, network PCs, minicomputers, mainframe computers, distributed computing environments that include any of the above systems or devices, and the like.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the present application; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure.

Claims (10)

1. A simulation command training simulation system is characterized by comprising a simulation model module (11) and a simulation data resource module (12);

the simulation model module (11) can simulate the combat environment, various weaponry of the red and blue parties, the military force maneuver of the red and blue parties and the firepower action, effect and loss of the red and blue parties in the simulation command training simulation system;

the simulation data resource module (12) is used for providing basic resources for the operation of the simulation command training simulation system, providing operation conditions and data required by the whole process of the drilling, and storing and analyzing the data generated in the simulation training process;

the command training personnel can realize the function realization of the simulation model module (11) and the simulation data resource module (12) based on a client application platform (21).

2. The system according to claim 1, wherein the simulation model module (11) comprises an environment simulation module (111), a resource simulation module (112) and a physics simulation module (113);

the environment simulation module (111) is used for performing simulation and vivid display on the battlefield environment;

the resource simulation module (112) is used for simulating a physical action entity in a battlefield environment;

the physical simulation module (113) is used for realizing kinematics, dynamics and physical effect simulation in a battlefield environment.

3. The system of claim 2, wherein the environment simulation module (111) comprises a geographic environment simulation (1111), a weather environment simulation (1112), and a sound effect environment simulation (1113);

the geographic environment simulation (1111) is used for simulating and vividly displaying all training regions in a battlefield environment;

the weather environment simulation (1112) can simulate and present all weather, climate and meteorological parameters of the battlefield environment in the simulation command training simulation system;

the sound effect environment simulation (1113) is used for simulating and presenting the sound effects of all sound sources generated in the battlefield environment in the command training simulation system;

the simulation of the geographic environment (1111), the simulation of the weather environment (1112) and the simulation of the sound effect environment (1113) can be mutually overlapped, and the simulation construction of different environments is jointly completed.

4. The simulated command training simulation system of claim 2 wherein the resource simulation module (112) comprises an ordnance model, a general crowd model, a weaponry model, a vehicle model, and a work barrier;

the force model can analyze a terrain topological structure, advance in a complex geographic environment and can make correct dynamic response to other entity models encountered in the command training simulation system;

the common crowd model and the work obstacle are set according to a training scheme;

after the weapon equipment model, the vehicle model and the force model are combined, the force model can control the weapon equipment model and the vehicle model to simulate and execute action behavior simulation;

the models included in the resource simulation module can be dynamically kept away from obstacles or other entities, so that collision is avoided.

5. The simulated command training simulation system of claim 2 wherein the physical simulation module (113) comprises physical effect simulations of ammunition simulation, missile launch trajectory simulation, shooting simulation, aiming simulation, locking simulation, hit simulation, damage simulation, and explosion simulation.

6. The simulated command training simulation system of claim 1 wherein the simulation data resource module (12) comprises a base resource module (121), a digital map module (122), a three-dimensional scene module (123) and a three-dimensional model module (124);

the digital map module (122), the three-dimensional scene module (123) and the three-dimensional model module (124) are interacted with each other and used for constructing a three-dimensional GIS environment of a visual three-dimensional battle environment so as to realize browsing and rendering functions of a three-dimensional scene;

the basic resource module (121) is used for providing basic support data which is input into the system from the outside to the application of the command training simulation system.

7. The simulated command training simulation system of claim 6 wherein the base support data comprises base data (1211) and training data (1212);

the base data (1211) includes weapons equipment data (12111), battlefield environment data (12112), operational objectives (12113), military rules (12114);

the training data (1212) includes training process data (12121), training result data (12122), evaluation index data (12123), and assessment criterion data (12124).

8. The simulation command training simulation system according to claim 1, further comprising a server system (1) and a computer terminal (2);

the simulation model module (11) and the simulation data resource module (12) are deployed within the server system (1), the server system (1) providing computational support for the operation of the simulation model module (11) and the simulation data resource module (12);

the computer terminal (2) is provided with a client application platform (21), and the command training personnel realize the man-machine interaction with the simulation command training simulation system through the client application platform (21).

9. A method for training a simulated command by using the simulated command training simulation system of claims 1-8, comprising the steps of:

setting a training task scene, task difficulty and a task target in the simulation command training simulation system;

the red and blue confrontation parties carry out force configuration, equipment configuration and tactical arrangement according to the training task;

the simulation model module (11) and the simulation data resource module (12) are called to simulate the armed situation, the action situation, the confrontation effect situation, the working state and the parameters of the confrontation process of the two sides of the battlefield red and blue confrontation;

and acquiring a simulation training result based on the countermeasure process and according to the corresponding combat assessment index system.

10. The simulated command training method of claim 9, wherein before performing force configuration, equipment configuration and tactical arrangement on the red-blue confrontation parties according to the training task, the method further comprises:

the method comprises the steps of importing a digital map into a simulation command training simulation system, establishing a three-dimensional GIS environment of a combat three-dimensional environment by combining a three-dimensional scene and a three-dimensional model, replacing abstract map symbols with real three-dimensional terrain and ground objects, realizing browsing and rendering of the three-dimensional scene, and supporting a browsing interaction function combined in various modes.

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