CN115909841A - Cloud-based LVC (Linear variable capacitor) defense simulation training simulation system and method - Google Patents

Abstract

The invention provides a cloud-based LVC (Linear Voltage regulator) defense simulation training simulation system, which comprises: the system comprises a guidance control evaluation system, a cloud platform and a management system, wherein the guidance control evaluation system is used for training management, guidance control, training monitoring and decision evaluation, subscription and release of user training data, downloading of a training mirror image, downloading of the training data from the cloud platform and acquisition of desktop monitoring and camera monitoring data; the cloud platform is used for providing public resource support for an external system; the simulation training terminal is used for issuing a starting-up instruction and mirror image data issued by the end management tool, reporting the state of the simulator, reporting the monitoring data of the PC and uploading the data received by training; the simulator comprises a starting-up starting instruction issued by the end management tool, issuing of mirror image data, reporting of monitoring data by the PC and uploading of data after training and receiving; the communication terminal carries out instant communication in simulation training through the simulation communication terminal, and the instant communication comprises the reporting and receiving of various information and states.

Description

Cloud-based LVC (Linear variable capacitor) defense simulation training simulation system and method

Technical Field

The invention relates to the technical field of computers, in particular to a cloud environment-based LVC (Linear variable capacitor) defense simulation training simulation system and method

Background

The training simulation system is generally a complex large system, and the digital simulation of the system cannot be completed by a single device, so that the existing system mainly adopts a distributed simulation technology. The distributed simulation is to connect a plurality of simulation devices by a network and distribute system simulation tasks to each network node, thereby supporting the normal operation of a simulation model and obtaining expected results. The simulation system architecture in the distributed simulation system, the synchronization between tasks, task scheduling and communication mechanism are all key technologies. However, with the increase of simulation scale and the increase of service requirements, the difficulty of the architecture design of the distributed simulation system is continuously increased, the response time is slowed, the throughput is increased, the deployment is complex and inflexible, and the operation and maintenance are also complex.

The LVC simulation system is a simulation system constructed by combining three types of simulation types, namely Live (Live), virtual (Virtual), and structured (structured). Live Simulation (Live Simulation) refers to a hypothetical action of a real person using real equipment in a real battlefield, and is mainly applied to the fields of experiments and training. Virtual Simulation (Virtual Simulation) refers to the Simulation of a system and a military on a synthetic battlefield, and is often represented as a real-person operation Simulation system. Structural Simulation (structural Simulation) is a war practice and analysis tool that typically uses simulated people to manipulate a simulated system.

The traditional chemical defense simulation training adopts a distributed simulation technology, the system architecture is solidified and is not easy to flexibly modify, the system is repeatedly built, the resource expandability is poor, and the deployment and maintenance are complex; in the traditional chemical defense training process, live simulation, virtual simulation and structural simulation are mutually independent, and simulation data are mutually split and cannot be mutually interconnected and communicated. The virtual simulation comprises a plurality of simulation subsystems which are mutually independent, and the problems of data islands and data chimneys exist. In addition, the defense simulation training period is short, training requirements and scenes are variable, and uniform bottom data are needed to be used as support to quickly adjust and configure upper-layer applications and services.

The simulation method is applied to the field of chemical defense simulation training, and a uniform chemical defense simulation training simulation system is constructed by integrating devices and systems such as a simulation trainer, a desktop cloud system, a mobile terminal and a sensor through a cloud platform according to requirements of chemical defense equipment skill training, team tactical training and comprehensive drilling business for three types of users including trained personnel, training personnel and system administrators on a system level. On the business level, the training of various professional subjects related to a defense simulation training scene needs to be supported, wherein the training comprises defense squad tactical simulation, nuclear explosion monitoring simulation, nuclear biochemical reconnaissance simulation, nuclear biochemical detection simulation, nuclear emergency simulation training, chemical emergency simulation training, fuming squad tactical simulation, fire attack simulation training and the like.

However, some key problems to be solved still exist in the simulation system in the existing defense simulation training scene, which specifically include:

(1) In the process of defense simulation training, live simulation, virtual simulation and structural simulation are mutually independent and cannot be effectively combined;

(2) In the chemical defense simulation training, the data of each subsystem is simulated virtually and split, a data chimney and an information island exist, and the efficiency of interconnection and subsystem cooperative linkage is low;

(3) The defense simulation training period is short, the training requirement and the scene are variable, the simulation system needs to adapt to the rapid and variable requirement, and the rapid adjustment and configuration can be carried out according to the service requirement;

(4) The traditional defense simulation training simulation system has poor expandability of training resources, cannot realize elastic resource supply according to services, is repeatedly built and is complex in deployment and maintenance.

Aiming at the key problems, technical personnel are required to provide a new scheme to fuse and innovate various chemical defense simulation training simulation systems, and the interconnection interoperability of the simulation systems is improved.

Disclosure of Invention

The invention provides a cloud-based LVC (Live Virtual guided) defense simulation training simulation system and method, wherein a defense simulation training simulation system is formed by integrating a guidance evaluation system, a cloud platform, a simulation training terminal, a simulator and a communication terminal, and three simulation modes of Live simulation, virtual simulation and structural simulation are integrated. The cloud platform performs data unified storage, data unified disk dropping and data sharing through distributed storage, and a data chimney and a data island are opened; the method comprises the steps that a Delta network, a monitoring network, a DDS multicast network and a service network are integrated through a cloud platform basic network, interconnection and intercommunication of a simulator, a communication terminal, a guidance and control system and the cloud platform network are achieved, in addition, optimization is carried out on the service network, logic subnets are divided according to service data characteristics for isolation, and bandwidth reservation and speed limitation on the logic subnets are supported; the resource one-key creation and one-key withdrawal are realized by combining the template and the arrangement technology, the requirements of short defense simulation training and simulation training period and variable training requirements are met, and the efficient operation of defense simulation training services in a simulation system is supported.

The invention aims to realize the unified storage of bottom layer data based on a cloud environment, adapt to different links to realize the interconnection and intercommunication of networks, integrate live simulation, virtual simulation and structural simulation and solve the problems of data fracture, data islands and data chimneys in the existing simulation system; the functions of one-key resource preparation, one-key withdrawal and the like are realized, the requirements of short defense simulation training and simulation training period and variable training requirements are met, and the efficiency of interconnection and intercommunication interoperation of a simulation system is improved.

The technical scheme of the invention is as follows: a cloud-based LVC defense simulation training simulation system comprises:

the system comprises a guidance control evaluation system, a cloud platform and a management system, wherein the guidance control evaluation system is used for training management, guidance control, training monitoring and decision evaluation, subscription and release of user training data, downloading of a training mirror image, downloading of environment data from the cloud platform and acquisition of desktop monitoring and camera monitoring data;

the cloud platform is used for providing public resource support for an external system, managing a computer and side equipment, and loading an equipment model, geographic data, meteorological data, a data model, a training scene and the like on the cloud platform;

the simulation training terminal is used for issuing a starting-up instruction and mirror image data issued by the end management tool, reporting the state of the simulator, reporting the monitoring data of the PC and uploading the data after training and receiving;

the simulator comprises a starting-up starting instruction issued by the end management tool, issuing of mirror image data, reporting of monitoring data by the PC and uploading of data after training and receiving; downloading a corresponding virtual machine system mirror image according to a training plan aiming at a desktop simulator training system;

the communication terminal carries out instant communication in simulation training through the simulation communication terminal, and the instant communication comprises the reporting and receiving of various information and states.

Has the advantages that:

the simulation training simulation system is realized by taking the cloud platform as a basic base, the virtual training resources can be flexibly supplied according to needs, uniform resource scheduling and monitoring are realized, the utilization rate of hardware resources is improved, and the problems that the traditional simulation system is repeatedly built and the scattered system is complex to deploy and maintain are solved; the problems of dispersion and data fragmentation of each simulation subsystem, low cooperation and linkage efficiency in the traditional simulation system are solved, three types of simulation of live simulation, virtual simulation and structural simulation are integrated, and interconnection and interoperability of the simulation system are improved.

Drawings

FIG. 1 is a schematic diagram of an LVC emulation fusion architecture;

FIG. 2 is a diagram of virtual simulation system composition and information interaction;

FIG. 3 is a diagram of external information interaction;

FIG. 4 is a diagram of an internal interaction relationship of cloud platform base resources;

FIG. 5 is a flowchart of an LVC based simulation system interaction;

FIG. 6 is a training room independent training mode;

FIG. 7 shows the system-wide training mode.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person skilled in the art based on the embodiments of the present invention belong to the protection scope of the present invention without creative efforts.

According to the embodiment of the invention, a cloud-based LVC defense simulation training simulation system is provided, which can realize the functions of live simulation, virtual simulation and structural simulation, wherein the live simulation is used as a premise, the virtual simulation is used as a core, the structural simulation is used as an assistant, three simulation modules are fused, and the general structural block diagram is shown in FIG. 1:

in the live simulation, through the imaginary action and the test training of real equipment in an actual battlefield, imagination files and guidance and control data are formed aiming at the whole training process, and the imagination files and the guidance and control data can be used as input command information to be transmitted to a virtual simulation scene;

virtual simulation, which is to apply the guide control data to perform virtual simulation in a chemical defense simulation training simulation system, the system and the army perform simulation battles and training under the guidance of the guide control data in a synthetic environment, the whole training process is uniformly stored by recording, and the recorded and stored simulation training data can provide data support for constructing a simulation scene;

and (3) constructing simulation, namely replaying the recorded and stored whole simulation process, editing and reconstructing virtual simulation training in the replay process, further carrying out damage and tactical assessment on different constructed simulations, and carrying out tactical situation deduction on two confrontation parties in the constructed simulation.

According to an embodiment of the present invention, the cloud-based LVC chemical defense simulation training simulation system includes:

the whole virtual simulation system comprises a cloud platform, a guidance and control evaluation system, a simulation training terminal, a simulator and a communication terminal, wherein data interaction is carried out among the cloud platform, the cloud platform serves as a basic base to provide functions of deployment environment, storage service, resource management, monitoring and the like, and bears equipment models, geographic data, meteorological data, data models, training scenes and the like, and the functions are specifically shown in figure 2:

the simulation system mainly comprises:

(1) The guidance control evaluation system mainly comprises training management, guidance control, training monitoring and decision evaluation, and is used for subscribing and publishing user training data, downloading a training mirror image, downloading environment data from a cloud platform and acquiring desktop monitoring and camera monitoring data.

(2) The cloud platform mainly provides public resource support for an external system, manages computers and side equipment, and bears environmental data, geographic data, meteorological data, a data model and a training scene.

(3) The simulation training terminal mainly comprises a starting-up instruction issued by the end management tool, issuing of mirror image data, reporting of simulator states, reporting of monitoring data by the PC and uploading of data after training and receiving.

(4) The simulator mainly comprises a starting-up starting instruction issued by an end management tool, issuing of mirror image data, reporting of PC monitoring data and uploading of data after training and receiving. For the desktop simulator training system, the corresponding virtual machine system image is downloaded according to the training plan.

(5) The communication terminal mainly carries out instant communication in simulation training through the simulation communication terminal, and comprises the reporting and receiving of various information and states.

Further, the LVC-based defense simulation training simulation system is used for external information interaction, mainly data interaction between a cloud platform and a guidance and control evaluation system, as shown in FIG. 3 below. As can be seen from the figure, the cloud platform and the guidance and control evaluation system are integrated in a unified way through the front-end comprehensive portal and enter the cloud platform through authentication and authorization. The cloud platform basic network integrates four network links of a Dandingnet, a monitoring net, a DDS multicast net and a service net, the bottom layer of the cloud platform provides unified storage service, including file storage, object storage and block storage, and database service is provided for the upper layer. The cloud platform and the guidance and control evaluation system interact with the communication terminal and the simulator/training terminal through a network.

A cloud platform user interacts with a cloud platform virtualization component through a user interface, for example, a common user operates a cloud platform through an interface to create and use a virtual machine, and operates the cloud platform through the user interface to check monitoring information such as resource states and use conditions of the virtual machine; the cloud platform virtualization component calls a database through a data interface to access data; collecting the log information of the virtual machine through a log collection service; other systems can call the cloud platform through the system integration interface to acquire certain data to realize interoperation among the systems and the like.

Referring to fig. 4, a user operates a virtual machine created in a user interface, and first obtains authentication information from an authentication service. The authentication service requests authentication information through the user, generates an authorization token and returns the authorization token to the corresponding authentication request. One-key resources prepare to send a request (carrying an authorization token) for starting an instance, the computing service receives the request and then sends an authentication request to the authentication service, whether the token is valid or not is checked, and if the token is valid, valid authentication and a corresponding role are returned.

After the authentication, the computing service communicates with the database, a database record of the newly-built virtual machine is initialized, the computing service judges whether resources for creating the virtual machine exist or not, and a computing service scheduling process intercepts a message queue to acquire a computing service request. And the dispatching function of the computing service is used for inquiring the condition of computing resources in the computing service database, computing the host which meets the requirement of virtual machine creation through a dispatching algorithm, and updating the physical host information corresponding to the virtual machine in the database for the host which meets the requirement of virtual machine creation. And sending a corresponding message of the request for creating the virtual machine to the virtual machine management of the computing service. The computing service will retrieve the message for creating the virtual machine request from the corresponding message queue and request to retrieve the virtual machine message. And obtaining the authenticated token through the authentication service, and obtaining the mirror image required by the virtual machine creation through the HTTP request mirror image service. The mirror service confirms to the authentication service whether the authentication token is valid and returns a verification result.

And after the authentication and verification are passed, the computing service acquires virtual machine mirror image information (URL) to acquire an authentication token, requests the network service to acquire network information required for creating the virtual machine through HTTP, and the network service authenticates whether the token is valid or not to the authentication service and returns a verification result. And the computing service acquires the network information of the virtual machine through token verification, takes the authenticated token through the authentication service, and requests the distributed storage service through HTTP to acquire the persistent storage information required by virtual machine creation. And the storage service authenticates whether the token is valid or not to the authentication service, and returns a verification result, and the authentication service acquires the persistent storage information of the virtual machine after the verification is passed.

On the application level, the LVC-based defense simulation training simulation system organically integrates all platforms, resources and components, provides the capabilities of uniform user access authentication, uniform training resource planning, uniform resource monitoring, uniform training data storage and the like, and supports the circulation of various service data among simulation components.

As shown in fig. 5, which is an interaction flow chart of the LVC-based defense simulation training simulation system, the service data starts from live simulation, flows to the virtual simulation environment, and is fed back to the live simulation through the structural simulation to form a closed loop.

Firstly, through unified user access authentication, one account can access all service systems through legal authorization, and live simulation training is started, wherein the method mainly comprises the steps of formulating a guidance control file and training management;

secondly, entering a virtual simulation environment, receiving a guidance control file and carrying out uniform resource planning according to the file; one-key resource unified creation is carried out according to planning, and various resources including a cloud platform, a guidance and control system, various professional subsystems, a simulator, a communication terminal and the like are prepared and ready; checking the states of various resources, determining that the resources are prepared completely, and returning to the unified creation of the resources if the states of the various resources are not the same; if the resources are ready, starting the simulation training, recording the training data, carrying out uniform resource monitoring, and uniformly storing the training data until the simulation training is finished.

Then, entering a constructed simulation environment, receiving training recorded data from a non-virtual simulation environment, and playing back the training data; editing training data as required for tactical assessment and deduction; and iteratively editing the training data according to the training target, updating the guidance control file and synchronizing the guidance control file to the guidance control file library when the expected training target is reached, and finally finishing the construction simulation deduction.

The cloud-based LVC defense simulation training simulation system is applied to the field of simulation training, and the embodiment is described in the defense simulation training scene. The cloud-based LVC simulation system provides a basic base in a defense training scene by depending on a data cloud platform, integrates a guidance and control evaluation system (including branch guidance and control) and defense professional operation terminals, supports various use modes, and is explained in the following by two modes of branch training and joint training.

(1) Training scenario

The training-based scenario is that training rooms are independently trained, and means that each training room is supported by a data cloud platform to separately guide and control single-professional simulation training by means of a professional training system. And the branch guidance control directly calls resources and training data from the data cloud platform, sends guidance instructions, simulation situations and operation instructions to each defense patent operation terminal, performs simulation training through data interaction between the guidance instructions, the simulation situations and the operation instructions, and uploads the training process and training result data to the data cloud platform. The training pattern is shown in fig. 6.

In the drilling preparation stage, the pilot personnel input basic data and training scenario data by means of sub-pilot control of each professional training system, train, marshalling and set command seats and the like. The resources referred to above are invoked from the cloud platform.

In the practice implementation stage, a pilot personnel issues training plans and tactical conditions according to each professional training system to conduct pilot control; the trainees rely on operation terminals such as VR, desktop system and simulator, and receive command commands issued by organs (guiding and adjusting personnel) to perform related professional operations, and the operation results enter the simulation system in the form of control commands; the simulation system operates the control instruction issued by the trainee, continuously generates a new combat situation and a situation report, feeds back the new combat situation and the situation report to the trainee in the professional team, induces the trainee to make new treatment, and circularly and repeatedly advances the drilling process.

In the evaluation stage of the drill speech, the adjustment guide personnel carry out adjudication evaluation on the drill condition through the adjudication evaluation function of professional sub-guide control.

(2) Training in

The joint training is that a multi-professional simulation training is planned and organized by a guidance and control evaluation system of a cloud platform, and at the moment, the branch guidance and control of each professional training room serves as a data exchange node and is responsible for data interaction from top to bottom. The training pattern is shown in fig. 7.

And in the training preparation stage, a director part relies on a guidance control evaluation system to prepare basic data, plan a battlefield environment, synthesize situation and the defense force of a director, plan a training seat and generate training subject data. In the training initialization stage, firstly, a director part conducts condition import, and the main contents comprise the operation backgrounds of the red and blue parties, attempted solution, fighting time, main completed contents and the like; then, the imagination documents and the like are distributed to subordinate command institutions through the command system; a commander receives the guiding and adjusting document, knows relevant conditions, decides on fighting decisions, generates a military force deployment scheme after completing fighting planning, feeds back the military force marshalling scheme to a guiding and controlling evaluation system, and analyzes the military force marshalling scheme into military force marshalling data which can be understood by a simulation training system; at the moment, the director part completes the input and the import of the military force grouping data according to the fighting decision, simultaneously generates the virtual red and blue military forces in a matching way, and then packs the data and sends the data to each training terminal to form the initial training situation.

In the training implementation stage, after each terminal enters an initial situation interface, a commander issues a task instruction to the initial situation interface through a command system. The training terminal receives a superior instruction through the command system, drives a three-dimensional driving function, and firstly maneuvers the vehicle to a preset deployment position in two forms of single vehicle or formation to form an initial deployment situation of a chemical defense; the adjustment guide personnel applies conventional striking and nuclear biochemical striking to the red army by relying on a guide control evaluation system to trigger the chemical defense training; meanwhile, the pilot personnel monitor and receive training activity information through the pilot evaluation system, start a data recorder of the pilot system to record training activity data in real time, and count and display command operation activities and squad combat action results of each simulation command station on line. The commanders and the command organs thereof receive the battlefield situation, judge the situation, decide the fighting decision and deal with the situation by utilizing the command information system. The commander of the chemical defense squad should surround the basic procedure of the battle command of 'situation-resolution-disposition', know the situation in time and make a decision, command squad action and realize resolution. The defense team members should act in time and report the action result around the basic procedure of 'receiving instruction-action-feedback reporting'.

And in the training and comment evaluation stage, a director depends on a training and evaluation subsystem to finally judge the completion degree and the training effect of the battle mission mainly according to the training process, the final situation and the data of the whole training process. The training and evaluating subsystem has the functions of data recording, index construction, statistical analysis and the like, and can carry out quantitative evaluation on operation training and command training results and processes.

Although the illustrative embodiments of the present invention have been described in order to facilitate those skilled in the art to understand the invention, it is to be understood that the invention is not limited in scope to the specific embodiments, but rather, it will be apparent to those skilled in the art that various changes may be made without departing from the spirit and scope of the invention as defined and defined in the appended claims, and it is intended that all matter contained in the invention and created by the inventive concept be protected.

Claims (5)

1. A cloud-based LVC defense simulation training simulation system is characterized by comprising:

the system comprises a guidance control evaluation system, a cloud platform and a management system, wherein the guidance control evaluation system is used for training management, guidance control, training monitoring and decision evaluation, subscription and release of user training data, downloading of a training mirror image, downloading of the training data from the cloud platform and acquisition of desktop monitoring and camera monitoring data;

the cloud platform is used for providing public resource support for an external system, managing a computer and side equipment, and loading an equipment model, geographic data, meteorological data, a data model, a training scene and the like on the cloud platform;

the simulation training terminal is used for issuing a starting-up instruction and mirror image data issued by the end management tool, reporting the state of the simulator, reporting the monitoring data of the PC and uploading the data after training and receiving;

the simulator comprises a starting-up starting instruction issued by the end management tool, issuing of mirror image data, reporting of monitoring data by the PC and uploading of data after training and receiving; downloading a corresponding virtual machine system mirror image according to a training plan aiming at a desktop simulator training system;

the communication terminal carries out instant communication in simulation training through the simulation communication terminal, and the instant communication comprises the reporting and receiving of various information and states.

2. The cloud-based LVC defense simulation training simulation system according to claim 1, comprising:

the cloud platform and the guidance and control evaluation system are subjected to data interaction, are uniformly integrated through a front-end comprehensive portal and enter the cloud platform through authentication and authorization; the cloud platform basic network integrates four network links of a Dandingnet, a monitoring net, a DDS multicast net and a service net, the bottom layer of the cloud platform provides unified storage service, including file storage, object storage and block storage, and database service is provided for the upper layer. The cloud platform and the guidance and control evaluation system are communicated with the simulation training terminal, the communication terminal and the simulator through network interaction.

3. The cloud-based LVC defense simulation training simulation system according to claim 1, comprising:

a cloud platform user interacts with a cloud platform virtualization component through a user interface, a common user operates the cloud platform through the interface to create and use a virtual machine, and the cloud platform is operated through the user interface to check the resource state and the use condition monitoring information of the virtual machine; the cloud platform virtualization component calls a database through a data interface to access data; collecting the log information of the virtual machine through a log collection service; and other systems call the cloud platform through the system integration interface to acquire certain data to realize the interoperation among the systems.

4. A cloud-based LVC defense simulation training simulation method is characterized by comprising the following steps:

a user operates and creates a virtual machine on a user interface, firstly, authentication information is obtained from authentication service, the authentication service requests the authentication information through the user, and an authorization token is generated and returned to a corresponding authentication request; one-key resources prepare to send a request for starting an instance, the computing service receives the request and then sends an authentication request to the authentication service, whether the token is valid is checked, and if the token is valid, valid authentication and a corresponding role are returned;

after authentication, communication between the computing service and the database is carried out, a database record of the newly-built virtual machine is initialized, the computing service judges whether resources for creating the virtual machine exist or not, and a computing service scheduling process monitors a message queue to obtain a computing service request; the method comprises the steps that a scheduling function of a computing service inquires the condition of computing resources in a computing service database, a host conforming to the virtual machine creation requirement is computed through a scheduling algorithm, for the host conforming to the virtual machine creation, the computing service scheduling function updates physical host information corresponding to the virtual machine in the database, sends a corresponding virtual machine creation request message to the virtual machine management of the computing service, the computing service acquires the virtual machine creation request message from a corresponding message queue and requests to acquire the virtual machine message, an authentication token is acquired through the authentication service, a mirror image required by the virtual machine creation is acquired through an HTTP (hyper text transport protocol) mirror image request service, and the mirror image service confirms whether the authentication token is valid or not to the authentication service and returns a verification result;

the authentication and verification are passed, the computing service acquires virtual machine mirror image information (URL) to acquire an authentication token, and requests the network service to acquire network information required for creating the virtual machine through HTTP, and the network service authenticates whether the token is valid or not to the authentication service and returns a verification result; the token is verified to be passed, the computing service obtains network information of the virtual machine, the authenticated token is taken through the authentication service, and persistent storage information required by virtual machine creation is obtained through HTTP request distributed storage service; and the storage service authenticates whether the token is valid or not to the authentication service, returns a verification result, passes the verification, and the authentication service acquires the persistent storage information of the virtual machine and enters a simulation stage.

5. The cloud-based LVC defense simulation training simulation method according to claim 4, comprising:

in the simulation stage, firstly, through unified user access authentication, an account can access all service systems through legal authorization, and live simulation training is started, wherein the method mainly comprises the steps of formulating a guidance control file and training management;

secondly, entering a virtual simulation environment, receiving a guidance control file and carrying out uniform resource planning according to the file; one-key resource unified creation is carried out according to planning, and the one-key resource unified creation comprises a cloud platform, a guidance and control system, simulation training terminals, a simulator and a communication terminal, and is ready and ready for various resources; checking the states of various resources, determining that the resources are prepared completely, and returning to the unified creation of the resources if the states of the various resources are not the same; if the resources are ready, starting simulation training, recording the training data, carrying out uniform resource monitoring, and uniformly storing the training data until the simulation training is finished.

Then, entering a constructed simulation environment, receiving training recorded data from a non-virtual simulation environment, and playing back the training data; editing training data as required for tactical assessment and deduction; and iteratively editing the training data according to the training target, updating the guidance control file and synchronizing the guidance control file to the guidance control file library when the expected training target is reached, and finally finishing the construction simulation deduction.

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