CN116542015A - Simulation system and method of equipment system based on equipment system architecture view - Google Patents

Abstract

The embodiment of the invention discloses a simulation system and a simulation method of an equipment system based on an equipment system architecture view. In one embodiment, an equipment hierarchy includes an equipment architecture view design module and an equipment hierarchy countermeasure simulation module, the simulation system including: the shared system model knowledge base module is used for storing data shared between the equipment system architecture view design module and the equipment system countermeasure simulation module; the system architecture view and simulation description file conversion module is used for converting the system architecture view file generated by the equipment system architecture view design module into a simulation scanning file required by the equipment system countermeasure simulation module; and the dynamic simulation protocol module is used for sending the information generated by the equipment system countermeasure simulation module to the equipment system architecture view design module. The implementation mode reduces the artificial redesign and redevelopment process and improves the efficiency of equipment system design and simulation.

Description

Simulation system and method of equipment system based on equipment system architecture view

Technical Field

The present invention relates to the field of equipment architecture countermeasures. And more particularly to an equipment architecture simulation system and method based on an equipment architecture view.

Background

An equipment architecture view is information used to describe an equipment architecture, i.e., the composition and flow of the equipment architecture, etc., from different angles through a series of views, also referred to as an equipment architecture model. The equipment architecture model can truly and comprehensively describe various architectures of the whole equipment architecture from various angles. The equipment architecture view is a designed product, generally using a documented description, and currently also using a structured description. However, the accuracy, integrity, and realizability of equipment architecture view designs is difficult to quantify metrics.

Although it is a viable approach to simulate the architectural view by building an equipment hierarchy against a simulation system, and then evaluate the architectural view by means of a simulation evaluation. However, the architectural view product cannot be directly used for simulation, and the architectural design tool generally lacks a dynamic analysis function for an equipment system combined with an equipment model, cannot simulate and verify a combat concept, cannot check and evaluate a combat plan, cannot evaluate an architecture, and cannot make quantitative demand decisions.

At present, the following defects are common in a simulation deduction and simulation verification method based on an equipment system architecture view: 1) The simulation model of the equipment system cannot be directly reused, and the phenomenon of two skins exists in the design of the equipment system architecture and the counter simulation of the equipment system; 2) The equipment system architecture design is lack of dynamic information support of the equipment system countermeasure simulation, so that the result of the equipment system architecture design is often unreliable, and the correctness of the equipment system view is difficult to be explained; 3) The view product of the equipment architecture design cannot be directly used for the construction and operation of the equipment architecture countermeasure simulation system, and the construction between the two needs to be manually redesigned and redeveloped, so that the efficiency is low and errors are easy to occur.

Disclosure of Invention

The invention aims to provide an equipment system simulation system and method based on an equipment system architecture view, which are used for solving at least one of the problems existing in the prior art.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the invention provides a simulation system of an equipment system based on an equipment system architecture view, wherein the equipment system comprises an equipment system architecture view design module and an equipment system countermeasure simulation module, and the simulation system comprises a shared system model knowledge base module, an architecture view and simulation description file conversion module and a dynamic simulation protocol module; wherein the method comprises the steps of

The shared architecture model knowledge base module is used for storing data shared between the equipment architecture view design module and the equipment architecture countermeasure simulation module;

the system architecture view and simulation description file conversion module is used for converting the system architecture view file generated by the equipment system architecture view design module into a simulation scanning file required by the equipment system countermeasure simulation module;

the dynamic simulation protocol module is used for sending the information generated by the equipment system countermeasure simulation module to the equipment system architecture view design module.

Optionally, the data includes equipment type, equipment model name, equipment model parameters, equipment model data, equipment simulation model description file, and equipment combat behavior description file.

Optionally, the architecture view and simulation description file conversion module is a separate program module or embedded in the equipment architecture view design module or embedded in the equipment architecture countermeasure simulation module.

Optionally, the simulation scanning file comprises a simulation model description file, a simulation equipment model description file and a simulation design scene description file.

Optionally, the equipment architecture view design module is configured to generate an event and send the event to the equipment architecture countermeasure simulation module through the dynamic simulation protocol module.

The second aspect of the present invention provides a simulation method of an equipment architecture based on an equipment architecture view, the equipment architecture including an equipment architecture view design module and an equipment architecture countermeasure simulation module, the simulation method including

Storing data shared between the equipment system architecture view design module and the equipment system countermeasure simulation module by using a shared system model knowledge base module;

converting the system architecture view file generated by the equipment system architecture view design module into a simulation scanning file required by the equipment system countermeasure simulation module by utilizing a system architecture view and simulation description file conversion module;

and transmitting information generated by the equipment system countermeasure simulation module to the equipment system architecture view design module by using a dynamic simulation protocol module.

Optionally, the converting the architecture view file generated by the equipment architecture view design module into the simulation scan file required by the equipment architecture countermeasure simulation module includes

Converting the equipment architecture view into an equipment model description file by using an architecture view and simulation description file conversion module;

and automatically generating a code frame, a development model and an assembly model based on the equipment model description file by utilizing the dynamic simulation protocol module.

Optionally, the equipment model description file includes desired parameters, performance parameters, and subscription messages for the equipment model.

Optionally, the converting the architecture view file generated by the equipment architecture view design module into the simulation scan file required by the equipment architecture countermeasure simulation module further comprises

Modifying the combat behavior state machine of a part model by utilizing the equipment system architecture view design module;

converting the modified architecture view file into a simulation equipment model description file by using the architecture view and simulation description file conversion module;

and updating equipment combat behaviors by using the equipment hierarchy countermeasure simulation module based on the simulation equipment model description file.

Optionally, the converting the architecture view file generated by the equipment architecture view design module into the simulation scan file required by the equipment architecture countermeasure simulation module further comprises

Converting the simulation scenario-related file in the architecture view file into a simulation scenario-describing file by using the architecture view and simulation scenario-describing file conversion module;

and directly running simulation by utilizing the equipment system countermeasure simulation module based on the simulation wanted scene description file.

The beneficial effects of the invention are as follows:

according to the equipment system simulation system based on the equipment system architecture view, through sharing the system model knowledge base module, an equipment system simulation model can be reused between the equipment system countermeasure simulation module and the equipment system architecture design module; through the dynamic simulation protocol module, the equipment system architecture design can directly utilize the dynamic information of the equipment system countermeasure simulation to support the verification of the system architecture design; via the system architecture view and the simulation description file conversion module, view products of the equipment system architecture design can be directly used for constructing and running an anti-simulation system of the equipment system, the artificial redesign and redevelopment processes are reduced, the efficiency of the equipment system design and simulation is improved, and the design accuracy is improved.

Drawings

The following describes the embodiments of the present invention in further detail with reference to the drawings.

Fig. 1 shows a schematic structural diagram of an equipment architecture simulation system based on an equipment architecture view according to an embodiment of the present invention.

Detailed Description

In order to more clearly illustrate the present invention, the present invention will be further described with reference to examples and drawings. Like parts in the drawings are denoted by the same reference numerals. It is to be understood by persons skilled in the art that the following detailed description is illustrative and not restrictive, and that this invention is not limited to the details given herein.

At present, the following defects are common in a simulation deduction and simulation verification method based on an equipment system architecture view: 1) The simulation model of the equipment system cannot be directly reused, and the phenomenon of two skins exists in the design of the equipment system architecture and the counter simulation of the equipment system; 2) The result of the equipment architecture design is often unreliable due to the lack of dynamic information supporting architecture design of the equipment architecture countermeasure simulation, and the correctness of the equipment architecture view is difficult to be explained; 3) The view product of the equipment architecture design cannot be directly used for the construction and operation of the equipment architecture countermeasure simulation system, and the construction between the two needs to be manually redesigned and redeveloped, so that the efficiency is low and errors are easy to occur.

In view of this, an embodiment of the present invention provides a simulation system of an equipment architecture based on an equipment architecture view, where the equipment architecture includes an equipment architecture view design module and an equipment architecture countermeasure simulation module, and the simulation system includes a common architecture model knowledge base module, an architecture view and simulation description file conversion module, and a dynamic simulation protocol module; the shared architecture model knowledge base module is used for storing data shared between the equipment architecture view design module and the equipment architecture countermeasure simulation module; the system architecture view and simulation description file conversion module is used for converting the system architecture view file generated by the equipment system architecture view design module into a simulation scanning file required by the equipment system countermeasure simulation module; the dynamic simulation protocol module is used for sending the information generated by the equipment system countermeasure simulation module to the equipment system architecture view design module.

Specifically, an equipment system simulation system based on an equipment system architecture view adopts a view product direct conversion mode to realize the running of the equipment system countermeasure simulation. The system comprises a shared system model knowledge base module, a system architecture view and simulation description file conversion module, a dynamic simulation protocol module and the like.

Further, as shown in fig. 1, the shared architecture model knowledge base module is used for storing a simulation model, an equipment model, a combat behavior model and the like shared between the architecture view design module and the architecture countermeasure simulation module. The system architecture view model and the equipment system simulation model can be shared and reused between the system architecture view design module and the system countermeasure simulation module, and the shared system model knowledge base module keeps continuously and dynamically updated in the updating process of the whole system.

The system architecture view and simulation description file conversion module is used for converting the system architecture view into a simulation description file of system countermeasure simulation.

The dynamic simulation protocol module is used for carrying out real-time simulation verification, and in the running process of the simulation system, the information generated by the system countermeasure simulation module is sent to the equipment system architecture design module in real time and used for verifying the correctness of the combat flow and the system architecture in the system architecture view in real time.

The embodiment can directly reuse the equipment system simulation model, and the two-skin phenomenon between the equipment system architecture design and the equipment system countermeasure simulation can be effectively avoided; the equipment system architecture design can directly utilize the dynamic information of the equipment system countermeasure simulation to support the verification of the system architecture design, so that the correctness of the equipment system view is evaluated; the view product of the equipment system architecture design can be directly used for constructing and running an anti-simulation system of the equipment system, so that the artificial redesign and redevelopment process is reduced, the efficiency of the equipment system design and simulation is improved, and the design accuracy is enhanced.

In one possible implementation, the data includes equipment type, equipment model name, equipment model parameters, equipment model data, equipment simulation model description file, and equipment combat behavior description file.

Specifically, the common architecture model knowledge base module may use a relational database to store equipment model names, equipment types, equipment model parameters, equipment model data, equipment simulation model description files, and equipment combat behavior description files.

In one possible implementation, the architecture view and simulation description file conversion module is a separate program module or embedded in the equipment architecture view design module or embedded in the equipment architecture countermeasure simulation module.

In one possible implementation, the simulation scan file includes a simulation model description file, a simulation equipment model description file, and a simulation scenario description file.

Specifically, the simulation description file comprises a simulation model description file, a simulation equipment model description file, a simulation design scene description file and the like. The system architecture view and simulation description file conversion module can be independent program modules, and can be embedded into the equipment system countermeasure simulation module or the equipment system architecture design module.

In one possible implementation, the equipment architecture view design module is configured to generate events and send the events to the equipment architecture countermeasure simulation module via the dynamic simulation protocol module.

Specifically, the equipment system architecture design module can dynamically generate related events and cooperatively send the events to the equipment system countermeasure simulation module through dynamic simulation in the dynamic simulation protocol module, so as to intervene in the state of the simulation system in real time.

Furthermore, the dynamic simulation protocol module can be implemented by adopting a two-level system network protocol, for example, protocol encapsulation can be performed based on protobuf.

According to the equipment system simulation system based on the equipment system architecture view, through sharing the system model knowledge base module, the equipment system counter simulation module and the equipment system architecture design module can reuse the equipment system simulation model; through the dynamic simulation protocol module, the equipment system architecture design can directly utilize the dynamic information of the equipment system countermeasure simulation to support the verification of the system architecture design; via the system architecture view and the simulation description file conversion module, view products of the equipment system architecture design can be directly used for constructing and running an anti-simulation system of the equipment system, the artificial redesign and redevelopment processes are reduced, the efficiency of the equipment system design and simulation is improved, and the design accuracy is improved.

Another embodiment of the present invention provides a simulation method of an equipment architecture based on an equipment architecture view, the equipment architecture including an equipment architecture view design module and an equipment architecture countermeasure simulation module, the simulation method including storing data shared between the equipment architecture view design module and the equipment countermeasure simulation module using a shared architecture model knowledge base module; converting the system architecture view file generated by the equipment system architecture view design module into a simulation scanning file required by the equipment system countermeasure simulation module by utilizing a system architecture view and simulation description file conversion module; and transmitting information generated by the equipment system countermeasure simulation module to the equipment system architecture view design module by using a dynamic simulation protocol module.

The equipment system simulation method based on the equipment system architecture view can directly multiplex the equipment system simulation model, and the equipment system architecture design and the equipment system countermeasure simulation can effectively avoid the phenomenon of two leather between the equipment system architecture design and the equipment system countermeasure simulation; the equipment system architecture design can directly utilize the dynamic information of the equipment system countermeasure simulation to support the verification of the system architecture design, so that the correctness of the equipment system view is evaluated; the view product of the equipment system architecture design can be directly used for constructing and running an anti-simulation system of the equipment system, so that the artificial redesign and redevelopment process is reduced, the efficiency of the equipment system design and simulation is improved, and the design accuracy is enhanced.

In one possible implementation, the converting the architecture view file generated by the equipment architecture view design module into the simulation scan file required by the equipment architecture countermeasure simulation module includes: converting the equipment architecture view into an equipment model description file by using an architecture view and simulation description file conversion module; and automatically generating a code frame, a development model and an assembly model based on the equipment model description file by utilizing the dynamic simulation protocol module.

Specifically, for a new equipment model of the architecture design, firstly, an architecture view and simulation description file conversion module is utilized to convert the architecture view of the equipment into an equipment model description file (i.e. a simulation description file), a code frame, a development model and an assembly model are automatically generated by an equipment architecture countermeasure simulation module based on the equipment model description file, and the developed equipment simulation model can enter a shared architecture model knowledge base module for multiplexing.

In one possible implementation, the equipment model description file includes the intended parameters, performance parameters, and subscription messages for the equipment model.

Specifically, the convertible equipment model description file contains the desired parameters, performance parameters, subscription messages (control commands, engagement events, and communication messages) and the like of the model, based on which model development is performed, and a dynamic library is formed as a specific carrier of the equipment model.

Further, the convertible architecture view includes the SV-1 system decomposition and external interface definition view including attributes, operations (actions), and metrics included in the SV-7 metrics view, etc.

In one possible implementation, the converting the architecture view file generated by the equipment architecture view design module into the simulation scan file required by the equipment architecture countermeasure simulation module further includes: modifying the combat behavior state machine of a part model by utilizing the equipment system architecture view design module; converting the modified architecture view file into a simulation equipment model description file by using the architecture view and simulation description file conversion module; and updating equipment combat behaviors by using the equipment hierarchy countermeasure simulation module based on the simulation equipment model description file.

Specifically, based on the synchronization of the shared architecture model knowledge base module, the architecture design module modifies the combat behavior state machine of a part of models, and the architecture view and simulation description file conversion module is utilized to convert the architecture view of the equipment into a simulation equipment model description file, so that the equipment architecture simulation module can update the combat behavior of the equipment based on the file.

Further, the equipment model description file contains specific values of equipment simulation model parameters. The equipment simulation model is provided with a state machine and a behavior tree formed by specific combination of actions as a model of equipment behaviors, and can be modified in an equipment system architecture view module and dynamically simulated in the equipment system simulation module.

In one specific example, the content of the equipment combat behavior model transition may include specific metric values (equipment performance parameters) in the SV-7 metric view, the SV-1 system decomposition and external interface definition view, and state machines contained in the SV-10B system state transition view, etc.

In one possible implementation, the converting the architecture view file generated by the equipment architecture view design module into the simulation scan file required by the equipment architecture countermeasure simulation module further includes: converting the simulation scenario-related file in the architecture view file into a simulation scenario-describing file by using the architecture view and simulation scenario-describing file conversion module; and directly running simulation by utilizing the equipment system countermeasure simulation module based on the simulation wanted scene description file.

Specifically, based on the synchronized shared architecture model knowledge base module, the architecture view product is utilized to convert the content related to the simulation wanted scene in the view product into the simulation wanted scene description file of the equipment architecture by utilizing the architecture view and simulation description file conversion module.

Furthermore, the equipment system countermeasure simulation module can directly run simulation, and the equipment system architecture module is driven by the simulation message data to form a time sequence diagram when the dynamic simulation protocol module returns to run, and the equipment system architecture design module can dynamically generate related events and cooperatively send the events to the equipment system countermeasure simulation system through dynamic simulation to intervene in the state of the simulation system in real time.

In one specific example, equipment deployment, command relationships, communication relationships, etc. typically included in a simulation scenario may be transformed, such as SV-1 system personnel interface definition views, SV-2 system relationship views, etc.

According to the equipment system simulation method based on the equipment system architecture view, an equipment system simulation model can be reused between the equipment system countermeasure simulation module and the equipment system architecture design module, and the equipment system architecture design and the equipment system countermeasure simulation can effectively avoid the phenomenon of two leather between the equipment system countermeasure simulation module and the equipment system countermeasure simulation module; the equipment system architecture design can directly utilize the dynamic information of the equipment system countermeasure simulation to support the verification of the system architecture design, so that the correctness of the equipment system view is evaluated; the view product of the equipment system architecture design can be directly used for constructing and running an anti-simulation system of the equipment system, so that the artificial redesign and redevelopment process is reduced, the efficiency of the equipment system design and simulation is improved, and the design accuracy is improved.

In the description of the present invention, it should be noted that the azimuth or positional relationship indicated by the terms "upper", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present invention and simplifying the description, and are not indicative or implying that the apparatus or element in question must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Unless specifically stated or limited otherwise, the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

It is further noted that in the description of the present invention, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

It should be understood that the foregoing examples of the present invention are provided merely for clearly illustrating the present invention and are not intended to limit the embodiments of the present invention, and that various other changes and modifications may be made therein by one skilled in the art without departing from the spirit and scope of the present invention as defined by the appended claims.

Claims (10)

1. The simulation system of the equipment system based on the equipment system architecture view is characterized by comprising an equipment system architecture view design module and an equipment system countermeasure simulation module, wherein the simulation system comprises a shared system model knowledge base module, an architecture view and simulation description file conversion module and a dynamic simulation protocol module; wherein the method comprises the steps of

The shared architecture model knowledge base module is used for storing data shared between the equipment architecture view design module and the equipment architecture countermeasure simulation module;

the system architecture view and simulation description file conversion module is used for converting the system architecture view file generated by the equipment system architecture view design module into a simulation scanning file required by the equipment system countermeasure simulation module;

the dynamic simulation protocol module is used for sending the information generated by the equipment system countermeasure simulation module to the equipment system architecture view design module.

2. The simulation system of claim 1, wherein the simulation system is configured to simulate a simulation system,

the data includes equipment type, equipment model name, equipment model parameters, equipment model data, equipment simulation model description file and equipment combat behavior description file.

3. The simulation system of claim 2, wherein the simulation system is configured to simulate a simulation system,

the system architecture view and simulation description file conversion module is a separate program module or is embedded in the equipment system architecture view design module or is embedded in the equipment system countermeasure simulation module.

4. The simulation system of claim 3, wherein the simulation system comprises a plurality of simulation modules,

the simulation scanning file comprises a simulation model description file, a simulation equipment model description file and a simulation wanted scene description file.

5. The simulation system of claim 4, wherein the simulation system is configured to simulate a simulation system,

the equipment system architecture view design module is used for generating events and sending the events to the equipment system countermeasure simulation module through the dynamic simulation protocol module.

6. A simulation method of an equipment hierarchy based on an equipment architecture view, wherein the equipment hierarchy comprises an equipment architecture view design module and an equipment hierarchy countermeasure simulation module, the simulation method comprising

Storing data shared between the equipment system architecture view design module and the equipment system countermeasure simulation module by using a shared system model knowledge base module;

converting the system architecture view file generated by the equipment system architecture view design module into a simulation scanning file required by the equipment system countermeasure simulation module by utilizing a system architecture view and simulation description file conversion module;

and transmitting information generated by the equipment system countermeasure simulation module to the equipment system architecture view design module by using a dynamic simulation protocol module.

7. A simulation method according to claim 6, wherein,

the method for converting the architecture view file generated by the equipment architecture view design module into the simulation scan file required by the equipment architecture countermeasure simulation module comprises the following steps of

Converting the equipment architecture view into an equipment model description file by using an architecture view and simulation description file conversion module;

and automatically generating a code frame, a development model and an assembly model based on the equipment model description file by utilizing the dynamic simulation protocol module.

8. A simulation method according to claim 7, wherein,

the equipment model description file includes desired parameters, performance parameters, and subscription messages for the equipment model.

9. A simulation method according to claim 8, wherein,

the simulation scan file required for converting the architecture view file generated by the equipment architecture view design module into the equipment architecture countermeasure simulation module also comprises

Modifying the combat behavior state machine of a part model by utilizing the equipment system architecture view design module;

converting the modified architecture view file into a simulation equipment model description file by using the architecture view and simulation description file conversion module;

and updating equipment combat behaviors by using the equipment hierarchy countermeasure simulation module based on the simulation equipment model description file.

10. A simulation method according to claim 9, wherein,

the simulation scan file required for converting the architecture view file generated by the equipment architecture view design module into the equipment architecture countermeasure simulation module also comprises

Converting the simulation scenario-related file in the architecture view file into a simulation scenario-describing file by using the architecture view and simulation scenario-describing file conversion module;

and directly running simulation by utilizing the equipment system countermeasure simulation module based on the simulation wanted scene description file.