CN111949507A - Graphical communication interface simulation modeling method - Google Patents

Abstract

The invention discloses a graphical communication interface simulation modeling method, which is a virtualization method for simulating an actual physical communication interface (including but not limited to serial ports, Ethernet, CAN, digital quantity, analog quantity, relays and 1553B) through computer graphics, and establishes a virtual simulation environment of an actual physical system in a dragging type operation mode through computer graphics, wherein the virtual communication interface supports graphical link protocol configuration, and is mainly used for providing a set of effective virtual simulation environment models before system simulation test, the set of models are used for simulating an actual simulation system, expressing the current system environment in a digital form, providing an important communication interface for later simulation test and providing reliable data support for theoretical verification. The method is widely applied to the military industry field needing a large number of simulation system simulation environments, such as ships, aerospace and the like.

Description

Graphical communication interface simulation modeling method

Technical Field

The invention relates to the field of graphical simulation modeling, in particular to combined graphical simulation modeling of multiple communication interfaces.

Technical Field

Before the actual physical communication interface equipment is used for system verification, a large amount of theoretical calculation is often needed, and if the actual physical communication interface equipment is directly used for system verification after calculation, the use cost is increased, and the theoretical result of calculation cannot be completely and effectively demonstrated. Particularly in the industries of military industry such as ships, aerospace and the like, a large number of unknown simulation environments need to be simulated, if the graphical communication interface is used for simulation modeling, effective virtual simulation modeling is carried out on various system environments, so that the cost is effectively reduced, full theoretical verification can be carried out, and reliable data support is provided for an actual communication system.

Disclosure of Invention

The invention mainly solves the technical problem that no virtual simulation environment is used for carrying out system simulation on theoretical calculation results in the actual simulation process.

In order to solve the problems, the invention adopts the technical scheme that: the method provides a virtualization method for simulating an actual physical communication interface (including but not limited to serial ports, Ethernet, CAN, digital quantity, analog quantity, relays and 1553B) through computer graphics, supports the combination of various communication interfaces and graphical modeling operation, and is characterized in that the graphical communication interface simulation modeling is as follows:

1. building a virtual simulation environment of an actual physical system through computer graphics;

2. various interface combination modeling is supported, including but not limited to: serial port, Ethernet, CAN, digital quantity, analog quantity, relay and 1553B;

3. the virtual communication interface supports graphical link protocol configuration;

4. the simulation environment supports a dragging type operation;

drawings

The invention is a simulation of the actual communication simulation environment, and the actual communication simulation environment often has the condition that the circuit is not clear enough or the field environment is more disordered. Under the condition that the communication interface is not clear enough, if the system verification work is carried out hastily, not only professional equipment support is needed, but also the communication interface in the system is connected with wires, connecting wires and other operations, and a large amount of time cost investment is often needed.

Fig. 1 is a diagram of a real simulation of graphical modeling, which abstracts the real physical environment in diagram one into a full digital model.

Fig. 2 is a diagram of an abstracted digital model, which is built based on the modeling method in a virtualization mode.

The graphical simulation modeling system is used for abstract simulation of an actual communication simulation environment, a communication interface used in the current simulation environment can be clearly known through simulation of the graphical simulation modeling system, the messy simulation environment is abstracted into a full-digital simulation platform, physical cost can be greatly reduced, and reliable data basis is provided for theoretical demonstration.

Detailed Description

The invention abstracts the actual simulation system into a virtual computer graphic model, and the specific implementation mode is as follows:

1. calculating the type and the number of the obtained communication interfaces theoretically;

2. deploying the communication interface into a graphical simulation environment in a dragging mode;

3. and editing the interface link protocol to be consistent with the theoretical value.

Claims (1)

1. A graphical communication interface simulation modeling method is a virtualization method for simulating an actual physical communication interface (including but not limited to serial port, Ethernet, CAN, digital quantity, analog quantity, relay and 1553B) through computer graphics, has the graphical simulation capability of a single communication interface in the current market, does not have the graphical modeling operation of combination of various communication interfaces, and is characterized in that:

(1) building a virtual simulation environment of an actual physical system through computer graphics;

(2) various interface combination modeling is supported, including but not limited to: serial port, Ethernet, CAN, digital quantity, analog quantity, relay and 1553B;

(3) the virtual communication interface supports graphical link protocol configuration;

(4) the simulation environment supports drag-and-drop operation.

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