CN115483985B - System and method for realizing wireless communication link between two-stage command control systems in simulation mode - Google Patents

Abstract

The present invention discloses a system and method for simulating a wireless communication link between two-level command and control systems. The system includes: an upper-level simulation trainer, including a network switch and a plurality of upper-level communication equipment simulation trainers; a lower-level simulation trainer, including a network switch and a plurality of lower-level communication equipment simulation trainers; a monitoring station, including a network switch, used to build a network communication channel between the monitoring station and the command vehicle simulation trainer and the lower-level simulation trainer; a channel configuration and management module, used to configure an IP address for the upper-level simulation trainer and an IP address for the lower-level simulation trainer, monitor the status of the upper-level simulation trainer and the lower-level simulation trainer, and match the parameters of the upper-level simulation trainer and the lower-level simulation trainer, so as to simulate the establishment of a wireless communication link between the upper-level simulation trainer and the lower-level simulation trainer. The present invention solves the problem of high cost of building a wireless communication link between two-level command and control using real communication equipment.

Description

System and method for realizing wireless communication link between two-stage command control systems in simulation mode

Technical Field

The present invention relates to a system and method for implementing a wireless communication link between two levels of command systems in a simulation manner, and more particularly, to a general system and method for implementing a wireless communication link between two levels of command in a simulation manner at a low cost.

Background

The existing situation of the method for realizing the wireless communication link between two stages of command control systems is generally based on the establishment of an ultra-short wave radio station and a communication controller, and the method for establishing the wireless communication link by using the installed communication equipment has high cost and cannot meet the design requirement of low cost when the simulation training system is designed.

Disclosure of Invention

It is an object of the present invention to provide a system for analog implementation of a wireless communication link between two levels of finger control systems, the system comprising:

The upper-level simulation trainer comprises a network switch and a plurality of upper-level communication equipment simulation trainers;

The lower-level simulation trainer comprises a network switch and a plurality of lower-level communication equipment simulation trainers; and

A monitor stand, the monitor stand comprising

The network switch is used for building a network communication channel between the monitoring station and the upper-level simulation trainer and between the monitoring station and the lower-level simulation trainer;

And the channel configuration and management module is used for configuring the IP address for the upper simulation trainer and the IP address for the lower simulation trainer, monitoring the states of the upper simulation trainer and the lower simulation trainer and matching the parameters of the upper simulation trainer and the lower simulation trainer so as to simulate and establish a wireless communication link between the upper simulation trainer and the lower simulation trainer.

Preferably, the plurality of upper communication equipment simulation trainers comprise an upper communication network control equipment simulation trainer and an upper ultrashort wave radio simulation trainer, and configuring the IP address for the upper simulation trainer comprises configuring the IP address for the upper communication network control equipment simulation trainer and configuring the IP address for the upper ultrashort wave radio simulation trainer respectively;

the plurality of lower-level communication equipment simulation trainers comprise a lower-level communication network control equipment simulation trainer and a lower-level ultrashort wave radio station simulation trainer, and configuring the IP address for the lower-level simulation trainer comprises configuring the IP address for the lower-level communication network control equipment simulation trainer and configuring the IP address for the lower-level ultrashort wave radio station simulation trainer respectively.

Preferably, each upper-level communication device simulation trainer comprises a channel port, a management port and a service port, and the configuring of the IP address for the upper-level simulation trainer further comprises configuring the IP address for the channel port, the management port and the service port respectively;

Each subordinate communication equipment simulation trainer comprises a communication port, a management port and a service port, and configuring the IP address for the subordinate simulation trainer further comprises configuring the IP address for the communication port, the management port and the service port respectively.

Preferably, the matching of the parameters of the upper-level simulation trainer and the lower-level simulation trainer further includes matching of radio channel parameters of each network control equipment simulation trainer, matching of radio working modes, frequencies, waveform types, information keys, network numbers, table numbers and channel numbers of each ultrashort wave radio simulation trainer, the upper-level ultrashort wave radio simulation trainer is the master, and the lower-level ultrashort wave radio simulation trainer is the slave.

Preferably, the matching wireless channel parameters further include matching panel manipulation information to simulate establishing a wireless communication link between the superior simulation trainer and the inferior simulation trainer for display at the panel interface.

Preferably, the system further comprises a training management module, which is used for reading the communication link state information of the channel configuration and management module and informing the superior simulation trainer and the inferior simulation trainer that the matching is completed, wherein the superior simulation trainer and the inferior simulation trainer display each other to establish a connection state, and mutually send interaction information through a network channel.

Preferably, the monitoring station is respectively connected with the upper-level simulation trainer and the lower-level simulation trainer through a special Ethernet interface.

Preferably, the ultra-short wave radio station simulation trainer in the upper simulation trainer is interconnected with the communication network control equipment simulation trainer through a special Ethernet interface; the ultra-short wave radio station simulation trainer in the subordinate simulation trainer is interconnected with the communication network control equipment simulation trainer through a special Ethernet interface.

Preferably, the communication network control device simulation trainer in the lower simulation trainer is a miniaturized communication network control device simulation controller.

A second aspect of the present invention provides a method for emulating an inter-two level finger control system wireless communication link, the method comprising the steps of:

building a monitoring station, running a channel configuration and management module and a training management module;

Respectively configuring IP addresses for an upper-level simulation trainer and a lower-level simulation trainer;

respectively reading parameter information of an upper-stage simulation trainer and a lower-stage simulation trainer and matching the parameters;

and informing the superior simulation trainer and the subordinate simulation trainers that the matching is completed, and completing the simulation to establish a wireless communication link between the superior simulation trainers and the subordinate simulation trainers.

The beneficial effects of the invention are as follows:

The technical scheme of the invention provides a universal system and a method for realizing the wireless communication link between two stages of finger control systems in a simulation manner, and the universal system and the method have the advantages of saving resources and reducing training cost.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 illustrates a linking scheme for a wireless communication link between two stages of finger control implemented in a simulation manner provided by an embodiment of the present invention;

Detailed Description

In order to make the technical scheme and advantages of the present invention more apparent, embodiments of the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, one embodiment of the present invention provides a system for simulating a wireless communication link between two levels of finger control systems, the system comprising:

The upper-level simulation trainer comprises a network switch and a plurality of upper-level communication equipment simulation trainers;

The lower-level simulation trainer comprises a network switch and a plurality of lower-level communication equipment simulation trainers; and

A monitor stand, the monitor stand comprising

The network switch is used for building a network communication channel between the monitoring station and the upper-level simulation trainer and between the monitoring station and the lower-level simulation trainer;

And the channel configuration and management module is used for configuring the IP address for the upper simulation trainer and the IP address for the lower simulation trainer, monitoring the states of the upper simulation trainer and the lower simulation trainer and matching the parameters of the upper simulation trainer and the lower simulation trainer so as to simulate and establish a wireless communication link between the upper simulation trainer and the lower simulation trainer.

The technical scheme of the invention can simulate and realize the wireless communication link between two stages of command control, and has the advantages of saving resources and reducing training cost.

In some optional implementations of this embodiment, the plurality of superior communication device simulation trainers includes a superior communication network control device simulation trainer and a superior ultrashort wave radio simulation trainer, and configuring the IP address for the superior simulation trainer includes configuring the IP address for the superior communication network control device simulation trainer and configuring the IP address for the superior ultrashort wave radio simulation trainer, respectively;

the plurality of lower-level communication equipment simulation trainers comprise a lower-level communication network control equipment simulation trainer and a lower-level ultrashort wave radio station simulation trainer, and configuring the IP address for the lower-level simulation trainer comprises configuring the IP address for the lower-level communication network control equipment simulation trainer and configuring the IP address for the lower-level ultrashort wave radio station simulation trainer respectively.

In some optional implementations of this embodiment, each of the superior communication device simulation trainers includes a channel port, a management port, and a service port, and configuring the IP address for the superior simulation trainers further includes configuring the IP address for the channel port, the management port, and the service port, respectively;

Each subordinate communication equipment simulation trainer comprises a communication port, a management port and a service port, and configuring the IP address for the subordinate simulation trainer further comprises configuring the IP address for the communication port, the management port and the service port respectively.

In some optional implementations of this embodiment, the matching parameters of the superior analog trainer and the subordinate analog trainer further includes matching parameters of wireless channels of the network control device analog trainers, matching radio working modes, frequencies, waveform types, information keys, network numbers, table numbers, and channel numbers of the ultrashort wave radio analog trainers, where the superior ultrashort wave radio analog trainer is a master, and the subordinate ultrashort wave radio analog trainer is a slave.

In some optional implementations of this embodiment, the matching wireless channel parameters further include matching panel manipulation information to simulate establishing a wireless communication link between the superior simulation trainer and the inferior simulation trainer for display at the panel interface.

In some optional implementations of this embodiment, the system further includes a training management module configured to read the communication link status information of the channel configuration and management module and inform the superior analog trainer and the inferior analog trainer that matching is completed, and the superior analog trainer and the inferior analog trainer display each other as a connection establishment status, and send interaction information to each other through the network channel.

In some alternative implementations of this embodiment, the monitoring station is interconnected with the superior analog trainer and the inferior analog trainer, respectively, via a dedicated ethernet interface.

In some optional implementations of this embodiment, the ultrashort wave radio station simulation trainer in the superior simulation trainer is interconnected with the communication network control device simulation trainer through a dedicated ethernet interface; the ultra-short wave radio station simulation trainer in the subordinate simulation trainer is interconnected with the communication network control equipment simulation trainer through a special Ethernet interface.

In some alternative implementations of the present embodiment, the communication network control device simulation trainer in the subordinate simulation trainer is a miniaturized communication network control device simulation controller.

In a specific example, the monitoring station serves as a channel configuration and management module and a training management module operation platform; meanwhile, a network switch is internally configured for constructing a network communication channel between the monitoring station and the upper-level simulation trainer as well as between the monitoring station and the lower-level simulation trainer.

In a specific example, the upper-level simulation trainer can simulate and complete the upper-level combat function, and can simulate the man-machine operation interface of the upper-level display console and the operation console.

In a specific example, the lower-level simulation trainer can simulate and complete the lower-level combat function, and can simulate the man-machine operation interface of a lower-level display console and an operation console.

In a specific example, the superior simulation trainer includes an ultrashort wave radio simulation trainer, a communication network control device simulation trainer, a network switch, and a computer.

In one specific example, the subordinate simulation trainer includes an ultrashort wave radio simulation trainer, a miniaturized communication network control device simulation trainer, a network switch, and a computer.

In a specific example, the channel configuration and management module mainly completes registration of the communication network control device simulation trainer, the ultrashort wave radio station simulation trainer and the miniaturized communication network control device simulation trainer, performs IP address configuration of the communication network control device simulation trainer, the ultrashort wave radio station simulation trainer and the miniaturized communication network control device simulation trainer, monitors and matches states and parameters of the communication network control device simulation trainer, the ultrashort wave radio station simulation trainer and the miniaturized communication network control device simulation trainer, performs networking control of a wireless communication link, and performs functions of setting communication quality grades.

In a specific example, the main function of the ultrashort wave radio station simulation trainer is to simulate receiving wireless communication information, interconnect with the communication network control equipment simulation trainer, and send the received wireless communication information to the communication network control equipment simulation trainer/the miniaturized communication network control equipment simulation trainer for protocol conversion and information exchange.

In a specific example, one of the functions of the communication network control device simulation trainer is to perform protocol conversion and information exchange on communication information. The communication network control equipment simulation trainer is used as a main equipment of an unmanned aerial vehicle lift-off relay communication system of a command system access combined tactical communication system, has the functions of integrating a routing function, a switching function and a transmission control function, supports voice and data comprehensive services, and realizes the functions of circuit switching, data packet switching, network control, equipment management and voice terminal access. The communication network control equipment simulation trainer processes the information sent from the ultrashort wave radio simulation trainer and then sends the data information to the channel configuration and management module.

Another embodiment of the present invention provides a method for analog implementation of a wireless communication link between two levels of finger control systems, the method comprising the steps of:

building a monitoring station, running a channel configuration and management module and a training management module;

Respectively configuring IP addresses for an upper-level simulation trainer and a lower-level simulation trainer;

respectively reading parameter information of an upper-stage simulation trainer and a lower-stage simulation trainer and matching the parameters;

and informing the superior simulation trainer and the subordinate simulation trainers that the matching is completed, and completing the simulation to establish a wireless communication link between the superior simulation trainers and the subordinate simulation trainers.

In a specific example, after the communication device simulation trainers are started, the channel configuration and management module configures the IP address of the channel port, the management port and the service port of each communication device simulation trainer, and then reads the parameter information of the communication device simulation trainers.

In a specific example, the channel configuration and management module matches wireless channel parameters of the communication network control device simulation trainer and the ultrashort wave radio station simulation trainer, and further includes matching panel control information; and the parameters of the wireless channels of the miniaturized communication network control equipment simulation trainer and the ultra-short wave radio station simulation trainer are matched, and the control information of the matching panel is further included, so that the wireless communication link between the upper simulation trainer and the lower simulation trainer is simulated and established to be displayed on a software interface.

In a specific example, the parameter matching further includes matching the working mode, frequency, waveform type, information key, network number, table number, channel number, etc. of the radio station, where the master belongs to one master and one slave, the upper-level ultrashort wave radio station simulation trainer is the master, and the lower-level ultrashort wave radio station simulation trainer is the slave.

In a specific example, the training management module reads the state information of the wireless communication link of the channel configuration and management module, and sends the result to the upper simulation trainer and the lower simulation trainer to inform the upper simulation trainer and the lower simulation trainer, and the upper simulation trainer and the lower simulation trainer display that the other side is in a connection state, and mutually send interaction information through the network channel.

In a specific example, the monitoring station is interconnected with the superior simulation trainer through a special Ethernet interface, and information such as registration, IP address configuration, state and parameter monitoring, parameter matching, communication quality grade setting and the like of the ultra-short wave radio station simulation trainer and the communication network control equipment simulation trainer are transmitted; the monitoring station is interconnected with the subordinate simulation trainer through a special Ethernet interface, and transmits information such as registration, IP address configuration, state and parameter monitoring, parameter matching, communication quality grade setting and the like of the ultrashort wave radio station simulation trainer; the ultra-short wave radio station simulation trainer is interconnected with the communication network control equipment simulation trainer through a special Ethernet interface, and the ultra-short wave radio station simulation trainer simulates and receives wireless communication information and sends the wireless communication information to the communication network control equipment simulation trainer after receiving the wireless communication information to carry out protocol conversion and information exchange; the ultra-short wave radio simulation trainer is interconnected with the miniaturized communication network control equipment simulation trainer through a special Ethernet interface, and the ultra-short wave radio simulation receives wireless communication information and sends the wireless communication information to the miniaturized communication network control equipment simulation trainer after receiving the wireless communication information to carry out protocol conversion and information exchange.

Of course, those skilled in the art will appreciate that the interconnections described in this embodiment are not limited to mechanical connections, but include signal transmission.

The method may also be embodied in a computer readable storage medium having stored thereon a computer program for performing the communication functions, the program when executed by a processor, performing the steps of the method as described above.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks. These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

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 (9)

1. A system for simulating and implementing a wireless communication link between two-level command and control systems, characterized in that the system comprises: An upper-level simulation trainer, including a network switch and a plurality of upper-level communication equipment simulation trainers; A lower-level simulation trainer, including a network switch and a plurality of lower-level communication equipment simulation trainers; and A monitoring station, the monitoring station comprising Network switch, used to build network communication channels between the monitoring station and the upper-level simulation trainer and the lower-level simulation trainer; A channel configuration and management module, used to configure an IP address for the upper-level simulation trainer and an IP address for the lower-level simulation trainer, monitor the status of the upper-level simulation trainer and the lower-level simulation trainer, and match the parameters of the upper-level simulation trainer and the lower-level simulation trainer, thereby simulating the establishment of a wireless communication link between the upper-level simulation trainer and the lower-level simulation trainer; The plurality of superior communication equipment simulation trainers include superior communication network control equipment simulation trainer and superior ultra-short wave radio station simulation trainer, and the configuration of IP addresses for the superior simulation trainers includes respectively configuring IP addresses for the superior communication network control equipment simulation trainer and configuring IP addresses for the superior ultra-short wave radio station simulation trainer; The multiple lower-level communication equipment simulation trainers include a lower-level communication network control equipment simulation trainer and a lower-level ultra-short wave radio station simulation trainer, and the configuration of IP addresses for the lower-level simulation trainers includes respectively configuring IP addresses for the lower-level communication network control equipment simulation trainer and configuring IP addresses for the lower-level ultra-short wave radio station simulation trainer. 2. The system according to claim 1, characterized in that each upper-level communication equipment simulation trainer includes a channel port, a management port and a service port, and the configuring the IP address of the upper-level simulation trainer further includes configuring the IP addresses of the channel port, the management port and the service port respectively; Each lower-level communication equipment simulation trainer includes a channel port, a management port and a service port. The configuration of the IP address for the lower-level simulation trainer further includes configuring the IP addresses for the channel port, the management port and the service port respectively. 3. The system according to claim 1 is characterized in that the parameters of matching the upper-level simulation trainer and the lower-level simulation trainer further include matching the wireless channel parameters of each network control device simulation trainer, matching the radio working mode, frequency, waveform type, information key, network number, table number, and channel number of each ultra-short wave radio simulation trainer to be consistent, the upper-level ultra-short wave radio simulation trainer is the master, and the lower-level ultra-short wave radio simulation trainer is the slave. 4. The system according to claim 3 is characterized in that the matching of the wireless channel parameters of each network control device simulation trainer further includes matching panel control information so as to simulate the establishment of a wireless communication link between the upper-level simulation trainer and the lower-level simulation trainer and display it on the panel interface. 5. The system according to claim 3 is characterized in that the system further includes a training management module, which is used to read the communication link status information of the channel configuration and management module and inform the upper-level simulation trainer and the lower-level simulation trainer that the matching is completed, and the upper-level simulation trainer and the lower-level simulation trainer display each other as being in a connection establishment state and send interactive information to each other through the network channel. 6. The system according to claim 1 is characterized in that the monitoring station is interconnected with the upper-level simulation trainer and the lower-level simulation trainer respectively through a dedicated Ethernet interface. 7. The system according to claim 1 is characterized in that the ultra-short wave radio simulation trainer and the communication network control equipment simulation trainer in the upper-level simulation trainer are interconnected through a dedicated Ethernet interface; the ultra-short wave radio simulation trainer and the communication network control equipment simulation trainer in the lower-level simulation trainer are interconnected through a dedicated Ethernet interface. 8. The system according to claim 1 is characterized in that the communication network control equipment simulation trainer in the lower-level simulation trainer is a miniaturized communication network control equipment simulation controller. 9. A method for simulating a wireless communication link between two-level command and control systems according to the system of claim 1, characterized in that the method comprises the following steps: Set up a monitoring station, run the channel configuration and management module and the training management module; Configure IP addresses for the upper-level simulation trainer and the lower-level simulation trainer respectively; Respectively read parameter information of the upper-level simulation trainer and the lower-level simulation trainer and match the parameters; Inform the superior simulation trainer and the subordinate simulation trainer that the matching is completed, and complete the simulation to establish a wireless communication link between the superior simulation trainer and the subordinate simulation trainer.