CN116773937A - Wireless detection system and wireless detection method for airborne weapon system - Google Patents

Abstract

An airborne weapon system wireless detection system and a wireless detection method thereof, wherein the airborne weapon system wireless detection system comprises a simulator and a portable terminal, and the simulator is provided with a signal interface which is in butt joint with an airborne weapon interface on an airborne weapon system; the simulator is provided with a wireless communication module, and a wireless communication interface is arranged on the portable terminal. The wireless detection method comprises the following steps: installing the simulator on a corresponding hanging point of the aircraft, and connecting the signal interface with an airborne weapon interface; a portable terminal is arranged near the airplane parking position, and the portable terminal is connected with a wireless communication module of the simulator through a wireless communication interface; the operation tester completes the issuing of the operation instruction on the visual operation interface of the portable terminal, the simulator executes after receiving the operation instruction and reports the corresponding signal to the portable terminal, and the simulator test state and the test progress information can be observed on the portable terminal; the testing process does not need to lay cables, and the preparation time before testing is greatly shortened.

Description

Wireless detection system and wireless detection method for airborne weapon system

Technical Field

The invention belongs to the field of weapon system detection systems, and particularly relates to a wireless detection system and a wireless detection method for an airborne weapon system.

Background

The airborne weapon system is also called as aviation weapon system, and is a comprehensive system of hardware and software comprising weapon and relevant device. When a combat mission exists, the fighter completes target searching, identifying tracking and aiming under the control of a weapon system, and the projection and guidance of ammunition are controlled. However, in conventional maintenance and ground detection, there is no way for the on-board weapon system to perform the tasks of true launch. Detection equipment is required to cooperate with the onboard weapon system to complete the operation of the entire process to ensure proper operation of the weapon system.

The existing airborne weapon system test system is shown in fig. 1, and the currently adopted airborne weapon system detection method mainly connects an airborne suspension object interface 01 on an airborne suspension object to a test industrial personal computer through a test cable to complete corresponding interface communication and test flow. The test industrial personal computer is powered by the vehicle-mounted power supply through the power supply cable 02 and is connected with the computer. The ground detection of the airborne weapon system in this way requires on-site operators to perform cable connection installation in the manner shown in fig. 1, and to carry a computer into the cabin during the test, and to operate related keys in the cabin to complete the test flow. As can be seen from fig. 1, taking an example of mounting a left/right hanger below a left wing and a right wing of an aircraft respectively, the mounting and docking of eight connectors in total is required to be completed before the whole test, the eight connector docking includes the connection of the connectors at two ends of each test cable with the corresponding connectors on the left/right hanger and the test industrial personal computer respectively, the connection of the connectors at two ends of the computer cable with the corresponding connectors on the test industrial personal computer and the computer respectively, and the connection of the two ends of the power supply cable 02 with the corresponding connectors on the test industrial personal computer and the vehicle-mounted power supply respectively. In addition, the field operator needs to drag the computer cable 03 into the aircraft cabin, the preparation time is long, and the use and the operation are inconvenient.

Disclosure of Invention

In order to solve the technical problems in the prior art, the invention provides the wireless detection system and the wireless detection method of the airborne weapon system, which can greatly shorten the preparation time before testing without installing a test cable and a computer cable.

The invention aims at solving the technical problems by adopting the following technical scheme. The invention provides a wireless detection system of an airborne weapon system, which comprises a simulator and a portable terminal, wherein the simulator is provided with a signal interface which is the same as an interface on an airborne weapon, and the signal interface is used for being in butt joint with the interface of the airborne weapon on the airborne weapon system so as to realize information interaction between the simulator and the airborne weapon system; the simulator is provided with a wireless communication module, and a wireless communication interface matched with the wireless communication module is arranged on the portable terminal so as to realize wireless communication connection between the simulator and the portable terminal.

Further, the simulator is installed near the weapon interface on the hanging beam below the left wing and the right wing of the airplane.

Further, the simulator comprises a signal interface, an interface processing module, a signal analysis module, a signal processing module and the wireless communication module which are sequentially connected.

Further, the portable terminal comprises the wireless communication interface, a terminal signal analysis module, a data extraction module and a display module which are sequentially connected.

Further, the wireless communication interface comprises an antenna receiving module, a radio frequency receiving link processing module, a radio frequency signal modulating and demodulating module, an analog and digital filtering module and a coding and decoding module which are sequentially connected.

Further, the signal interface includes signal types commonly used by the airborne weapon, and the signal types are not limited to including switching value signals, analog value signals, 1553B bus signals, radio frequency signals and control signals.

Further, the simulator is provided with at least two.

Further, the portable terminal is a portable computer.

A wireless detection method based on a wireless detection system of an airborne weapon system comprises the following steps:

installing a simulator on a corresponding hanging point of the aircraft, wherein a signal interface of the simulator is connected with an airborne weapon interface on an airborne weapon system;

a portable terminal is arranged near the airplane parking position and is connected with a wireless communication module of the simulator through a wireless communication interface, so that wireless communication connection between the portable terminal and the simulator is established;

the operation tester completes the issuing of the related operation instruction on the visual operation interface of the portable terminal, and the simulator executes the operation instruction after receiving the related operation instruction and reports the corresponding signal to the portable terminal, so that the operation tester observes the testing state and the testing process information of the related simulator on the portable terminal.

By means of the technical scheme, the invention has the beneficial effects that:

in the wireless detection system of the airborne weapon system, the whole system architecture adopts wireless transmission to carry out communication between the simulator and the portable terminal, and in the actual test process, no test cable is required to be laid, so that the preparation time before the test can be greatly shortened, and the test convenience is improved.

The foregoing description is only an overview of the present invention, and is intended to be implemented in accordance with the teachings of the present invention, as well as the preferred embodiments thereof, together with the following detailed description of the invention given in conjunction with the accompanying drawings.

Drawings

FIG. 1 is a schematic diagram of a ground test system of a prior art airborne weapon system.

Fig. 2 is a schematic diagram of an application of a wireless detection system of an airborne weapon system of the present invention.

FIG. 3 is a schematic diagram of the interface communication between the on-board weapon system and the simulator of the present invention.

Fig. 4 is a schematic diagram of the connection of the on-board weapon interface to the simulator.

Fig. 5 is a block diagram of the modular construction of the simulator of the present invention.

Fig. 6 is a block diagram showing a module composition of the portable terminal according to the present invention.

Reference numerals illustrate:

1-simulator

11-Signal interface

12-radio communication module

2-portable terminal

3-airborne weapon interface

Detailed Description

The technical scheme of the invention is further described in detail below with reference to the attached drawings and the preferred embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

As shown in fig. 1 to 6, a wireless detection system of an airborne weapon system includes a simulator 1 and a portable terminal 2; the simulator has the function of simulating a weapon, the simulator is provided with a signal interface 11 which is the same as a corresponding interface on the airborne weapon, and the signal interface of the simulator is used for being in butt joint with an airborne weapon interface 3 on an airborne weapon system so as to complete various signal and state interactions of the simulator and the airborne weapon system. The simulator is in wireless communication connection with the portable terminal so as to realize information interaction.

With reference to fig. 2, simulators are installed at weapon interfaces (hanging points) on hanging beams below left and right wings of the aircraft, namely, left and right hanging frames of the aircraft are used for installing simulators, and signal interfaces of the simulators are in butt joint with airborne weapon interfaces of airborne weapon systems at corresponding hanging frames. The signal interface of the simulator is connected with the airborne weapon interface of the airborne weapon system through the mutual fit of connectors, if the signal interface is a plug connector, the airborne weapon interface is an fit socket; when the signal interface is a socket, the airborne weapon interface is an adaptive plug. The signal interface of the simulator has two forms: the weapon interface and the hanger interface may thus perform weapon simulator functions or hanger simulator functions, respectively, in different test flows. The signal interface comprises signal types commonly used by the airborne weapon, such as a switching value signal, an analog value signal, a 1553B bus signal, a radio frequency signal, a control signal and other signals, and the like, and particularly as shown in fig. 3, interface processing and signal analysis and interaction of corresponding models are completed in the simulator.

Specifically, with reference to fig. 5, the simulator includes a signal interface 11 (i.e., weapon interface/pendant interface), an interface processing module, a signal parsing module, a signal processing module, and a wireless communication module 12, which are sequentially connected. The interface processing module can process the circuit of the electrical characteristics of the signal, such as level conversion, voltage division, reverse protection and the like; and then the signals are sent out through the wireless communication module after being analyzed and processed by the signal analysis module and the signal processing module.

As shown in fig. 6, the portable terminal includes a wireless communication interface, a terminal signal analysis module, a data extraction module and a display module, which are sequentially connected; the wireless communication interface is matched with the wireless communication module to realize the receiving and transmitting of wireless signals in space, and the wireless communication between the simulator and the portable terminal is realized. The wireless communication interface comprises an antenna receiving module, a radio frequency receiving link processing module, a radio frequency signal modulating and demodulating module, an analog and digital filtering module, a coding and decoding module and the like which are sequentially connected, and finally the wireless communication interface completely analyzes signals carried in electromagnetic waves. The terminal signal analysis module mainly completes the functions of data packet analysis, verification and the like of the Ethernet/serial port/SPI signals, the signals from the wireless communication interface are further sent to the data extraction module after data analysis is completed, the data extraction module packages relevant data information into corresponding data formats, the corresponding data formats are sent to the display module, and relevant display is carried out on control interface software. The signals can be transmitted in two directions between the modules in the simulator; signal commands can be transferred bi-directionally between the modules in the portable terminal. I.e. the whole process of signal processing is bi-directional interactive.

In this embodiment, the left hanger and the right hanger are used as examples for mounting one simulator respectively, but in other embodiments, the number of simulators is not limited, and simulators can be mounted at multiple hanging points on the aircraft at the same time, for example, 4/12/16 or more; the portable terminal starts the weapon system detection flow, the instruction is transmitted in a wireless mode, and the work of simulators at hanging points is completely independent and is not influenced mutually. The portable terminal may be a portable computer.

The wireless detection method based on the wireless detection system of the airborne weapon system comprises the following steps:

installing the simulator on a corresponding hanging point of the aircraft, and connecting a signal interface of the simulator with an airborne weapon interface on an airborne weapon system;

a portable terminal is arranged near the airplane parking position, the portable terminal comprises a wireless communication interface and a visual operation interface (display module), the portable terminal is connected with the wireless communication module of the simulator through the wireless communication interface, and thus wireless communication connection between the portable terminal and the simulator is established;

the operation tester completes the issuing of the related operation instruction on the visual operation interface, the simulator executes the related operation instruction after receiving the related operation instruction and reports the related operation instruction to the portable terminal, and the operation tester can observe the testing state and the testing process information of the related simulator on the portable terminal.

The foregoing is merely a preferred embodiment of the present invention, and is not described in detail in the prior art; any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present invention, without departing from the technical scope of the present invention, will still fall within the scope of the present invention.

Claims (9)

1. A wireless detection system for an airborne weapon system, characterized in that: the portable terminal comprises a simulator and a portable terminal, wherein the simulator is provided with a signal interface which is the same as an interface on an airborne weapon, and the signal interface is used for being in butt joint with the airborne weapon interface on an airborne weapon system so as to realize information interaction between the simulator and the airborne weapon system; the simulator is provided with a wireless communication module, and a wireless communication interface matched with the wireless communication module is arranged on the portable terminal so as to realize wireless communication connection between the simulator and the portable terminal.

2. An airborne weapon system wireless detection system according to claim 1, characterized in that: the simulator is arranged at a weapon interface on a hanging beam below a left wing and a right wing of the airplane.

3. An airborne weapon system wireless detection system according to claim 1, characterized in that: the simulator comprises a signal interface, an interface processing module, a signal analysis module, a signal processing module and the wireless communication module which are sequentially connected.

4. A wireless detection system for an airborne weapon system according to claim 3, characterized in that: the portable terminal comprises the wireless communication interface, a terminal signal analysis module, a data extraction module and a display module which are sequentially connected.

5. The wireless detection system for an airborne weapon system of claim 4, wherein: the wireless communication interface comprises an antenna receiving module, a radio frequency receiving link processing module, a radio frequency signal modulating and demodulating module, an analog and digital filtering module and a coding and decoding module which are sequentially connected.

6. An airborne weapon system wireless detection system according to claim 1, characterized in that: the signal interface comprises signal types commonly used by airborne weapons, and the signal types are not limited to switching value signals, analog value signals, 1553B bus signals, radio frequency signals and control signals.

7. An airborne weapon system wireless detection system according to claim 1, characterized in that: the simulator is provided with at least two.

8. An airborne weapon system wireless detection system according to claim 1, characterized in that: the portable terminal is a portable computer.

9. A wireless detection method of a wireless detection system of an airborne weapon system, comprising the steps of:

installing a simulator on a corresponding hanging point of the aircraft, wherein a signal interface of the simulator is connected with an airborne weapon interface on an airborne weapon system;

a portable terminal is arranged near the airplane parking position and is connected with a wireless communication module of the simulator through a wireless communication interface, so that wireless communication connection between the portable terminal and the simulator is established;

the operation tester completes the issuing of the related operation instruction on the visual operation interface of the portable terminal, and the simulator executes the operation instruction after receiving the related operation instruction and reports the corresponding signal to the portable terminal, so that the operation tester observes the testing state and the testing process information of the related simulator on the portable terminal.