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An integrated control method for an agile low-altitude denial system

A technology of system integration and control method, applied in the field of agile low-altitude denial system comprehensive control, can solve the problems of poor portability of the comprehensive control system, poor real-time handling of moving targets, and high professional requirements for operators, so as to improve the denial efficiency and effect. , Reduce the time of human participation, the effect of strong generality

Active Publication Date: 2022-02-18
AEROSPACE SCI & IND MICROELECTRONICS SYST INST CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] A large degree of human participation in judging target threats, the absence of a standard target rejection process leads to high professional requirements for operators, the entire process is cumbersome to operate, and the delay in operation leads to poor real-time handling of moving targets by the system. Poor portability in application scenarios and fast networking

Method used

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  • An integrated control method for an agile low-altitude denial system
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  • An integrated control method for an agile low-altitude denial system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0093] This embodiment provides an integrated control method for an agile low-altitude rejection system, including:

[0094] Set the IP for each device, and exchange information with the service background running software of each device through the communication service module, so as to facilitate the expansion of device access and network communication;

[0095] Each device shares the position and angle information of the positioning and orientation equipment in real time, and completes the fixed or vehicle-mounted fixed-point deployment low-altitude rejection task through one-time calculation cooperation, and completes the accompanying low-altitude rejection task through real-time settlement cooperation;

[0096] For ordinary users, use the information fusion algorithm to realize the fusion and visual display of multiple or multiple types of information, and implement the agility disposal of the low-altitude denial system through automated processes and recommended disposal ...

Embodiment 2

[0122] This embodiment is on the basis of embodiment 1:

[0123] In this embodiment, an automated process is formulated according to different usage scenarios and user requirements, as shown in the following table.

[0124] Table 1 Automation process design

[0125]

[0126]

[0127] Specifically, when the application scenario is a micro-power use area, the transmission power is within 10mw (internal industry standard), such as oil fields, oil depots, refineries and other petroleum and petrochemical industries, completely prohibiting the use of radar and suppressing interference. Therefore, spectrum electric detection, photoelectric and deception jamming equipment are selected to work together to achieve the target's drive away and forced landing, such as figure 2 As shown, the corresponding workflow is:

[0128] a. When the spectrum equipment detects a suspected target, guide the photoelectric equipment to track the target, and judge whether the target is a legal tar...

Embodiment 3

[0133] This embodiment is on the basis of embodiment 2:

[0134] When the application scenario is in the forbidden area of ​​the navigation frequency band, such as the airport area, it is forbidden to use spoofing to interfere and suppress the 1.5G frequency band. Therefore, spectrum detection, radar detection, photoelectric and interference suppression (not suppressing 1.5G frequency band) equipment are selected to work together to achieve the target's return processing, such as image 3 As shown, the corresponding workflow is:

[0135] a. When the spectrum equipment detects a suspected target, guide the radar to search for the target, or directly use the radar to detect and search for the target, and can continue to use the radar detection target information to guide the photoelectric equipment to track the target. Through the target spectrum data, radar detection data and photoelectric images, Determine whether the target is a legitimate target;

[0136] b. If it is judge...

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Abstract

The invention relates to the field of low-altitude rejection. The invention discloses a comprehensive control method for an agile low-altitude rejection system, which includes: setting IP for each device, and performing information interaction with the service background running software of each device through a communication service module; The equipment shares the position and angle information of the positioning and orientation equipment in real time, completes the low-altitude rejection task of fixed or vehicle-mounted fixed-point deployment through one-time solution cooperation, and completes the accompanying low-altitude rejection task through real-time settlement cooperation; for ordinary users, use information fusion algorithm to realize multiple The fusion and visual display of one or more types of information, and the agility of the low-altitude rejection system can be carried out through the automated process and recommended disposal methods; for professional operation users, it can independently control the work of each equipment and carry out targeted disposal. The present invention can meet different application scenarios, different users' processing requirements for different targets, and the system's own processing capabilities, and is applicable to multiple scenarios of military and civilian use and different equipment deployment methods.

Description

technical field [0001] The invention relates to the technical field of low-altitude rejection, in particular to an integrated control method for an agile low-altitude rejection system. Background technique [0002] In the field of low-altitude security defense, the control system of the existing low-altitude denial system is mostly independently designed by each subsystem, and finally the integrated control system formulates a communication protocol for data and information interaction. The time delay leads to poor disposal effect, and the comprehensive control is equipped with different sensors and disposal equipment according to the application scenarios of different projects, which needs to be customized and developed. [0003] At present, the existing integrated control system can achieve independent control of each sensor by formulating a unified protocol. The target information and status information of multi-sensor equipment can also be transmitted to the integrated c...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05B19/418
CPCG05B19/4183G05B19/4185G05B2219/2637Y02P90/02
Inventor 武春风吴波吴斌白明顺秦建飞高洋朱键华
Owner AEROSPACE SCI & IND MICROELECTRONICS SYST INST CO LTD