The anti-drone automatic defense system is a comprehensive defense system that integrates spectrum detection, radar detection, precision optoelectronic tracking, radio suppression interference, and comprehensive control platform. The system realizes all-round and all-weather monitoring and defense of low-altitude drones by comprehensively using advanced technologies such as multi-spectrum detection technology, heterogeneous system interconnection, multi-source data fusion, and intelligent analysis and decision-making. The system has the ability of early detection, fast locking, stable tracking, accurate identification, and strong countermeasures, which can effectively ensure the low-altitude safety of key locations and is widely used in fields such as public security, armed police, military, government, and unit factories.
The anti-drone automatic defense system aims to solve the increasingly severe problem of low-altitude drone threats. By building an efficient and intelligent defense system, it can effectively monitor and strike low-altitude drones. The specific goals include:
improving the detection and recognition capabilities of drone targets to ensure early detection of drone targets; enhancing the tracking and locking capabilities of drone targets to achieve stable tracking of targets; improving the intelligence level of the defense system, automatically analyzing drone behavior and making rapid responses; strengthening countermeasures, cutting off drone signals through radio interference and other means, forcing them to make an emergency landing or return. The ultimate goal is to form a reliable and efficient anti-drone automatic defense system to ensure the low-altitude safety of key locations.
The system uses spectrum detection equipment to detect and recognize the remote control signals and data transmission signals of the UAV, quickly discovering the drone target and determining its type. The radar detection system accurately locates and tracks the drone, combined with the high definition image recognition ability of the optoelectronic tracking system, to achieve secondary confirmation and accurate recognition of the target.
The system has all-weather, all-hour, and all-round monitoring capabilities, and is not affected by severe weather such as lightning and haze, achieving continuous monitoring of low-altitude drones. Through advanced anti-interference technology and Self-Adaptation algorithm, it ensures stable operation in various complex environments.
Built-in intelligent analysis module analyzes the behavior of monitored drone targets, such as flight trajectory prediction and abnormal behavior detection. Based on the analysis results, corresponding defense measures are automatically triggered, such as guiding photoelectric tracking, initiating radio interference, etc., to achieve intelligent defense.
Using broadband interference suppression method, continuous pulse interference signals are emitted to block the navigation, flight control, data transmission, image transmission and other signals of the drone. By inducing the drone flight control system to make erroneous decisions, effective interference and expulsion of the drone are achieved.
The RGS1000 low-altitude target prevention and control identification system platform serves as the core control unit of the system, integrating functions such as Facility Management, situational display and control, alarm linkage, and data fusion. It supports multi-source data fusion processing, providing intuitive target situational display and decision support.
The system supports unmanned mode, which can automatically track, identify, and dispose of monitored drone targets. According to preset conditions, it automatically activates interference devices to strike targets, reducing manual operation burden and improving defense efficiency.
The system adopts Modularization design, and each subsystem can run independently or work together. It supports equipment access of different models and manufacturers, making it convenient for users to flexibly configure and expand according to actual needs.
The system design fully considers safety and environmental requirements. The radio interference equipment only starts working after detecting the drone target, and adopts a low transmission power design with little impact on the electromagnetic environment. At the same time, the system has a complete self-check and fault diagnosis function to ensure long-term stable operation.
