GPSDeception Defense Against Drones
The JDY-2000 fixed detection, attack, and decoy drone defense system is a professional-grade anti-drone solution developed to counter the next generation of drone threats. With the increasing intelligence, swarming, and remote capabilities of commercial and sensitive drones, traditional radio frequency jamming methods are no longer effective against advanced drones with anti-jamming, precise navigation, and pre-set return-to-home functions. The JDY-2000 incorporates an advanced GPS spoofing module that can simulate satellite navigation signals to "trace-twist" and "take over navigation control" of incoming drones, forcing them to deviate from their flight paths, return to home, or land, thus preventing targets from entering controlled areas at the source. Compared to traditional jamming countermeasures, this system has significant advantages in stealth, controllability, and success rate, achieving "non-destructive interception" and is suitable for high-level scenarios where absolute security of sensitive areas must be ensured without affecting the surrounding radio environment.
Product Parameter Table
| Product parameters |
Specifications |
|
| Operating Mode |
Fixed all-weather UAV defense platform |
|
| Detection Range |
1-3 km (expandable depending on terrain and configuration) |
|
| Decoy Distance |
1-3 km |
|
| Decoy Signal System |
GPS/BDS/GLONASS/Galileo |
|
| Countermeasure Mode |
Detection, jamming, decoy takeover, automatic lock-on |
|
| Response Time |
Millisecond-level rapid linkage |
|
| Coverage Angle |
360° all-around protection |
|
| Control Method |
Local control/remote command platform |
| Product Dimensions |
450*450*850 mm |
| Product Weight |
15 kg |
| Environmental Adaptability |
-40ºC to +70ºC, rain and snow, dustproof, lightning protection design |
The JDY-2000 system is widely applicable to critical scenarios such as special bases, nuclear facilities, government agencies, airports, border lines, prisons, and security deployments for major events. The system can accurately identify and target drones involved in cross-border reconnaissance, illegal logistics, and cross-border smuggling, as well as flight platforms with AI-driven autonomous control capabilities. Through intelligent data fusion and target classification algorithms, the system can simultaneously identify multiple drones and automatically determine their behavioral characteristics, such as hovering reconnaissance, path navigation, or approaching fixed targets, thereby dynamically assessing the risk level and taking corresponding countermeasures. The JDY-2000 supports networking with national strategic control platforms, enabling joint defense against drone intrusions from regional to border levels, serving as a crucial defensive force to ensure the inviolability of sovereign space and sensitive areas.
Fixed Drone Defense Wall, Multi-Band Comprehensive Blocking Protection
The JDY-2000 employs a multi-band drone jamming and decoy fusion system, effectively blocking the wireless link between the drone and its operator, including image transmission signals, remote control signals, and positioning and navigation signals. The system constructs an "electronic fence-like defense wall" with wide-area coverage and continuous operation capabilities, achieving automatic inspection, automatic response, and automatic handling without manual intervention. Independent phased array directional antennas can accurately track intruding drones, effectively locking onto and continuously suppressing them regardless of whether they fly in fixed-wing, rotary-wing, or stealth mode. This defensive barrier not only prevents drones from approaching the controlled area but also reports crucial information such as the threat source's direction, flight speed, and flight path in real time, providing a complete intelligence link for the security system.
Simulating Satellite Signals to Block Drone Reconnaissance, Achieving Non-Destructive Takeover
The core highlight of the JDY-2000 is its use of satellite signal simulation technology. This allows the system not only to prevent drones from approaching but also to alter their flight behavior, fundamentally weakening their reconnaissance capabilities. By simulating legitimate navigation signal systems, it can precisely control the drone's positional awareness, causing it to lose its true positioning ability and mistakenly believe it is in other airspace, ultimately triggering return-to-home, landing, or failover protection procedures. Compared to traditional electromagnetic suppression methods, this strategy does not cause radiation pollution, does not interfere with civilian communications, and does not damage the drone's structure, making it ideal for security scenarios requiring "evidence preservation," "reconnaissance and countermeasures," or "non-destructive targeting of equipment."
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