Bds/B1 (1561.098MHz± 2.046MHz) Portable Drone GPS Navigation Spoof System

The main working principle of the drone navigation spoof system is based on deceiving the drone's internal positioning device and restricted and no-fly zone database, thereby allowing the drone to respond according to its own built-in program strategy.

The drone navigation spoof system emits simulated satellite navigation signals to conduct navigation and deception for drones that break into sensitive areas, thereby achieving defense and control of drones. The system mainly achieves control and takeover of the drone by injecting navigation deception signals into the drone, allowing the drone to quickly locate a safe area, allowing the drone to fly quickly, out of the operator's control, for deception or to set a no-fly areas to prevent drones from flying into sensitive areas and set up "no-fly zones" for drones.

When the drone compares the received global positioning signal with the no-fly zone data built into the program, if it determines that it is in the no-fly zone, the drone that has not taken off on the ground will refuse to take off, and the drone that is already in the air will refuse to take off. The man-machine will forcefully land automatically. If it is judged that it is in the restricted flight area, it will keep itself below the restricted flight altitude or move in a certain direction until it leaves the restricted flight area.

Satellite navigation deception(spoof) technology, as a new generation of anti-drone means, takes the guidance and control of drone satellite navigation systems as a breakthrough, and can achieve the goal of targeting multi-rotor or fixed-wing drones in various stages such as standby, take-off, cruising, and hovering within the defense range. Man-machine conducts omnidirectional or directional defensive attacks. It is suitable for tasks such as temporary low-altitude area protection, security defense of key areas, urban public security protection, and anti-terrorism and stability maintenance in sensitive areas.

Lightweight and portable: suitcase-style design, flexible deployment, and quick response to emergencies.
Simple operation: The control panel design is simple and intuitive, and can be mastered by personnel after a simple understanding.
Low environmental electromagnetic pollution: transmit signals at low power to avoid interference with dangerous facilities such as oil and gas fields.
Directional drive away: Continuously change the positioning signal to drive the drone away to a preset designated location.