Introduction
The Spoofing system is designed for counter-UAV applications across sectors such as oil and gas, electricity, public safety, law enforcement, and defense industries. It features a compact form factor, low weight, user-friendly operation, and stable performance, enabling fast deployment and seamless integration by operators.Leveraging satellite-navigation signal emulation technology, the system generates simulated orbital navigation signals and transmits them in a format that mirrors genuine satellite broadcasts. Once the drone receives these imitation signals, it relies on them for positioning and subsequently outputs the corresponding coordinates.The system supports multiple UAV deception strategies, including directional rerouting, area evacuation, forced landing, and induced crash maneuvers.
Product Features
l Supports receiving and emulating signals across the commonly used frequency bands of all four major global navigation satellite systems.
l Support external commands to control the combination and transmission of any navigation signal;
l Support external commands to set any position coordinates (longitude, latitude, altitude), and can also have built-in fixed coordinates;
l Support external command to set simulation parameters such as signal delay, motion speed, acceleration, etc;
l Support external command settings for preset trajectories such as linear motion and circular motion;
l Support external injection of motion trajectories, the device calculates and outputs corresponding navigation satellite signals based on input information;
l Support real-time ephemeris working mode and permanent ephemeris mode;
l Support setting preset coordinates for automatic power on transmission;
l Support satellite navigation signal suppression interference output;
l Provide secondary development control interfaces for serial ports and network;
l It can spoof the navigation signals used by UAVs that depend on satellite-based positioning, enabling effects such as forced landing, directional guidance, takeoff prevention, and Jamming with GNSS reception.
Technical Indicators
|
No
|
Satellite system
|
Frequency Band
|
Center frequency point (MHz)
|
Bandwidth (MHz)
|
Number of channels
|
|
1
|
BDS
|
B1L
|
1561.98
|
±2.046
|
twelve
|
|
2
|
GPS
|
L1 C/A
|
1575.42
|
±1.023
|
twelve
|
|
3
|
GPS
|
L2
|
1227.06
|
±1.023
|
twelve
|
|
4
|
GPS
|
L5
|
1176.45
|
±10.23
|
twelve
|
|
5
|
GLONASS
|
L1
|
1600.02
|
±12.375
|
twelve
|
|
6
|
GALILEO
|
E1
|
1575.42
|
±12.276
|
twelve
|
Application Cases
Drone spoofing systems are increasingly adopted across a wide range of sectors to secure sensitive areas from unauthorized UAV activity. By emitting controlled navigation or communication signals, these technologies can deceive, divert, or disable drones before they become a threat, making them an essential element of modern airspace protection.
In the oil and gas sector, spoofing equipment is used to shield refineries, pipelines, and offshore facilities, preventing drones from carrying out surveillance or disrupting operations. Power generation and utility infrastructures—such as substations and major plants—also integrate these systems to deter aerial observation and safeguard key assets. Within the realm of public security, police and law-enforcement departments deploy spoofing tools to protect major events, government installations, correctional facilities, and urban airspace, ensuring that suspicious UAVs cannot collect data or interfere with normal activities.
Defense and military organizations utilize spoofing solutions to neutralize hostile drones during border patrol, field exercises, and combat missions. By misleading adversarial UAVs, they reinforce troop safety and protect critical information. Furthermore, airports, logistics hubs, and large industrial sites adopt drone spoofing technologies to maintain operational stability and meet aviation safety standards.
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