AI-Powered Target Recognition & Ultra-Precision Tracking for C-UAS
ILADDS - Intelligent Laser Anti-Drone Defense System
Eliminate False Alarms with Intelligent Perception
Traditional radar suffers from high false alarm rates due to birds and ground clutter. ILADDS combines spectral signal input with a refined deep learning network—trained on millions of samples—to accurately distinguish drones, birds, and floating balloons. This fundamentally reduces manual confirmation workload and enhances battlefield trust.
Moving beyond conventional FPGA+DSP architectures, our GPU-based parallel processing framework integrates a custom deep Siamese network (OrientNet). This enables real-time intelligent tracking of UAVs against buildings, trees, and other challenging backgrounds, achieving tracking accuracy better than 15 microradians.
Key Tactical Advantages
Ultra-Low False Alarm Rate in Cluttered Battlefields
Combines radar with a wideband spectrum sensor (300 MHz – 6 GHz) and a deep-learning classifier trained on millions of samples. Achieves >90% recognition accuracy for drones, birds, and balloons, virtually eliminating manual verification and ensuring operator trust even in high-clutter scenarios.
Superior Tracking Precision Under Adverse Conditions
Employs a GPU-based parallel architecture and a custom deep Siamese network (OrientNet) to lock onto maneuvering targets against complex backgrounds (buildings, vegetation, terrain). Tracking accuracy better than 15 µrad enables stable engagement of agile UAVs.
Proven Lethality with Optimized Beam Delivery
Full-link simulation and optimization of the optical path guarantee maximum energy on target. Configurable 5 kW / 10 kW lasers engage threats at ≥1000 m / ≥1500 m, with neutralization times of 5-15 s and continuous beam capability >120 s. Demonstrated damage to both rotary- and fixed-wing drones, including critical component kill.
Battle-Proven Architecture
Replaces traditional FPGA+DSP latencies with a high-throughput GPU framework, reducing processing delays and enabling real-time servo-control for high-speed target engagement.
Force Multiplier Benefits
- Fully autonomous operation reduces manpower load and operator fatigue.
- Mobile platform allows rapid repositioning to support maneuvering forces.
- Open architecture enables integration with existing C4ISR and air defense networks.