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filler@godaddy.com
Modern battlefields are saturated with low-power RF emissions, mobile communication systems, and autonomous drones operating across the electromagnetic spectrum. Conventional ground sensors suffer from terrain masking, limited line-of-sight, and fragmented situational awareness, making it difficult to detect, identify, and precisely locate hostile emitters.
CYBERHOUND™ is a persistent tethered aerial surveillance platform that combines optical and electronic spectrum intelligence into a single elevated sensor node. By continuously monitoring both the visual and RF domains, multiple CYBERHOUND™ platforms collaborate to triangulate enemy emitters, providing precise geolocation and persistent intelligence over large operational areas.
CYBERHOUND™ transforms dispersed sensor data into actionable intelligence, delivering continuous air and electromagnetic situational awareness. It enables earlier threat detection, accurate emitter geolocation, faster targeting decisions, and enhanced survivability for friendly forces.
Combines high-resolution EO/IR imaging with wideband RF sensing to continuously monitor both the visual and electromagnetic battlespace.
Multiple CYBERHOUND™ nodes collaborate to triangulate, geolocate, and track hostile RF emitters with high precision over extended operational areas.
Fuses optical and RF data to automatically detect, classify, prioritize, and track threats, delivering a unified intelligence picture with minimal operator workload.
Deploy as a standalone aerial surveillance node or network multiple CYBERHOUND™ platforms to establish persistent, theatre-wide optical and electronic spectrum coverage with collaborative sensing.
Built on an open architecture, CYBERHOUND™ integrates seamlessly with Command & Control (C2), Electronic Warfare, Air Defence, ISR, and Battlefield Management Systems through standard defence interfaces.
Its modular, software-defined architecture supports rapid integration of new EO/IR sensors, RF receivers, AI algorithms, and mission applications, ensuring the platform remains effective against evolving threats and future operational requirements.