Ozni AI builds space-based signal processing, constellation mission-management, and satellite task decomposition algorithms that turn commercial and national assets into a coordinated ISR layer. Our systems detect, geolocate, and track RF emitters in real time, enabling pattern-of-life intelligence and rapid decision support in denied or degraded environments.
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Ozni AI develops advanced signal processing and geolocation algorithms for high-altitude and tactical aircraft. Our software has flown aboard the U-2 at 70,000 feet and is being adapted for Collaborative Combat Aircraft, enabling real-time RF exploitation, threat mapping, and autonomous SIGINT analysis in contested airspace.
Ozni AI builds multi-INT terrestrial sensors and embedded signal-processing algorithms for covert operations, small-force protection, and counter-UAS missions. Our on-device analytics fuse RF, EO, acoustic, and radar cues to detect, geolocate, and prioritize threats in denied environments—delivering targeting-grade insight to the tactical edge.
Ozni AI develops an adaptive AI assistant and a suite of processing algorithms for automated spectrum analysis, emitter geolocation, and pattern-of-life discovery. Our tools continuously learn from multi-band RF environments to accelerate signal classification, threat detection, and mission-level decision support across the electromagnetic battlespace.
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