Discover Cambridge Sensoriis
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Cambridge Sensoriis develops micro-radars specifically for deployment on UAVs to enable performance in adverse weather and GNSS-denied scenarios, and the information below will provide further details on our products.
Precision Landing
Accurate localisation and resilient landing capabilities are vital to Uncrewed Aerial Vehicles (UAVs) successfully completing their missions and ultimately securing Beyond Visual Line of Sight (BVLOS) operational certification.
A resilient landing solution for precision landing on a static or moving pad or vehicle – including vessels at sea.
ARCTM operates in adverse weather and GNSS-denied environments for automated precision landing.
Positional Tethering
“UAV loiter” is an operational mode where a UAV navigates to and maintains a fixed position and altitude above a designated target point. It is especially valuable for intelligence, surveillance, and reconnaissance (ISR) missions, or search and rescue operations where speed and precision are crucial.
ARCTM enables radar-based tethering above both stationary and moving target positions.
Safe Landing Zone Validation
The landing and take-off phases for helicopters and drones are both challenging and risky, as determining a safe landing zone has historically relied on visual processes (human, camera sensors, LiDAR). These require clear visibility, calm weather, and line of sight.
Radar is far more versatile. The challenge to date has been designing them in a low SWaP form and at an acceptable price point for UAV deployment.
Safe Landing Zone detects obstacles to landing providing essential resilience to the landing operation.
Seeker, for Drone Interceptors
An ultralight, micro-radar specifically designed for air-to-air object detection and tracking has the potential to play a vital role in counter-UAS operations as part of a drone intercept solution, detecting potential hostile targets in volatile frontline situations where parameters are continually changing.
Radars have been extensively used in missile seekers for these reasons but have been prohibitively expensive for use in attritable ‘interceptor’ deployments.
We support partners with radar seekers for interceptor terminal guidance.