Sun, Jun 25, 2017
Will Provide ViDAR With NATO-Compliant Rotary Skeldar V-200
An agreement has been signed between UMS Skeldar and Sentient Vision Systems to provide the ViDAR (Visual identification Detection and Ranging) system for its unmanned systems.
UMS Skeldar will incorporate the ViDAR payload into its fleet of flagship VTOL’s – the Skeldar V-200, uniquely deploying five to ten cameras, providing between 180 and an optimal 360-degree maritime domain awareness for the first time.
ViDAR is a wide area autonomous detection system for electro-optic imagery in the maritime domain, enabling coverage over 80 times the ocean’s surface compared with existing electro-optic sensors. ViDAR transforms the utility of tactical UAS’s by giving them a ‘find’ function for the first time. Operators typically must rely on larger, more expensive aircraft to detect objects in the ocean; ViDAR provides the find capability in a smaller, more cost-effective payload.
David Willems, UMS Skeldar’s Head of Business Development, explained that the incorporation of the ViDAR payload from Sentient was a logical extension of the strategy to ensure the dominance of Skeldar V-200 in the maritime domain. “As we develop our maritime customer base, ViDAR is complementary to our on-board and payload capabilities, and will play an important role in developing our footprint for both ISR (intelligence, surveillance and reconnaissance) and SAR (search and rescue) operations,” Willems said.
“ViDAR proved during demonstrations to both the US Coast Guard and to the Royal Navy in late 2016 just how much of a game changing technology it can be for finding small objects over wide areas of the open ocean – transforming maritime domain awareness,” said Simon Olsen, Sentient’s Director of Business Development, Strategy and Partnerships. “The opportunity to now provide ViDAR with Skeldar V-200 provides our customers with a truly game changing small footprint, highly capable solution for small and large vessels alike”.
Sentient’s ViDAR optical radar autonomously scans the ocean around the air vehicle detecting any object on the surface of the ocean in real time.
Ground Control Station operators are autonomously provided with an image and a location coordinate of each object found. Selecting any of those images cues the primary sensor to the object location for classification/identification.
In recent demonstrations, ViDAR has autonomously detected fishing vessels beyond 14 nm, fast boats at more than 17 nm and a person overboard out to 1.9 nm from the aircraft.
(ISource:UMS Skeldar news release. Image provided)
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