NEWPORT BEACH, USA: TiaLinx Inc., a developer of a remotely controlled mini-robot integrated with mm-wave miniaturized radars, announced the launch of the Cougar20-H. The mini-robot system is capable of performing dual functions as motion detection as well as probing for the breathing of a person in a compound that is remotely controlled at long standoff distances.
The lightweight and agile mini-robot with tractable arm has been integrated with TiaLinx's fine beam ultra-wideband (UWB), multi-Gigahertz radio frequency (RF) sensor array. The system provides long standoff surveillance of a premise to track movement as well as to detect motionless live objects. TiaLinx's real-time UWB RF Imaging development was sponsored by an SBIR Phase II from the Army's PEO AMMO, PM-CCS.
Through a software-controlled interface which is integrated into a laptop, Cougar20-H can be remotely guided from long distances to perform mission-critical tasks. Integrated multiple cameras allow day and night visibility of a premise under surveillance for enhanced situational awareness. Capability to probe the compound at standoff keeps the Cougar20-H out of harm's way.
The RF Scanner is mounted on a lightweight arm and transmits wideband signals that are highly directional and can penetrate reinforced concrete wall at an extended range. In the receiver, a signal detector circuit is employed to capture the reflections from targets. Amplitude and delay information are then processed in an integrated signal processor.
"Cougar20-H has the capability to sense-through-the-wall (STTW) at farther distances than Cougar10-L that was launched last month. Cougar20-H can also be remotely programmed at multiple way points to scan the desired premise in a multi-story building and provide its layout. In contrast only Cougar10-L is capable of scanning a premise horizontally for unexploded ordnance (UXO) as well as vertically to STTW," commented Dr. Fred Mohamadi, founder and CEO of TiaLinx.
"TiaLinx is constantly upscaling its UWB RF Imaging core competence to enable standoff sensing of a premise for enhanced situational awareness."