Greenwich, London. 12 September 2017. Long range coastal and border surveillance is enhanced by the launch of Sigma LEO by Chess Dynamics at DSEI on stand S8-140. Sigma LEO is optimised for remote detection, identification and image/video capture in all types of border and coastal surveillance locations.
Chess Sigma LEO is configured as an intelligent sub system module within a multi node integrated surveillance solution. It employs a simple power and ethernet interface for function control and transmission of images over long ranges by wire, fibre or wireless communication networks.
“Long range vision on borders and coasts is critical for a security force tasked with keeping either an asset such as an offshore platform or a coast line secure. We have developed the Chess Sigma LEO with extended range, video analytics, high reliability and fault tolerance to meet the most stringent remote operation while reducing both operational and support manpower,” said Dave Eldridge, Sales Director of Chess Dynamics
“Together with our colleagues at Vision4ce, a Chess Technologies company, we have developed a system which can automatically analyse imagery and send only altered data back to a command centre many miles away,” added Mr Eldridge. “The system can also self-monitor and, with dual redundancy built in, can complete an element of self-repair, again reducing the need for a person to visit the site for first line repairs.”
The processing unit at the heart of the Chess Sigma LEO has been designed to carry out many tasks, normally done at the command centre, remotely. These include automatic target detection, analysis and tracking; optimising the tracking point and sensor field of view; capture of multiple still images and video recording of both identified and unidentified targets including backup storage; and overall system monitoring.
The Chess Sigma LEO is designed to be sensor agnostic, enabling the user to select the most effective EO sensor configuration for their specific task.
Built into the design is especially high reliability coupled with low maintenance requirements, to minimise the need for staff to travel to the remotely deployed units.