TAILIEUCHUNG - Radar-Based Intruder Detection for a Robotic Security System Phil Corya, H. R. Everettb, Tracy Heath

Technology has affected society and its surroundings in a number of ways. In many societies, technology has helped develop more advanced economies (including today's global economy) and has allowed the rise of a leisure class. Many technological processes produce unwanted by-products, known as pollution, and deplete natural resources, to the detriment of the Earth and its environment. Various implementations of technology influence the values of a society and new technology often raises new ethical questions. Examples include the rise of the notion of efficiency in terms of human productivity, a term originally applied only to machines, and the challenge of. | Radar-Based Intruder Detection for a Robotic Security System Phil Corya H. R. Everettb Tracy Heath Pastoreb aRobotic Systems Technology 1234 Tech Court Westminster MD 21157 bSpace and Naval Warfare Systems Center San Diego CA 92152 ABSTRACT The Mobile Detection Assessment and Response System Exterior MDARS-E provides an automated robotic security capability for storage yards petroleum tank farms rail yards and arsenals. The system includes multiple supervised-autonomous platforms equipped with intrusion detection barrier assessment and inventory assessment subsystems commanded from an integrated control station. The MDARS-E Intrusion Detection System consists of a motion sensor suite which is selectively enabled while the vehicle is momentarily halted in execution of pre-defined but randomly executed patrols. The system can detect a crawling walking or running intruder at a distance of 100 meters even in darkness or the presence of smoke fog dust and precipitation. The demanding nature of the required detection criteria necessitates the integration of complementary technologies which can sense motion pattern characteristics thermal signatures and temporal behavior. Accordingly MDARS-E incorporates a two-layered sensor approach . vision and radar to achieve a high probability of detection while simultaneously minimizing the number of nuisance alarms. The primary layer utilizes an infrared vision-based FLIR system which provides high angular resolution of a suspected intruder location within a scene. This information is used to slave a two-axis pan-and-tilt turret on which both the radar and vision sensors are mounted to automatically track the designated target. The second layer a long-range broad-area radar sensor is thus optimally positioned to confirm the presence of any valid moving target effectively eliminating nuisance alarms. This paper discusses the MDARS-E Intrusion Detection System sensors and user interface with particular emphasis placed on the .

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