Title :
Safety analysis of Autonomous Ground Vehicle optical systems: Bayesian belief networks approach
Author :
Duran, Daniel Reyes ; Robinson, Emma ; Kornecki, Andrew J. ; Zalewski, Janusz
Author_Institution :
Electr., Comput., Syst. & Software Eng. Dept., Embry Riddle Aeronaut. Univ., Daytona Beach, FL, USA
Abstract :
Autonomous Ground Vehicles (AGV) require diverse sensor systems to support the navigation and sense-and-avoid tasks. Two of these systems are discussed in the paper: dual camera-based computer vision (CV) and laser-based detection and ranging (LIDAR). Reliable operation of these optical systems is critical to safety since potential faults or failures could result in mishaps leading to loss of life and property. The paper identifies basic hazards and, using fault tree analysis, the causes and effects of these hazards as related to LIDAR and CV systems. A Bayesian Belief Network approach (BN) supported by automated tool is subsequently used to obtain quantitative probabilistic estimation of system safety.
Keywords :
Bayes methods; automatic guided vehicles; belief networks; cameras; collision avoidance; fault trees; optical radar; probability; radar imaging; robot vision; AGV; BN; Bayesian belief network approach; CV; LIDAR; autonomous ground vehicle optical system safety analysis; dual-camera-based computer vision; fault tree analysis; hazards; laser-based detection-and-ranging; navigation task; quantitative probabilistic estimation; sense-and-avoid task; sensor systems; Cameras; Cognition; Hazards; Laser radar; Navigation; Vehicles;
Conference_Titel :
Computer Science and Information Systems (FedCSIS), 2013 Federated Conference on
Conference_Location :
Krako??w
