Title :
A model for visual observation under uncertainty
Author :
Sobh, T.M. ; Bajcsy, Ruzena
Author_Institution :
Gen. Robotics & Active Sensory Perception Lab., Pennsylvania Univ., Philadelphia, PA, USA
Abstract :
The problem of observing a moving agent is addressed. A modeling approach for the visual system and its observer is advocated in which a discrete-event dynamic system (DEDS) framework is developed and events are defined as ranges on parameter subsets. In particular, a system for observing a process in which a robot hand manipulates an object is proposed. A stabilizing observer is constructed, and low-level modules are developed for recognizing the events that cause state transitions within the dynamic manipulation system. The work examines closely the possibilities for errors and uncertainties in the manipulation system, observer construction process, and event identification mechanisms. The system utilizes different tracking techniques to observe and recognize the task in an active, adaptive, and goal-directed manner
Keywords :
computer vision; discrete time systems; manipulators; mobile robots; discrete-event dynamic system; dynamic manipulation system; event identification mechanisms; moving agent; robot hand; stabilizing observer; tracking techniques; uncertainty; visual observation; Automata; Image motion analysis; Laboratories; Manipulator dynamics; Robot sensing systems; Target tracking; Uncertainty;
Conference_Titel :
Computer-Aided Control System Design, 1992. (CACSD), 1992 IEEE Symposium on
Conference_Location :
Napa, CA
DOI :
10.1109/CACSD.1992.274421
