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Pilot level of a hierarchical controller for an unmanned mobile robot

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2 Author(s)
C. Isik ; Dept. of Electr. & Comput. Eng., Syracuse Univ., NY, USA ; A. M. Meystel

The controller for an intelligent mobile autonomous system (IMAS), equipped with vision and low-level sensors to cope with unknown obstacles, is modeled as a hierarchy of decision-making for planning and control. One of the levels (pilot) deals with a distorted `windshield' view of the world and provides the actuator controller with real-time decisions. This level of IMAS controller is treated as a linguistic controller with fuzzy variables that assume values from possible intervals. The decision-making process at this level of control are presented as a production system with a fuzzy database. The rules in the production system are derived from an analytical system model for minimum-time control. The choice of optimal motion execution commands is performed using fuzzy set operators. Also included is a temporal decision-making mechanism (reporter), which recognizes the persisting conflicts between successive levels of the hierarchy by observing the motion trajectory

Published in:

IEEE Journal on Robotics and Automation  (Volume:4 ,  Issue: 3 )