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Kinematic and Structural Design Assessment of Fault-Tolerant Manipulators

Sabri Tosunoglu, V. Monteverde

发表年份
1998
引用次数
27

摘要

ABSTRACTFault tolerance technology promises higher system reliability even under unexpected component failure. Such capability is attained by developing a structural system design that can deliver fault tolerance, and by designing controllers that can take advantage of the fault-tolerant structure. This paper reviews fault-tolerant design issues from a kinematic and structural viewpoint. This is accomplished by studying the kinematic design of a fault-tolerant robotic system at four levels: (1) Joint level (Single and dual actuators); (2) Link level (Serial and parallel modules); (3) Sub-system level (Non-redundant and redundant manipulators); (4) System level (Multiple cooperating manipulators). This work addresses the four levels from a structural design viewpoint. A measure is developed to determine the relative fault-tolerant capacity gained from one manipulator to another. Other criteria are also reviewed in evaluating various manipulators as design alternatives in an effort to identify the most effi...

关键词

Computer scienceKinematicsFault toleranceDistributed computing

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