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MANIPULATION

Fault tolerance for kinematically redundant manipulators: anticipating free-swinging joint failures

James English, Anthony A. Maciejewski

Year
1998
Citations
129

Abstract

Fault tolerance is an important design criterion for robotic systems operating in hazardous or remote environments. This article addresses the issue of tolerating a free-swinging joint failure by focusing on how to best configure a slow-moving manipulator before a failure. Three scalar measures of fault susceptibility are defined using joint torques/forces, accelerations, and swing angles. Minimizing these measures is an approach to achieving fault tolerance, and for this, algorithms to calculate their gradients are also given. The formulas are valid for general n-link manipulators.

Keywords

Fault toleranceTorqueControl theory (sociology)Computer scienceSwingJoint (building)Control engineeringEngineeringDistributed computingStructural engineering

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