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Dynamic friction in the control of robots

Brian Armstrong-Hélouvry

Year
2002
Citations
5

Abstract

Frictional memory is a delay between a change in sliding velocity or normal force and the consequent change in friction. Several sensitive studies of frictional dynamics have shown the presence of frictional memory in tribology experiments and in robots. In the present work, frictional memory is shown to be necessary to account for the extinction of stick slip at high stiffness. By showing that frictional memory is required to account for the gross behavior of common mechanical systems, the range of mechanisms known to exhibit frictional memory is greatly extended. Stiff (high gain) control has long been used to eliminate stick slip in robots and other precision, position-controlled mechanisms. Consideration of frictional memory will permit the systematic design of these controllers so that stick-slip free motion is achieved.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">&gt;</ETX>

Keywords

Slip (aerodynamics)RobotStiffnessPassivityTribologyControl theory (sociology)Computer sciencePosition (finance)Work (physics)Shape-memory alloy

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