Compliance and Force Control for Computer Controlled Manipulators

dc.creator	Mason, Matthew Thomas
dc.date	2004-10-20T20:06:09Z
dc.date	2004-10-20T20:06:09Z
dc.date	1979-04-01
dc.date.accessioned	2013-10-09T02:47:31Z
dc.date.available	2013-10-09T02:47:31Z
dc.date.issued	2013-10-09
dc.identifier	AITR-515
dc.identifier	http://hdl.handle.net/1721.1/6908
dc.identifier.uri	http://koha.mediu.edu.my:8181/xmlui/handle/1721
dc.description	Compliant motion occurs when the manipulator position is constrained by the task geometry. Compliant motion may be produced either by a passive mechanical compliance built in to the manipulator, or by an active compliance implemented in the control servo loop. The second method, called force control, is the subject of this report. In particular, this report presents a theory of force control based on formal models of the manipulator, and the task geometry. The ideal effector is used to model the manipulator, and the task geometry is modeled by the ideal surface, which is the locus of all positions accessible to the ideal effector. Models are also defined for the goal trajectory, position control, and force control.
dc.format	4736876 bytes
dc.format	3295402 bytes
dc.format	application/postscript
dc.format	application/pdf
dc.language	en_US
dc.relation	AITR-515
dc.title	Compliance and Force Control for Computer Controlled Manipulators

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