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The International Journal of Robotics Research
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Force Analysis of Connected Differential Mechanisms: Application to Grasping

Lionel Birglen

Department of Mechanical Engineering Laval University, Québec, Qc G1K 7P4, Canada, Department of Mechanical Engineering, Ecole Polytechnique of Montreal, Montreal, QC, H3T 1J4, Canada, birgle00{at}gmc.ulaval.ca, lionel.birglen{at}polymtl.ca

Clément M. Gosselin

Department of Mechanical Engineering Laval University, Québec, Qc G1K 7P4, Canada, gosselin{at}gmc.ulaval.ca

In this paper, a methodology is proposed for the analysis of the force capabilities of connected differential mechanisms. These systems are the key elements used to extend the principle of underactuation in grasping from the fingers to the hand itself. The concept of under-actuation in robotic grasping—with fewer actuators than degrees of freedom (DOF)—allows the hand to adjust itself to an irregularly shaped object without complex control strategies and sensors. Several technological solutions have been proposed in the past but no theoretical background has been provided to analyze their characteristics, especially with respect to the forces generated. The purpose of this paper is to provide such a theoretical foundation and to illustrate its usefulness with examples applied to grasping. First, several differential elements are presented and studied. Second, a mathematical method to obtain the output force capabilities of connected differential mechanisms is presented. Finally, the technique presented is applied to two types of underactuated robotic hands.

Key Words: robotic hand • grasping • underactuation • underactuated finger • differential mechanisms

The International Journal of Robotics Research, Vol. 25, No. 10, 1033-1046 (2006)
DOI: 10.1177/0278364906068942
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