Dynamic model and simulation of cooperative robots: a case study

Jorge Gudiño-Lau; Marco A. Arteaga

doi:10.1017/S0263574704001213

Abstract

Cooperative robots are usually required in flexible manufacturing systems or complex working environments. In particular, when an object under processing is too big or too heavy, a single robot may not be enough to handle it. Two or more manipulators are to be used in such a case. This paper presents the study of the dynamic equations for two industrial robots holding a rigid object. To this end, holonomic constraints are combined with the manipulators and object equations of motion to obtain the dynamic model of the whole system, which can be used for simulation purposes. Experimental results are presented to validate the theoretical results.

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Dynamic model and simulation of cooperative robots: a case study

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