Optimum design of a three-dimensional serial robot manipulator

A systematic and mathematical optimization methodology is presented for the optimal design of a. three link, revolute joint, three-dimensional manipul ator which must perform specific prescribed tasks. The objective of interes t is the minimization of average torque requirement. In particular circular and eccentric closed task paths are considered. The optimization is carrie d out with the link lengths and the positional coordinates of the base take n as the five design variables, and subject to assembly and geometric const raints imposed on the system. In particular restrictions are placed on the joint angle between the links and on the link lengths. The minimization is successfully performed by the application of Snymans robust dynamic traject ory method for unconstrained optimization, to a penalty function formulatio n of the constrained problem.