Browse Publications Technical Papers 2003-01-2228
2003-06-17

A Minimum-Effort Motion Algorithm for Digital Human Models 2003-01-2228

A new realistic motion control algorithm for digital human models is presented in this paper based on the principle of effort minimization. The proposed algorithm is developed through an innovative mathematical model to make the applications more flexible and more global, especially for the visualization of human motions in automotive assembly operations. The central idea of this unique model is to interpret the solution of the homogeneous Lagrange equation for a mannequin as the origin of dynamic motion. Furthermore, a digital human possesses about 42 joints over the main body except the head, fingers and toes, and offers a large room of kinematic redundancy. We have found 14 new 3-D independent motion markers assigned over the human body to constitute a Cartesian coordinate system, under which a minimum-effort based dynamic control scheme is developed using a state-feedback linearization procedure. The digital human can then be controlled and maneuvered to perform a given desired task while automatically generating realistic postures. The computational complexity is reduced significantly in comparison with the algorithms using joint angles as the generalized coordinates.

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