CMU-CS-99-106 Computer Science Department School of Computer Science, Carnegie Mellon University
Motion Transformation by Physically Based Spacetime Optimization Zoran Popovic May 1999 Ph.D. Thesis
CMU-CS-99-106.ps
In contrast to most physically based animation techniques that synthesize motion from scratch, we take the approach of motion transformation as the underlying paradigm for generating computer animations. In doing so, we combine the expressive richness of the input animation sequence with the controllability of spacetime optimization to create a wide range of realistic character animations. The spacetime dynamics formulation also allows editing of intuitive high-level motion concepts such as the time and placement of footprints, length and mass of various extremities, joint arrangement and gravity. Our algorithm permits the reuse of highly-detailed captured motion animations. In addition, we describe a new methodology for mapping a motion to/from characters with drastically different number of degrees of freedom. We use this method to reduce the complexity of the spacetime optimization problems. Furthermore, our approach provides a paradigm for controlling complex dynamic and kinematic systems with simpler ones. 198 pages
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