Data-guided Model Predictive Control Based on Smoothed Contact Dynamics

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In this paper, we propose an efficient data-guided method based on Model Predictive Control (MPC) to synthesize a full-body motion. Guided by a reference motion, our method repeatedly plans the full-body motion to produce an optimal control policy for predictive control while sliding the fixed-span window along the time axis. Based on this policy, the method computes the joint torques of a character at every time step. Together with contact forces and external perturbations if there are any, the joint torques are used to update the state of the character. Without including the contact forces in the control vector, our formulation of the trajectory optimization problem enables automatic adjustment of contact timings and positions for balancing in response to environmental changes and external perturbations. For efficiency, we adopt derivative-based trajectory optimization on top of state-of-the-art smoothed contact dynamics. Use of derivatives enables our method to run much faster than the existing sampling-based methods. In order to further accelerate the performance of MPC, we propose efficient numerical differentiation of the system dynamics of a full-body character based on two schemes: data reuse and data interpolation. The former scheme exploits data dependency to reuse physical quantities of the system dynamics at near-by time points. The latter scheme allows the use of derivatives at sparse sample points to interpolate those at other time points in the window. We further accelerate evaluation of the system dynamics by exploiting the sparsity of physical quantities such as Jacobian matrix resulting from the tree-like structure of the articulated body. Through experiments, we show that the proposed method efficiently can synthesize realistic motions such as locomotion, dancing, gymnastic motions, and martial arts at interactive rates using moderate computing resources.
Publisher
WILEY-BLACKWELL
Issue Date
2016-05
Language
English
Article Type
Article
Keywords

RIGID-BODY DYNAMICS; BIPEDAL LOCOMOTION; MOTION CONTROL; OPTIMIZATION; WALKING; SKILLS

Citation

COMPUTER GRAPHICS FORUM, v.35, no.2, pp.533 - 543

ISSN
0167-7055
DOI
10.1111/cgf.12853
URI
http://hdl.handle.net/10203/210186
Appears in Collection
GCT-Journal Papers(저널논문)CS-Journal Papers(저널논문)
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