IEEE Transactions on Visualization and Computer Graphics

Modal Warping: Real-Time Simulation of Large Rotational Deformation and Manipulation

People
    Min Gyu Choi
    Hyeong-Seok Ko

Abstract
This paper proposes a real-time simulation technique for large deformations.  Green's nonlinear strain tensor accurately models large deformations; however, time stepping of the resulting nonlinear system can be computationally expensive.  Modal analysis based on a linear strain tensor has been shown to be suitable for real-time simulation, but is accurate only for moderately small deformations.  In the present work, we identify the rotational component of an infinitesimal deformation, and extend linear modal analysis to track that component.  We then develop a procedure to integrate the small rotations occurring at the nodal points.  An interesting feature of our formulation is that it can implement both position and orientation constraints in a straightforward manner.  These constraints can be used to interactively manipulate the shape of a deformable solid by dragging/twisting a set of nodes.  Experiments show that the proposed technique runs in real-time even for a complex model, and that it can simulate large bending and/or twisting deformations with acceptable realism.

Citation
Min Gyu Choi and Hyeong-Seok Ko. Modal Warping: Real-Time Simulation of Large Rotational Deformation and Manipulation. IEEE Transactions on Visualization and Computer Graphics, 11(1):91-101, 2005.

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