Shape and Nonrigid Motion Estimation Through Physics-Based Synthesis

A physics-based framework for 3-D shape and nonrigid motion estimation for real-time computer vision systems is presented. The framework features dynamic models that incorporate the mechanical principles of rigid and nonrigid bodies into conventional geometric primitives. Through the efficient numerical simulation of Lagrange equations of motion, the models can synthesize physically correct behaviors in response to applied forces and imposed constraints. Applying continuous Kalman filtering theory, a recursive shape and motion estimator that employs the Lagrange equations as a system model is developed. The system model continually synthesizes nonrigid motion in response to generalized forces that arise from the inconsistency between the incoming observations and the estimated model state. The observation forces also account formally for instantaneous uncertainties and incomplete information. A Riccati procedure updates a covariance matrix that transforms the forces in accordance with the system dynamics and prior observation history. Experiments involving model fitting and tracking of articulated and flexible objects from noisy 3-D data are described. >

[1]  J. Baumgarte Stabilization of constraints and integrals of motion in dynamical systems , 1972 .

[2]  Arthur Gelb,et al.  Applied Optimal Estimation , 1974 .

[3]  J. Wittenburg,et al.  Dynamics of systems of rigid bodies , 1977 .

[4]  Alan H. Barr,et al.  Global and local deformations of solid primitives , 1984, SIGGRAPH.

[5]  Rama Chellappa,et al.  Estimation of Object Motion Parameters from Noisy Images , 1986, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[6]  H. Kardestuncer,et al.  Finite element handbook , 1987 .

[7]  Demetri Terzopoulos,et al.  Constraints on Deformable Models: Recovering 3D Shape and Nonrigid Motion , 1988, Artif. Intell..

[8]  Dmitry B. Goldgof,et al.  Motion analysis of nonrigid surfaces , 1988, Proceedings CVPR '88: The Computer Society Conference on Computer Vision and Pattern Recognition.

[9]  Ronen Barzel,et al.  A modeling system based on dynamic constraints , 1988, SIGGRAPH.

[10]  Ahmed A. Shabana,et al.  Dynamics of Multibody Systems , 2020 .

[11]  R. Chellappa,et al.  Recursive 3-D motion estimation from a monocular image sequence , 1990 .

[12]  Ruzena Bajcsy,et al.  Recovery of Parametric Models from Range Images: The Case for Superquadrics with Global Deformations , 1990, IEEE Trans. Pattern Anal. Mach. Intell..

[13]  Rachid Deriche,et al.  Tracking line segments , 1990, Image Vis. Comput..

[14]  Thomas S. Huang,et al.  Epicardial motion and deformation estimation from coronary artery bifurcation points , 1990, [1990] Proceedings Third International Conference on Computer Vision.

[15]  Thomas S. Huang,et al.  Modeling, analysis, and visualization of nonrigid object motion , 1990, [1990] Proceedings. 10th International Conference on Pattern Recognition.

[16]  Joachim Heel,et al.  Temporally integrated surface reconstruction , 1990, [1990] Proceedings Third International Conference on Computer Vision.

[17]  Richard Szeliski,et al.  Physically based and probabilistic models for computer vision , 1991, Optics & Photonics.

[18]  Dimitris N. Metaxas,et al.  Constrained deformable superquadrics and nonrigid motion tracking , 1991, Proceedings. 1991 IEEE Computer Society Conference on Computer Vision and Pattern Recognition.

[19]  Dimitris N. Metaxas,et al.  Dynamic 3D Models with Local and Global Deformations: Deformable Superquadrics , 1991, IEEE Trans. Pattern Anal. Mach. Intell..

[20]  Alex Pentland,et al.  Recovery of Nonrigid Motion and Structure , 1991, IEEE Trans. Pattern Anal. Mach. Intell..

[21]  Dimitris N. Metaxas,et al.  Dynamic deformation of solid primitives with constraints , 1992, SIGGRAPH.

[22]  Yuan-Fang Wang,et al.  Surface Reconstruction Using Deformable Models with Interior and Boundary Constraints , 1992, IEEE Trans. Pattern Anal. Mach. Intell..

[23]  Dimitris N. Metaxas,et al.  Physics-based modelling of nonrigid objects for vision and graphics , 1993 .