Recursive estimation of shape and nonrigid motion

The authors paper presents an approach for recursively estimating 3D object shape and general nonrigid motion, which makes use of physically based dynamic models. The models provide global deformation parameters which represent the salient shape features of natural parts, and local deformation parameters which capture shape details. The equations of motion governing the models, augmented by point-to-point constraints, make them responsive to externally applied forces. The authors extend this system of differential equations to formulate a shape and nonrigid motion estimator, a nonlinear Kalman filter, that recursively transforms the discrepancy between the data and the estimated model state into generalized forces while formally accounting for uncertainty in the observations. A Riccati update process maintains a covariance matrix that adjusts the forces in accordance with the system dynamics and the current and prior observations. The estimator applies the transformed forces to adjust the translational, rotational, and deformational degrees of freedom such that the model evolves as consistently as possible with the noisy data. The authors present model fitting and motion tracking experiments of articulated flexible objects from real and synthetic noise-corrupted 3D data.<<ETX>>

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

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

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

[4]  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..

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

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

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

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

[9]  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.

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

[11]  Alex Pentland,et al.  Recovery of non-rigid motion and structure , 1991, Proceedings. 1991 IEEE Computer Society Conference on Computer Vision and Pattern Recognition.

[12]  Dimitris N. Metaxas,et al.  Shape representation and recovery using deformable superquadrics , 1992 .