11.8.6 Deformable Solids -- Pentland Papers

Chapter Contents (Back)
Deformable Solids. Physics Based Vision.

Pentland, A.P.[Alex P.],
On Describing Complex Surface Shapes,
IVC(3), No. 4, November 1985, pp. 153-162.
Elsevier DOI Fractal surface model. BibRef 8511

Pentland, A.P.[Alex P.],
Automatic Extraction of Deformable Part Models,
IJCV(4), No. 2, March 1990, pp. 107-126.
Springer DOI Find parts of objects (in range data) annd fit volumes. BibRef 9003

Dickinson, S.J.[Sven J.], Pentland, A.P.[Alex P.], and Rosenfeld, A.,
3-D Shape Recovery Using Distributed Aspect Matching,
PAMI(14), No. 2, February 1992, pp. 174-198.
IEEE DOI BibRef 9202
Qualitative 3-D Shape Reconstruction Using Distributed Aspect Graph Matching,
IEEE DOI Matching, Aspect Graphs. Find models that match an image object. Applied to simplified pseudo-images. BibRef

Dickinson, S.J.[Sven J.], Pentland, A.P.[Alex P.], Rosenfeld, A.,
From Volumes to Views: An Approach to 3-D Object Recognition,
CVGIP(55), No. 2, March 1992, pp. 130-154.
Elsevier DOI BibRef 9203
Earlier: CADBV91(85-96). BibRef
Primitive-Based Shape Modeling and Recognition,
VF91(213-229). Descriptions, Geons. BibRef

Dickinson, S.J.[Sven J.], Pentland, A.P.[Alexander P.],
Unified Approach to the Recognition of Expected and Unexpected Geon-Based Objects,
SPIE(1708), 1992, pp. 614-627. BibRef 9200

Pentland, A.P.[Alex P.], and Sclaroff, S.,
Closed-Form Solutions for Physically Based Shape Modeling and Recognition,
PAMI(13), No. 7, July 1991, pp. 715-729.
IEEE DOI BibRef 9107
Earlier: CVPR91(238-243).
IEEE DOI Physics Based Vision. Generate a 3-D solid model from a set of surface depth measurements. The code for this algorithm is available:
See also Modal Matching for Correspondence and Recognition. BibRef

Sclaroff, S.,
Deformable Prototypes for Encoding Shape Categories in Image Databases,
PR(30), No. 4, April 1997, pp. 627-641.
Elsevier DOI 9705

Pentland, A.P.[Alex P.], and Horowitz, B.,
Recovery of Nonridid Motion and Structure,
PAMI(13), No. 7, July 1991, pp. 730-742.
IEEE DOI BibRef 9107
Earlier: CVPR91(325-330).
IEEE DOI From optical flow data and constraints on what kinds of nonrigid motion can occur, derive estimates of velocity and shape of the object. BibRef

Azarbayejani, A., Starner, T.E., Horowitz, B., and Pentland, A.P.[Alex P.],
Visually Controlled Graphics,
PAMI(15), No. 6, June 1993, pp. 602-605.
IEEE DOI BibRef 9306
And: Vismod-180, 1991.
HTML Version. and
PS File. Reconstruct the face by tracking it. BibRef

Martin, J., Pentland, A.P., Kikinis, R.,
Shape Analysis of Brain Structures Using Physical and Experimental Modes,
IEEE DOI BibRef 9400
And: Vismod-276, 1994.
PS File. BibRef

Duncan, J.S., Owen, R.L., Staib, L.H., and Anandan, P.,
Measurement of Non-Rigid Motion Using Contour Shape Descriptors,
IEEE DOI BibRef 9100

Pentland, A.P.[Alex P.], Horowitz, B., and Sclaroff, S.,
Non-Rigid Motion and Structure from Contour,
Motion91(288-293). Use the contour and a discrete Kalman filter approach to change the shape. BibRef 9100

Sclaroff, S.[Stan], Pentland, A.P.[Alex P.],
Physically-Based Combinations of Views: Representing Rigid and Nonrigid Motion,
Vismod-273, 1994.
PS File. BibRef 9400

Pentland, A.P.[Alex P.], and Williams, J.,
Perception of Non-Rigid Motion: Inference of Shape, Material and Force,
IJCAI89(1565-1570). High level discussion of using motion for shapes. BibRef 8900

Pentland, A.P.[Alex P.],
Parts of Perception,
ACVIP1988, Chapter 4 pp. 121-176. BibRef 8800
Parts: Structured Descriptions of Shape,
AAAI-86(695-701). BibRef

Martin, J., Pentland, A.P., Sclaroff, S., Kikinis, R.,
Characterization of Neuropathological Shape Deformations,
PAMI(20), No. 2, February 1998, pp. 97-112.
From MRI images. BibRef

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Deformable Solids -- Terzopoulos Papers .

Last update:Jun 5, 2024 at 10:22:22