Fleet, D.J., and
Jepson, A.D.,
Hierarchial Construction of Orientation and
Velocity Selective Filters,
PAMI(11), No. 3, March 1989, pp. 315-325.
IEEE Abstract. IEEE Top Reference.
WWW Version.
BibRef
8903
Earlier:
RBCV-TR-85-8, Toronto, November 1985.
A continuation of the filter based velocity extraction methods,
with a different method for computation.
BibRef
Fleet, D.J.,
Measurement of Image Velocity,
Boston:
KluwerAcademic Pub. March 1992.
ISBN 0-7923-9198-5.
WWW Version.
BibRef
9203
Fleet, D.J., and
Jepson, A.D.,
Computation of Component Image Velocity from Local Phase Information,
IJCV(5), No. 1, August 1990, pp. 77-104.
Springer DOI Link
HTML Version. and
WWW Version.
BibRef
9008
Earlier:
Computation of Normal Velocity from Local Phase Information,
CVPR89(379-386).
IEEE Abstract. IEEE Top Reference.
BibRef
And:
RBCV-TR-89-27, March 1989, Toronto.
Apply filters etc.
BibRef
Fleet, D.J., and
Jepson, A.D.,
Stability of Phase Information,
PAMI(15), No. 12, December 1993, pp. 1253-1268.
IEEE Abstract. IEEE Top Reference.
WWW Version.
Postscript Version.
BibRef
9312
Earlier:
Motion91(52-60).
BibRef
Black, M.J.[Michael J.],
Fleet, D.J.[David J.],
Yacoob, Y.[Yaser],
Robustly Estimating Changes in Image Appearance,
CVIU(78), No. 1, April 2000, pp. 8-31.
0004
WWW Version.
HTML Version.
BibRef
Earlier:
A Framework for Modeling Appearance Change in Image Sequences,
ICCV98(660-667).
IEEE DOI Link In the robust techniques special issue.
BibRef
Jenkin, M.R.M., and
Jepson, A.D.,
Recovering Local Surface-Structure Through Local Phase Difference
Measurements,
CVGIP(59), No. 1, January 1994, pp. 72-93.
WWW Version.
BibRef
9401
Earlier: A2, A1:
The Fast Computation of Disparity from Phase Differences,
CVPR89(398-403).
IEEE Abstract. IEEE Top Reference.
Phase Differences. Apply filters etc.
See also Techniques for Disparity Measurement.
BibRef
Fleet, D.J., and
Jepson, A.D.,
Velocity Extraction without Form Interpretation,
CVWS85(179-185).
BibRef
8500
Earlier:
A Cascaded Filter Approach to the Construction
of Velocity Selective Mechanisms,
RBCV-TR-84-6, Toronto, December 1984.
Filters are localized in space, and specific to a small range of velocities.
BibRef
Jenkin, M.R.M., and
Jepson, A.D.,
Response Profiles of Trajectory Detectors,
SMC(19), No. 6, Nov/Dec 1989, pp. 1617-1622.
BibRef
8911
Earlier:
Measuring Trajectory,
Motion89(31-37).
BibRef
Fleet, D.J.,
Hallett, P.E., and
Jepson, A.D.,
Spatiotemporal Inseparability in Early Visual Processing,
BioCyber(52), No. 2, 1985, pp. 153-164.
BibRef
8500
Fleet, D.J.[David J.],
Jepson, A.D.[Allan D.], and
Hallett, P.E.[Peter E.],
A Spatio-Temporal Model for Early Visual Processing,
RBCV-TR-84-1, Toronto, April 1984.
Discusses the difference of Gaussians model and a center-surround
model for early procession and how they may be implemented and
how they account for visual phenomena.
BibRef
8404
Fleet, D.J.,
The Early Processing of Spatio-Temporal Visual Information,
RBCV-TR-84-7, Toronto, September 1984.
MS thesis, related to other
of his papers. This paper discusses the difference of Gaussian and the
Center-surround methods in terms of human vision.
BibRef
8409
Fleet, D.J., and
Langley, K.,
Computational analysis of non-Fourier motion,
Vision Research(34), No. 22, 1994, pp. 3057-3079.
HTML Version.
BibRef
9400
Langley, K.,
Fleet, D.J., and
Atherton, T.J.,
Multiple Motions from Instantaneous Frequency,
CVPR92(846-849).
IEEE Abstract. IEEE Top Reference.
BibRef
9200
Eckert, M.P.,
Buchsbaum, G., and
Watson, A.B.,
Separability of Spatiotemporal Spectra of Image Sequences,
PAMI(14), No. 12, December 1992, pp. 1210-1213.
IEEE Abstract. IEEE Top Reference.
WWW Version.
BibRef
9212
Chin, T.M.,
Karl, W.C.,
Willsky, A.S.,
Probabilistic and Sequential Computation of Optical Flow Using
Temporal Coherence,
IP(3), No. 6, November 1994, pp. 773-788.
IEEE DOI Link
BibRef
9411
Chin, T.R.,
On Kalman filter solution of space-time interpolation,
IP(10), No. 4, April 2001, pp. 663-666.
IEEE DOI Link
0402
Analysis of
See also Probabilistic and Sequential Computation of Optical Flow Using Temporal Coherence. with improvements.
BibRef
Jahne, B.,
Image Sequence Analysis of Complex Physical Objects:
Nonlinear Small Scale Water Surface Waves,
ICCV87(191-200).
BibRef
8700
Jahne, B.,
Analytical Studies of Low-Level Motion Estimators in
Space-Time Images Using a Unified Filter Concept,
CVPR94(229-236).
IEEE Abstract. IEEE Top Reference.
BibRef
9400
Earlier:
Motion Determination in Space-Time Images,
ECCV90(161-173).
Springer DOI Link Analyze what happens to one line.
BibRef
Chou, G.[George],
A Model of Figure-Ground Segregation from Kinetic Occlusion,
ICCV95(1050-1057).
IEEE DOI Link
WWW Version.
BibRef
9500
Allen, P.K.,
Real-Time Motion Tracking Using Spatio-Temporal Filters,
DARPA89(695-701).
The real time comes from the use of the PIPE computer.
BibRef
8900
Beck, W.,
Hierarchical Computation of Image Velocity from Local
Phase Information,
ICPR92(I:526-529).
IEEE DOI Link
BibRef
9200
Catanzariti, E.,
Maximum-Likelihood Classification of Image Edges Using Spatial
and Spatial-Frequency Features,
ICPR92(I:725-729).
IEEE DOI Link
BibRef
9200
Nalwa, V.S.,
Experiments with a spatiotemporal correlator,
ICPR92(III:712-716).
IEEE DOI Link
9208
BibRef
Chapter on Motion Analysis --Low-Level, Image Level Analysis, Mosaic Generation, Super Resolution, Shape from Motion continues in
Surface or Contour Motion Using Global Surfaces .