Performance of optical flow techniques
10.1007/bf01420984
Crossref journal-article
Springer Science and Business Media LLC
International Journal of Computer Vision (297)
Bibliography

Barron, J. L., Fleet, D. J., & Beauchemin, S. S. (1994). Performance of optical flow techniques. International Journal of Computer Vision, 12(1), 43–77.

Authors 3
  1. J. L. Barron (first)
  2. D. J. Fleet (additional)
  3. S. S. Beauchemin (additional)
References 62 Referenced 3,115
  1. Adelson, E.H., and Bergen, J.R. 1985. Spatiotemporal energy models for the perception of motion,J. Opt. Soc. Amer. A 2: 284?299. (10.1364/JOSAA.2.000284) / J. Opt. Soc. Amer. A by E.H. Adelson (1985)
  2. Adelson, E.H., and Bergen, J.R. 1986. The extraction of spatiotemporal energy in human and machine vision,Proc. IEEE Workshop on Visual Motion, Charleston, pp. 151?156.
  3. Aloimonos, J., and Brown, C.M. 1984. Direct processing of curvilinear sensor motion from a sequence of perspective images.Proc. 2nd Workshop on Computer Vision, Annapolis, pp. 72?77.
  4. Aloimonos, Y., and Duric, Z. 1992. Active egomotion estimation: a qualitative approach,Proc. Europ. Conf. Comput. Vis., Ligure, Italy, pp. 497?510. (10.1007/3-540-55426-2_55)
  5. Anandan, P. 1987. Measuring Visual Motion from Image Sequences. Ph.D. dissertation, COINS TR 87-21, Univ. of Massachusetts, Amherst, MA. / Measuring Visual Motion from Image Sequences by P. Anandan (1987)
  6. Anandan, P. 1989. A computational framework and an algorithm for the measurement of visual motion,Intern. J. Comput. Vis. 2: 283?310. (10.1007/BF00158167) / Intern. J. Comput. Vis. by P. Anandan (1989)
  7. Barman, H., Haglund, L., Knutsson, H., and Granlund, G. 1991. Estimation of velocity, acceleration and disparity in time sequences,Proc. IEEE Workshop on Visual Motion, Princeton, pp. 44?51. (10.1109/WVM.1991.212789)
  8. Barron, J.L., Fleet, D.J., and Beauchemin, S.S. 1993. Performance of optical flow techniques, Tech. Rept. TR299, Dept. of Computer Science, University of Western Ontario; and RPL-TR-9107, Dept. of Computing Science, Queens University, July 1992 (revised July 1993).
  9. Barron, J.L., Fleet, D.J., Beauchemin, SS., and Burkitt, T. 1992. Performance of optical flow techniques,Proc. Conf. Comp. Vis. Patt. Recog., Champaign, June, pp. 236?242. (10.1109/CVPR.1992.223269)
  10. Barron, J.L., Jepson, A.D., and Tsotsos, J.K. 1990. The feasibility of motion and structure from noisy time-varying image velocity information,Intern. J. Comput. Vis. 5: 239?269. (10.1007/BF00126501) / Intern. J. Comput. Vis. by J.L. Barron (1990)
  11. Beaudet, P.R. 1978. Rotationally invariant image operators.Proc. 4th Intern. Conf. Patt. Recog., Tokyo, pp. 579?583.
  12. Bigun, J., Granlund, G., and Wiklund, J. 1991. Multidimensional orientation estimation with applications to texture analysis and optical flow.IEEE Trans. Patt. Anal. Mach. Intell. 13: 775?790. (10.1109/34.85668) / IEEE Trans. Patt. Anal. Mach. Intell. by J. Bigun (1991)
  13. Burt, P.J., and Adelson, E.H. 1983. The Laplacian pyramid as a compact image code,IEEE Trans. Communications 31, pp. 532?540. (10.1109/TCOM.1983.1095851) / IEEE Trans. Communications by P.J. Burt (1983)
  14. Burt, P.J., Yen, C., and Xu, X. 1983. Multiresolution flow-through motion analysis,Proc. Conf. Comput. Vis. Patt. Recog., Washington, pp. 246?252.
  15. Buxton, B., and Buxton, H. 1984. Computation of optic flow from the motion of edge features in image sequences,Image Vis. Comput. 2: 59?74. (10.1016/0262-8856(84)90001-5) / Image Vis. Comput. by B. Buxton (1984)
  16. Cippola, R., and Blake, A. 1992. Surface orientation and time to contact from image divergence and deformation,Proc. 2nd Europ. Conf. Comput. Vis., Ligure, Italy, pp. 187?202. (10.1007/3-540-55426-2_21)
  17. Duncan, J.H., and Chou, T.C. 1988. Temporal edges: The detection of motion and the computation of optical flow,Proc. 2nd Intern. Conf. Comput. Vis., Tampa, pp. 374?382. (10.1109/CCV.1988.590014)
  18. Dutta, R., Manmatha, R., Williams, L., and Riseman, E.M. 1989. A data set for quantitative motion analysis,Proc. Conf. Comput. Vis. Patt. Recog., San Diego, pp. 159?164. (10.1109/CVPR.1989.37844)
  19. Fennema, C., and Thompson, W. 1979. Velocity determination in scenes containing several moving objects,Comput. Graph. Image Process. 9: 301?315. (10.1016/0146-664X(79)90097-2) / Comput. Graph. Image Process. by C. Fennema (1979)
  20. Fleet, D.J. 1992.Measurement of Image Velocity. Kluwer Academic Publishers: Norwell, MA. (10.1007/978-1-4615-3648-2) / Measurement of Image Velocity by D.J. Fleet (1992)
  21. Fleet, D.J., and Jepson, A.D. 1990. Computation of component image velocity from local phase information,Intern. J. Comput. Vis. 5: 77?104. (10.1007/BF00056772) / Intern. J. Comput. Vis. by D.J. Fleet (1990)
  22. Fleet, D.J., and Jepson, A.D. 1993. Stability of phase information,IEEE Trans. Patt. Anal. Mach. Intell. (in press). (10.1109/34.250844)
  23. Fleet, D.J., and Langley, K. 1993. Toward real-time optical flow,Proc. Vision Interface, Toronto, pp. 116?124 (also see Tech. Rept.: RPL-TR-9308, Robotics and Perception Laboratory, Queen's University).
  24. Girosi, F., Verri, A., and Torre, V. 1989. Constraints for the computation of optical flow,Proc. IEEE Workshop on Visual Motion, Irvine, pp. 116?124. (10.1109/WVM.1989.47101)
  25. Glazer, F., Reynolds, G., and Anandan, P. 1983. Scene matching through hierarchical correlation,Proc. Conf. Comput. Vis. Patt. Recog., Washington, pp. 432?441.
  26. Grzywacz, N.M., and Yuille, A.L. 1990. A model for the estimation of local image velocity by cells in the visual cortex,Proc. Roy. Soc. London B 239: 129?161. (10.1098/rspb.1990.0012) / Proc. Roy. Soc. London B by N.M. Grzywacz (1990)
  27. Haglund, L. 1992. Adaptive Multidimensional Filtering. Ph.D. dissertation, Dept. Electrical Engineering, Univ. of Linkoping (ISSN 0345-7524).
  28. Heeger, D.J. 1987. Model for the extraction of image flow,J. Opt. Soc. Amer. A 4: 1455?1471. (10.1364/JOSAA.4.001455) / J. Opt. Soc. Amer. A by D.J. Heeger (1987)
  29. Heeger, D.J. 1988. Optical flow using spatiotemporal filters,Intern. J. Comput. Vis. 1: 279?302. (10.1007/BF00133568) / Intern. J. Comput. Vis. by D.J. Heeger (1988)
  30. Hildreth, E.C. 1984. The computation of the velocity field,Proc. Roy. Soc. London B 221: 189?220. (10.1098/rspb.1984.0030) / Proc. Roy. Soc. London B by E.C. Hildreth (1984)
  31. Horn, B.K.P. 1986.Robot Vision. MIT Press: Cambridge, MA. / Robot Vision by B.K.P. Horn (1986)
  32. Horn, B.K.P., and Schunck, B.G. 1981. Determining optical flow,Artificial Intelligence 17: 185?204. (10.1016/0004-3702(81)90024-2) / Artificial Intelligence by B.K.P. Horn (1981)
  33. Horn, B.K.P., and Weldon, Jr., E.J. 1988. Direct methods for recovering motion,Intern. J. Comput. Vis. 2: 51?76. (10.1007/BF00836281) / Intern. J. Comput. Vis. by B.K.P. Horn (1988)
  34. Jahne, B. 1987. Image sequence analysis of complex physical objects: nonlinear small scale water surface waves,Proc. 1st Intern. Conf. Comput. Vis., London, pp. 191?200.
  35. Jepson, A.D., and Fleet, D.J. 1991. Phase singularities in scale-space,Image Vis. Comput. 9: 338?343. (10.1016/0262-8856(91)90039-R) / Image Vis. Comput. by A.D. Jepson (1991)
  36. Jepson, A.D., and Heeger, D.J. 1990. Subspace methods for recovering rigid motion II: Theory, Tech. Rept. RBCV-TR-90-36, Dept. of Computer Science, University of Western Ontario. (To appear inInt. J. Comput. Vis.).
  37. Kearney, J.K., Thompson, W.B., and Boley, D.L. 1987. Optical flow estimation: An error analysis of gradient-based methods with local optimization,IEEE Trans. Patt. Anal. Artif. Mach. Intell. 9:229?244. (10.1109/TPAMI.1987.4767897) / IEEE Trans. Patt. Anal. Artif. Mach. Intell. by J.K. Kearney (1987)
  38. Little, J.J., and Verri, A. 1989. Analysis of differential and matching methods for optical flow,IEEE Workshop on Visual Motion, Irvine, CA, pp. 173?180. (10.1109/WVM.1989.47107)
  39. Little, J.J., Bulthoff, H.H., and Poggio, T.A. 1988. Parallel optical flow using local voting.Proc. 2nd Intern. Conf. Comput. Vis., Tampa, pp. 454?459. (10.1109/CCV.1988.590023)
  40. Lucas, B.D. 1984. Generalized Image Matching by the Method of Differences. Ph.D. dissertation, Dept. of Computer Science, Carnegie-Mellon University.
  41. Lucas, B., and Kanade, T. 1981. An iterative image registration technique with an application to stereo vision.Proc. DARPA Image Understanding Workshop, pp. 121?130.
  42. Marr, D., and Hildreth, E.C. 1980. Theory of edge detection,Proc. Roy. Soc. London, B 207: 187?217. (10.1098/rspb.1980.0020) / Proc. Roy. Soc. London, B by D. Marr (1980)
  43. Nagel, H.H. 1983. Displacement vectors derived from second-order intensity variations in image sequences,Comput. Graph. Image Process. 21: 85?117. (10.1016/S0734-189X(83)80030-9) / Comput. Graph. Image Process. by H.H. Nagel (1983)
  44. Nagel, H.-H. 1987. On the estimation of optical flow: Relations between different approaches and some new results,Artificial Intelligence 33: 299?324. (10.1016/0004-3702(87)90041-5) / Artificial Intelligence by H.-H. Nagel (1987)
  45. Nagel, H.-H. 1989. On a constraint equation for the estimation of displacement rates in image sequences,IEEE Trans. Patt. Anal. Mach. Intell. 11: 13?30. (10.1109/34.23110) / IEEE Trans. Patt. Anal. Mach. Intell. by H.-H. Nagel (1989)
  46. Nagel, H.H., and Enkelmann, W. 1986. An investigation of smoothness constraints for the estimation of displacement vector fields from image sequences.IEEE Trans. Patt. Anal. Mach. Intell. 8: 565?593. (10.1109/TPAMI.1986.4767833) / IEEE Trans. Patt. Anal. Mach. Intell. by H.H. Nagel (1986)
  47. Negahdaripour, S., and Horn, B.K.P. 1987. Direct passive navigation,IEEE Trans. Patt. Anal. Mach. Intell. 9: 168?176. (10.1109/TPAMI.1987.4767884) / IEEE Trans. Patt. Anal. Mach. Intell. by S. Negahdaripour (1987)
  48. Santen, J.P.H. van, and Sperling, G. 1985. Elaborated Reichardt detectors,J. Opt. Soc. Amer. A 2: 300?321. (10.1364/JOSAA.2.000300) / J. Opt. Soc. Amer. A by J.P.H. Santen van (1985)
  49. Schunck, B.G. 1984. The motion constraint equation for optical flow,Proc. 7th Intern. Conf. Patt. Recog., Montreal, pp. 20?22.
  50. Schunck, B.G. 1986. Image flow continuity equations for motion and density,Proc. IEEE Workshop on Visual Motion, Charleston, pp. 89?94.
  51. Simoncelli, E.P. 1993. Distributed Representation and Analysis of Visual Motion. Ph.D. dissertation, Dept. of Electrical Engineering and Computer Science, MIT.
  52. Simoncelli, E.P., Adelson, E.H., and Heeger, D.J. 1991. Probability distributions of optical flow.Proc. Conf. Comput. Vis. Patt. Recog., Maui, pp. 310?315. (10.1109/CVPR.1991.139707)
  53. Singh, A. 1990. An estimation-theoretic framework for image-flow computation,Proc. 3rd Intern. Conf. Comput. Vis., Osaka, pp. 168?177. (10.1109/ICCV.1990.139516)
  54. Singh, A. 1992.Optic Flow Computation: A Unified Perspective. IEEE Computer Society Press.
  55. Tistarelli, M., and Sandini, G. 1990. Estimation of depth from motion using anthropomorphic visual sensor,Image Vis. Comput. 8: 271?278. (10.1016/0262-8856(90)80003-C) / Image Vis. Comput. by M. Tistarelli (1990)
  56. Tretiak, O., and Pastor, L. 1984. Velocity estimation from image sequences with second order differential operators,Proc. 7th Intern. Conf. Patt. Recog., Montreal, pp. 20?22.
  57. Uras, S., Girosi, F., Verri, A., and Torre, V. 1988. A computational approach to motion perception,Biol. Cybern. 60: 79?97. (10.1007/BF00202895) / Biol. Cybern. by S. Uras (1988)
  58. Verri, A., and Poggio, T. 1987. Against quantitative optical flow,Proc. 1st Intern. Conf. Comput. Vis., London, pp. 171?180.
  59. Watson, A.B., and Ahumada, A.J. 1985. Model of human visual-motion sensing,J. Opt. Soc. Amer. A 2: 322?342. (10.1364/JOSAA.2.000322) / J. Opt. Soc. Amer. A by A.B. Watson (1985)
  60. Waxman, A.M., and Wohn, K. 1985. Contour evolution, neighbourhood deformation and global image flow: Planar surfaces in motion, Intern.J. Robotics Res. 4: 95?108. (10.1177/027836498500400307) / J. Robotics Res. by A.M. Waxman (1985)
  61. Waxman, A.M., Wu, J., and Bergholm, F. 1988. Convected activation profiles and receptive fields for real time measurement of short range visual motion,Proc. Conf. Comput. Vis. Patt. Recog., Ann Arbor, pp. 771?723.
  62. Willick, D., and Yang, Y.H. 1991. Experimental evaluation of motion constraints equations.Comput. Vis. Graph. Image Process.: Image Understanding 54: 206?214. (10.1016/1049-9660(91)90063-U) / Comput. Vis. Graph. Image Process.: Image Understanding by D. Willick (1991)
Dates
Type When
Created 20 years, 4 months ago (April 11, 2005, 4:18 p.m.)
Deposited 6 years, 3 months ago (May 2, 2019, 1:22 p.m.)
Indexed 7 minutes ago (Aug. 28, 2025, 3:28 a.m.)
Issued 31 years, 6 months ago (Feb. 1, 1994)
Published 31 years, 6 months ago (Feb. 1, 1994)
Published Print 31 years, 6 months ago (Feb. 1, 1994)
Funders 0

None

@article{Barron_1994, title={Performance of optical flow techniques}, volume={12}, ISSN={1573-1405}, url={http://dx.doi.org/10.1007/bf01420984}, DOI={10.1007/bf01420984}, number={1}, journal={International Journal of Computer Vision}, publisher={Springer Science and Business Media LLC}, author={Barron, J. L. and Fleet, D. J. and Beauchemin, S. S.}, year={1994}, month=feb, pages={43–77} }