Steve
Zucker Computational Vision Group
Professor Steven W. Zucker
The Department of Computer Science
The Department of Electrical Engineering
Applied Mathematics Program
Interdepartmental Neuroscience Program
Center for Computational Vision and Control
Research
People
Publications
Contact
Publications (full list)

Publications available for download are here.

  1. 2002
    1. K. Siddiqi, S. Bouix, A. R. Tannenbaum and S.W. Zucker, Hamilton-Jacobi Skeletons, Int. J. of Computer Vision, to appear, 2002.
    2. Zucker, S.W., Computing in Cortical Columns: Information Processing in Visual Cortex, in SENSORS AND SENSING IN BIOLOGY AND ENGINEERING, T. Newcomb and F. Barth (eds.), Springer, in press.
  2. 2001
    1. Siddiqi, K., Kimia, B., Tannenbaum, A., and Zucker, S.W., On the psychophysics of the shape triangle, Vision Research, 2001, 41(9), 1153 - 1178.
    2. Dubuc, B., and Zucker, S.W., Complexity, Confusion, and Perceptual Grouping. Part I: the curve like representation, Int. J. of Computer Vision, 2001, 42(1/2), 55-82; reprinted in J. Math. Imaging and Vision, 2001, 15 (1/2), `55 - 82.
    3. Dubuc, B., and Zucker, S.W., Complexity, Confusion, and Perceptual Grouping. Part II: mapping complexity. Int. J. of Computer Vision, 2001, 42(1/2), 83-115; reprinted in J. Math. Imaging and Vision, 2001, 15 (1/2), 83 - 115.
    4. Chen, H., Huggins, P.S., Belhumeur, P., and Zucker, S.W., Photometric Statistics of Occlusion Edges, The Learning Workshop, Snowbird, Utah, April 10-13 2001.
    5. M. Pelillo, K. Siddiqi, and S. W. Zucker, Many-to-many matching of attributed trees using association graphs and game dynamics, Proc. Fourth Int. Workshop on Visual Form, Capri, May 2001; C. Arcelli, L. Cordella, and G. Sanniti di Baja (eds), Visual Form 2001, LNCS 2059, Springer, New York, 583 - 593.
    6. P. Huggins and S.W. Zucker, How folds cut a scene, Proc. Fourth Int. Workshop on Visual Form, Capri, May 2001. C. Arcelli, L. Cordella, and G. Sanniti di Baja (eds), visual Form 2001, LNCS 2059, Springer, New York, 323 - 332.
    7. Zucker, S.W., Which Computation Runs in Visual Cortical Columns?, in Problems in Systems Neuroscience, J. Leo van Hemmen and T. J. Sejnowski (eds.), Oxford University Press, 2001.
    8. Zucker, S.W., Relaxation labeling: 25 years and still iterating, in Foundations of Image Understanding, L. S. Davis (ed.), Kluwer Academic Publ, Boston, 2001, 289 - 322.
    9. J. August and S.W. Zucker, A field model for contour organization and partial differential equations, Proc. Third Workshop on Perceptual Organization in Computer Vision Vancouver, 8 July 2001, 1-1 - 1-4.
    10. O. Ben-Shahar and S.W. Zucker, Flowing Toward Coherence: On the geometry of texture and shading flows, Proc. Third Workshop on Perceptual Organization in Computer Vision Vancouver, 8 July 2001, 5-1 - 5-4.
    11. P.S. Huggins and S.W. Zucker, Folds and Cuts: How shading flows into edges Proc. Eigth International Conf. on Computer Vision, vol. II, 153 - 158.
    12. J. August and S.W. Zucker, A generative model for image contours: a completely characterized non-Gaussian joint distribution, Second International Workshop on Statistical and Computational Theories of Vision, Vancouver, Canada, July 13, 2001.
    13. J. August and S.W. Zucker, A Markov process using curvature for filtering curve images, EMMCVPR 2001, Energy Minimization Methods in Computer Vision and Pattern Recognition, Sophia Antipolis, France, Sept. 2001; M.A.T. Figueiredo, J. Zerubia, and A.K. Jain (eds.), LNCS 2134, Springer-Verlag, 497 - 512.
    14. O. Ben-Shahar and S.W. Zucker, On the Perceptual Organization of Texture and Shading Flows: From a Geometrical Model to Coherence Computation, Proc. IEEE Conf. on Computer Vision and Pattern Recognition, CVPR01, Dec, 2001, Kauai, Hawaii.
    15. Huggins, P.S., Chen, H., Belhumeur, P., and Zucker, S.W., Finding folds: on the appearance and identification of occlusion Proc. IEEE Conf. on Computer Vision and Pattern Recognition, CVPR01, Dec, 2001, Kauai, Hawaii.
  3. 2000
    1. Miller, D. A. and S. W. Zucker. Cliques, Computation, and Computational Tractability. Pattern Recognition, 2000, 33, 535 - 542.
    2. Zucker, S.W., Computing in Cortical Columns: Curve inference and stereo correspondence, in S.-W. Lee, H. Bulthoff, and T. Poggio (eds), Biologically Motivated Computer Vision, Lecture Notes in Computer Science 1811, Springer, May, 2000, 189 - 208.
    3. Alibhai, S., and Zucker, S., Contour-based correspondence for stereo, Computer Vision - ECCV 2000, D. Vernon (ed.), Lecture Notes in Computer Science 1842, Springer, June, 2000, 314 - 330.
    4. Pelillo, M., Siddiqi, K., and Zucker, S.W., Continuous-based heuristics for graph and tree isomorphisms, with application to computer vision, in P. M. Pardalos, ed., Approximation and Complexity in Numerical Optimization: Continuous and Discrete Problems, Kluwer Academic Publishers, 2000.
    5. August, J., and Zucker, S.W., The curve indicator random field: Curve organization via edge correlation, in K. Boyer and S. Sarkar (eds.), Perceptual Organization for Artificial Vision Systems, Kluwer Academic Publishers, 2000.
    6. Bartoli, M., Pelillo, M., Siddiqi, K., and Zucker, S.W., Attributed tree homomorphism using association graphs, Proc. International Conference on Pattern Recognition, Spain, September, 2000.
  4. 1999
    1. Siddiqi, K., Kimia, B., Tannenbaum, A., and Zucker, S.W., Shapes, shocks, and wiggles, Image and Vision Computing, (17)5-6, 1999, 365-373.
    2. Miller, D., and Zucker, S.W., Computing with Self-Excitatory Cliques: A Model and An Application to Hyperacuity-scale Computation in Visual Cortex, Neural Computation, 1999, 11(1), 21-66. K. Siddiqi, A. Shokoufandeh, S. Dickinson, and S. W. Zucker. Shock Graphs and Shape Matching. International Journal of Computer Vision, 1999, 35(1), 13 - 32.
    3. M. Pelillo, K. Siddiqi, and S. W. Zucker. Matching hierarchical structures using association graphs, IEEE Trans. Pattern Analysis and Machine Intelligence, 1999, 21(11), 1105 - 1119.
    4. J. August, K. Siddiqi and S. W. Zucker. Ligature Instabilities in the Perceptual Organization of Shape. Computer Vision and Image Understanding, 1999, 76(3), 231 - 243.
    5. J. August, K. Siddiqi and S. W. Zucker. Contour Fragment Grouping and Shared, Simple Occluders. Computer Vision and Image Understanding, 1999, 76(2), 146 - 162.
    6. M. Pelillo, K. Siddiqi, and S. W. Zucker. Continuous-based heuristics for graph and tree isomorphism, with application to computer vision. Conference on Approximation and Complexity in Numerical Optimization: Continuous and Discrete Problems, University of Florida, Center for Applied Optimization, 28 Feb - 2 Mar, 1999.
    7. Siddiqi, K., Kimia, B., Tannenbaum, A., and Zucker, S.W., Categorical features in shape perception, Annual Meeting, Association for Research in Vision and Opthalmology (ARVO), Fort Lauderdale, FL., May, 1999.; Investigative Opth. and Vis. Science, 40(4), S399.
    8. August, J., Siddiqi, K., and Zucker, S.W., Ligature instabilities in the perceptual organization of shape, CVPR'99 (IEEE Computer Society Conference on Computer Vision and Pattern Recognition, Colorado Springs, to appear.
    9. A. Shokoufandeh, S. Dickinson, K. Siddiqi, and S. W. Zucker. Indexing using a spectral encoding of topological structure, CVPR'99 (IEEE Computer Society Conference on Computer Vision and Pattern Recognition, Colorado Springs, to appear.
    10. S. Zucker, Complexity and confusion in computational vision, Proc. $11^{th}$ Scandanavian Conference on Image Analysis, Kangerlussuaq, Greenland, June, 1999, 1 - 10.
    11. M. Pelillo, K. Siddiqi, and S. W. Zucker, Attributed tree matching and maximum weight cliques, Proc. ICIAP'99-10th Int. Conf. on Image Analysis and Processing, IEEE Computer Society Press, 1999.
    12. K. Siddiqi, A. Tannenbaum, and S. W. Zucker, A Hamiltonian approach to the Eikonal equation, EMMCVPR'99 York, U.K., 1999; in Pelillo, M., and Hancock, E., (eds.), Energy Minimization Methods in Computer Vision and Pattern Recognition, Lecture Notes in Computer Science, Springer Verlag, to appear.
    13. August, J., Tannenbaum, A., and Zucker, S. W., On the evolution of the skeleton, Proc. International Conference on Computer Vision, Corfu, 1999, 315 - 322.
    14. Siddiqi, K., Bouix, S., Tannenbaum, A., and Zucker, S.W., The Hamilton-Jacobi skeleton, Proc. International Conference on Computer Vision, Corfu, 1999, 828 - 834.
    15. August, J., and Zucker, S.W., Organizing curve elements with an indicator random field on the (unit) tangent bundle, IEEE-NSF Workshop on Perceptual Organization in Computer Vision, Corfu, Greece, Sept. 1999.
    16. Bartoli, M., Pelillo, M., Siddiqi, K., and Zucker, S.W., Attributed tree homomorphism using association graphs IEEE Workshop on Graph Theory and Computer Vision, Corfu, Greece, Sept., 1999.
    17. M. Pelillo, K. Siddiqi, and S. W. Zucker, Attributed tree matching and maximum weight cliques, Proc. ICIAP'99-10th Int. Conf. on Image Analysis and Processing, IEEE Computer Society Press, 1999.
  5. 1998
    1. Elder, J., and Zucker, S.W., Local Scale Control for Edge Detection and Blur Estimation, IEEE Trans. Pattern Analysis and Machine Intelligence, 1998, bf 20(7), 699 - 716. K. Siddiqi, Y. Berube, A. Tannenbaum, and S. W. Zucker. Area and Length Minimizing Flows for Shape Segmentation. IEEE Transactions on Image Processing, 1998, 7(3), 433 - 443.
    2. Elder, J., and Zucker, S.W., Evidence for boundary-specific grouping in human vision, Vision Research, 1998, 38(1), 143 - 152.
    3. K. Siddiqi, A. Shokoufandeh, S. Dickinson, and S. W. Zucker. Shock Graphs and Shape Matching. Proc. International Conference on Computer Vision, Bombay, 1998. K. Siddiqi, A. Tannenbaum, and S. W. Zucker. Hyperbolic ``Smoothing'' of Shapes. Proc. International Conference on Computer Vision, Bombay, 1998.
    4. M. Pelillo, K. Siddiqi, and S. W. Zucker. Matching hierarchical structures using association graphs, Proc. European Conf. on Computer Vision, Freiburg, 1998; Lecture Notes in Computer Science, 1407, 3 - 16.
    5. August, J., Siddiqi, K., and Zucker, S.W.. Duality in Perceptual Organization: Grouping vs. shape decomposition, IEEE Workshop on Perceptual Organization, Santa Barbara, CA, June, 1998.
    6. Zucker, S.W., Shapes, Shock Graphs, Matching, and Perception, Proc. 1998 Symposium on Imge, Speech, Signal Processing, and Robotics, vol. 1,, Hong Kong, Sept 3-4, 1998, 129 - 148.
  6. 1990-1997
    1. Sander, P., and Zucker, S.W., Inferring surface trace and differential structure from 3-D images, IEEE Trans. Pattern Analysis and Machine Intelligence, 1990, 9, 833 - 854.
    2. Zucker, S.W., Adaptation and attention, Behav. and Brain Sciences, 1990, 13, 458.
    3. Zucker. S.W., Iverson, L., and Hummel, R., Coherent compound motion: Corners and non-rigid configurations, Neural Computation, 1990, 2, 44 - 57.
    4. David, C., and Zucker, S.W., Potentials, valleys, and dynamic global coverings, Int. J. Computer Vision, 1990, 5, 219 - 238.
    5. Zucker, S.W., Iverson, L., and Dobbins, A., On the neural computations of curve detection, in R. Eckmiller (ed.) Advanced Neural Computers, Elsevier Science Publ., 1990.
    6. Allman, J., and Zucker, S.W., Cytochrome oxidase and functional coding in primate striate cortex: An hypothesis, Cold Spring Harbor Symp. Quant. Biology, 1990, 55, 979 - 982.
    7. David, C., and Zucker, S.W., Computing global coverings, in Proc. SPIE/SPSE Symposium on Electronic Imaging: Curves and Surfaces in Computer Vision and Graphics, Santa Clara, CA, Feb., 1990.
    8. Kimia, B., Tannenbaum, A., and Zucker, S.W., Toward a computational theory of shape: An overview, Proc. $1^{st}$ European Conf. on Computer Vision, Antibes, France, April, 1990. O. Faugeras (ed.), Lecture Notes in Computer Science, 427, Springer Verlag, New York.
    9. Sander, P., and Zucker, S.W., Charting surface structure, Proc. $1^{st}$ European Conf. on Computer Vision, Antibes, France, April, 1990. O. Faugeras (ed.), Lecture Notes in Computer Science, 427, Springer Verlag, New York.
    10. Zucker, S.W., Iverson, L., and Dobbins, A., On the neural computations underlying curve detection, Neural Networks for Sensory and Motor Systems, Dusseldorf, March, 1990.
    11. Dobbins, A., Iverson, L., and Zucker, S.W., A logical/linear model of cortical subunit interaction, Annual Meeting, The Association for Research in Vision and Opthalamology (ARVO), Florida, April, 1990.
    12. Dobbins, A., Zucker, S.W., and Cynader, M., A mean field model of optic flow by MT neurons, 20$^{th}$ Annual Meeting of the Society for Neuroscience, 1990.
    13. Zucker, S.W., Dobbins, A., and Iverson, L., On the computational neurobiology of curve detection, Proc. British Machine Vision Conf., Oxford, Sept., 1990.
    14. Kimia, B., Tannenbaum, A., and Zucker, S.W., A conservation-minded approach to shape, Proc. IEEE Conf. on Intelligent Control, Philadelphia, 1990.
    15. Miller, D., and Zucker, S.W., Copositive-plus Lemke algorithm solves linear n-person games, Operations Research Letters, 1991, 10, 285 - 290.
    16. Norman, J.F., Lappin, J., and Zucker, S.W., The discriminability of stereoscopic surface structure, Perception, 1991, 20, 789 - 807.
    17. Miller, D., and Zucker, S.W., Complexity and optimality, Behav. and Brain Sciences, 1991, 14, 227 - 228.
    18. Dobbins, A., Iverson, L., and Zucker, S.W., A mean field model of optic flow estimation, Annual Meeting, The Association for Research in Vision and Opthalamology (ARVO), Florida, April, 1990; Investigative Opth. and Vis. Science, 32, 1991, p. 823.
    19. Elder, J., and Zucker, S.W., The importance of closure in visual search, Annual Meeting, The Association for Research in Vision and Opthalamology (ARVO), Florida, April, 1990; Investigative Opth. and Vis. Science, 32, 1991, p. 715.
    20. Kimia, B., Tannenbaum, A., and Zucker, S.W., Entropy scale space, The International Workshop on Visual Form, Capri, June, 1991, Plenum, 333 - 344.
    21. Miller, D., and Zucker, S.W., On the complexity of computing equilibria for non-symmetric analog networks, Proc. International Joint Conf. on Neural Networks, vol. II, Seattle, July, 1991, pp. 313 - 320.
    22. Miller, D., and Zucker, S.W., Efficient simplex-like methods for equilibria of nonsymmetric analog networks, Neural Computation, 1992, 4(2), 167 - 190.
    23. Sander, P., and Zucker, S.W., Singularities of principal direction fields from 3-D images, IEEE Trans. Pattern Analysis and Machine Intelligence, 1992, 1(3), 309 - 317.
    24. Kimia, B., Tannenbaum, A., and Zucker, S.W., On the evolution of curves via a function of curvature, 1: The classical case, J. Mathematical Analysis and Application, 1992, 163(2), 438 - 458.
    25. Breton, P., Iverson, L., Langer, M., and Zucker, S.W., Shading Flows and Scenel Bundles: A new approach to shape from shading, Second European Conference on Computer Vision, in S. Sandini (ed.), Computer Vision - ECCV92, Springer Verlag, 135 - 150.
    26. Miller, D., and Zucker, S.W., A Turing-tractable model of computation for nonsymmetric analog networks, Snowbird Workshop on Neural Computing, April, 1992.
    27. Langer, M., and Zucker, S.W., Qualitative shape from active shading, Proc. IEEE Conf. on Computer Vision and Pattern Recognition, 1992, Champaign, Il, 713 - 715.
    28. Zucker, S.W., Iverson, L., and Dobbins, A., Connectionism and the Computational Neurobiology of Curve Detection, in S. Davis (ed.) Connectionism: Theory and Practice, Oxford University Press, 1992, 277 - 296.
    29. Breton, P., Iverson, L., Langer, M., and Zucker, S.W., Shading Flows and Scenel Bundles: A new approach to shape from shading, in G. Carpenter and S. Grossberg (eds.), Neural Networks for Vision and Image Processing, MITPress, Cambridge, MA, 1992, 111 - 132.
    30. Elder, J., and Zucker, S.W., Contour closure and the perception of shape, Annual Meeting, The Association for Research in Vision and Opthalamology (ARVO), Florida, April, 1992; Investigative Opth. and Vis. Science, 33(4), 1992, p. 960.
    31. Kimia, B., Tannenbaum, A., and Zucker, S.W., Nato Advanced Research Workshop on Shape in Picture, Driebergen, The Netherlands, Sept. 1992.
    32. Kimia, B., and Zucker, S.W., Symbolic inverse to Gaussian Blur, Optical Engineering, 1993, 32(1), 166 - 176.
    33. Elder, J., and Zucker, S.W., Contour closure and the perception of shape, Vision Research, 1993, 33(7), 981 - 991.
    34. Zucker, S.W., Endowing AI with Vision: A biological and computational perspective, Current Science, 1993, 64(6), 407 - 418.
    35. Langer, M., and Zucker, S.W., Diffuse Shading, Visibility Fields, and the Geometry of Ambient Light, Proc. Fourth Int. Conf. on Computer Vision, Berlin, 1993, 138 - 147.
    36. Zucker, S.W., Jones, D., and Yeshurun, H., Random dot Moiré stereograms indicate a distributed code for orientation and disparity, Annual Meeting, The Association for Research in Vision and Opthalamology (ARVO), Florida, May, 1993; Investigative Opth. and Vis. Science, 1439.
    37. Allman, J., and Zucker, S.W., On cytochrome oxidase blobs in visual cortex,, in Harris, L., and Jenkin, M. (eds.), Spatial Vision for Humans and Robots, Cambridge University Press, New York, 1993, 33 - 39.
    38. Miller, D., and Zucker, S.W., Analog models of visual cortex and the number of storable states: A basis for hypteracuity, Snowbird Workshop on Neural Computing, April, 1993, 17.
    39. Kimia, B., Tannenbaum, A., and Zucker, S.W., Non-linear shape approximation via the entropy scale space, Proc. SPIE Conf. on Geometric Methods in Computer Vision, II, San Diego, July, 1993, vol. 2031, 218 - 233.
    40. Jones, D., and Zucker, S.W., A distributed code for disparity and orientation, Proc. NATO Advanced Research Workshop on Binocular Stereopsis and Optic Flow, York University, Toronto, June, 1993.
    41. Zucker, S.W., Iverson, L., and Dobbins, A., >From curve detection to shape description, in A. Basu and X. Li (eds.), Computer Vision: systems, theory, and applications, World Scientific, Singapore, 1993, 25 - 40.
    42. Langer, M., and Zucker, S.W., Shape from Shading on a cloudy day, J. Opt. Soc. Am., A, 1994, 11(2), 467 - 478.
    43. Dubuc, B., Zucker, S.W., and Stryker, M., Complexity Maps Reveal Clusters in Neuronal Arborizations, Fractals, 2(6), 1994, 2(2), 297 - 301.
    44. Kimia, B., Tannenbaum, A., and Zucker, S.W., On the shape triangle, in C. Arcelli, L. Cordella, and G. Sanniti di Baja (eds), Aspects of Visual Form Processing, 1994, World Scientific, Singapore, 307 - 323.
    45. Elder, J., and Zucker, S.W., A measure of closure, Vision Research, 34, 1994, 3361 - 3370.
    46. Langer, M.S., and Zucker, S.W., Spatially varying illumination: A computational model of converging and diverging sources, Proc. Third European Conf. on Computer Vision, Stockholm, 1994; in J.-O. Eklundh (ed.), Computer Vision - ECCV '94, Springer-Verlag, New York, 1994, 227 - 232.
    47. Kimia, B., Tannenbaum, A., and Zucker, S.W., On Optimal Control Methods in Computer Vision and Image Processing, in B. ter Haar Romeny (ed.) Geometry-Driven Diffusion in Computer Vision, Kluwer, 1994, 307 - 338.
    48. Kimia, B., Tannenbaum, A., and Zucker, S.W., Exploring the shape manifold: the role of conservation laws, in Ying-Lie, O., Toet, A., Foster, D., Heijmans, H., and Meer, P. (eds), Shape in Picture, Springer-verlag, 1994, 601 - 620.
    49. Dubuc, B., Zucker, S.W., and Stryker, M., Complexity Maps Reveal Clusters in Neuronal Arborizations, Fractals in Engineering '94, Montreal, June 1-4, 1994,
    50. Dubuc, B., and Zucker, S.W., Curve-like Sets, Normal Complexity, and Representation, International Conf. on Pattern Recognition, Jerusalem, 1994, A 216 - 221.
    51. Kimia, B., Tannenbaum, A., and Zucker, S.W., Shapes, shocks, and deformations, I, Int. J. Computer Vision, 15, 1995, 189 - 224.
    52. Iverson, L., and Zucker, S.W., Logical/linear operators for image curves, IEEE Trans. Pattern Analysis and Machine Intelligence, 17(10), 1995, 982 - 996.
    53. Breton, P., and Zucker, S.W., Contours, Shading Flows, and Generalized Shape from Shading, Proc. Vision Interface 95, Quebec City, Canada, May, 1995, 71 - 80.
    54. Zucker, S.W., Perceptual Grouping, in Arbib, M. (ed.) Handbook of Brain Theory and Neural Networks, MIT Press, Cambridge, 1995, 725 - 727.
    55. Zucker, S.W., Visual Computations and Dot Clusters, in I. Cox and B. Julesz (eds.), Partitioning Data Sets, American Mathematical Society, Providence, 1995, 391 - 408.
    56. Dubuc, B., and Zucker, S.W., La Carte Complexité et son Impact sur le Choix de Représentation, Proc. Vision Interface 95, Quebec City, Canada, May, 1995, 186 - 194. Awarded Best Paper Prize.
    57. Langer, M.S., Breton, P., and Zucker, S.W., Massively Parallel Radiosity in the Presence of Multiple Isotropic Volume Scattering, Proc. Graphics Interface 95, Quebec City, Canada, May, 1995, 103 - 108.
    58. Elder, J., and Zucker, S.W. Scale-space surfaces and blur estimation, Proc. Vision Interface 95, Quebec City, Canada, May, 1995, 140 - 147. Awarded Best Paper Prize.
    59. Dubuc, B., and Zucker, S.W., Indexing visual representations through the complexity map, Proc. Fifth International Conf. on Computer Vision, Cambridge, MA, June, 1995.
    60. Langer, M., and Zucker, S.W., A ray-based computational model of light sources and illumination, IEEE Workshop on Physics-Based Modeling, MIT, Cambridge, MA, June, 1995, 93 - 99.
    61. Elder, J., and Zucker, The local character of generalized luminance transitions, Annual Meeting, Association for Research in Vision and Opthalmology (ARVO), Fort Lauderdale, FL., May, 1995.; Investigative Opth. and Vis. Science, 36(4), 1995, p. S836.
    62. Langer, M., Dudek, G., and Zucker, S.W., Space occupancy using multiple shadow images, IROS 95, IEEE/RSJ Int. Conf. on Intelligent Robots and Systems, 390 - 396, Pittsburgh, PA, August, 1995.
    63. Elder, J., and Zucker, S.W. Shadows, defocus, and reliable estimation, CAIP '95, Prague, September, 1995; in V. Hlavac and R. Sara (eds.), Computer Analysis of Images and Patterns, Lecture Notes in Computer Science 970, Springer Verlag, 318 - 325, 1995.
    64. Dubuc, B., and Zucker, S.W., A complexity space for curve grouping, CAIP '95, Prague, September, 1995; in V. Hlavac and R. Sara (eds.), Computer Analysis of Images and Patterns, Lecture Notes in Computer Science 970, Springer Verlag, 33 - 40, 1995.
    65. Elder, J., and Zucker, S.W., Local scale control for edge detection and blur estimation, Proc. Fourth European Conf. on Computer Vision, Cambridge, U.K., 1996; in Buxton, B., and Cipolla, R. (eds), Computer Vision - ECCV '96, Springer, 1996, vol. 2, 57 - 69.
    66. Langer, M., and Zucker, S.W., Part Boundaries from Active Shading, in M. Landy, M. Pavel and L. Malony (eds) Exploratory Vision: The active eye, Springer Verlag, New York, 1996, 191 - 201.
    67. Elder, J., and Zucker, S.W., Computing Contour Closure, Proc. Fourth European Conf. on Computer Vision, Cambridge, U.K., 1996; in Buxton, B., and Cipolla, R. (eds), Computer Vision - ECCV '96, Springer, 1996, vol. 1, 399 - 412.
    68. Elder, J., and Zucker, S.W., The computation of closed bounding contours, Proc. Vision Interface 96, Toronto, May 21-24, 1996.
    69. Breton, P., and Zucker, S.W., Shadows and Shading Flow Fields, Proc. IEEE Conf. on Computer Vision and Pattern Recognition - CVPR '96, San Francisco, CA, June, 1996, 782 - 789.
    70. Elder, J., and Zucker, S.W., Precision, Blur, and the perceptual content of a contour code, Proc. IEEE Conf. on Computer Vision and Pattern Recognition - CVPR '96, San Francisco, CA, June, 1996.
    71. Zucker, S.W., Structural scales in computational vision, in K. Boyer and N. Ahuja (eds), Advances in Computer Vision, 1996, IEEE Computer Society Press.
    72. August, J., Siddiqi, K., and Zucker, S.W., Fragment grouping via the principle of perceptual occlusion, International Conference on Pattern Recognition, Vienna, August, 1996.
    73. K. Siddiqi, Y. Berube, A. Tannenbaum, and S. W. Zucker. Area and Length Minimizing Flows for Shape Segmentation. CVPR'97 (IEEE Computer Society Conference on Computer Vision and Pattern Recognition, San Juan, Puerto Rico, June 17-19, 1997), 1997.
    74. Langer, M.S., and Zucker, S.W., What is a light source?, CVPR'97 (IEEE Computer Society Conference on Computer Vision and Pattern Recognition, San Juan, Puerto Rico, June 17-19, 1997, 172 - 178; Siemens Outstanding Paper Award.
    75. K. Siddiqi, Y. Berube, A. Tannenbaum, and S. W. Zucker. Shape Perception, Shocks and Wiggles. In Third International Workshop on Visual Form, Capri, Italy, May, 1997.
    76. Miller, D., and Zucker, S.W., Reliable computation and related games, EMMCVPR'97, Venice, May, 1977; in Pelillo, M., and Hancock, E., (eds.), Energy Minimization Methods in Computer Vision and Pattern Recognition, Lecture Notes in Computer Science 1223, Springer Verlag, 3 - 18, 1997.
    77. Langer, M., and Zucker, S.W., Casting light on illumination: A computational model and dimensional analysis of sources, Computer Vision and Image Understanding, 65(2), 1997, 322 - 335.
    78. Siddiqi, K., Kimia, B., Tannenbaum, A., and Zucker, S.W., Shape perception, shocks, and wiggles in C. Arcelli, L. Cordella, and G. Sanniti di Baja (eds), Advances in Visual Form Processing, 1997,, World Scientific, Singapore, 549 - 558.
    79. Dubuc, B., and Zucker, S.W., Complexity, confusion, and perceptual grouping, in C. Arcelli, L. Cordella, and G. Sanniti di Baja (eds), Advances in Visual Form Processing, 1997,, World Scientific, Singapore, 150 - 160.
  7. 1980-1989
    1. Tsotsos, J.K., Mylopolous, J., Covvey, D., and Zucker, S.W., A framework for visual motion understanding, IEEE Trans. on Pattern Analysis and Machine Intelligence, PAMI-2, 1980, 563-573; reprinted in R. Kasturi and R. Jain (eds.), Computer Vision: Principles and Applications, IEEE Computer Society Press, (in press), 1990.
    2. Zucker, S.W., Computer vision, Third Conference of the Canadian Society for Computational Studies of Intelligence, Victoria, May, 1980.
    3. Zucker, S.W., Local Structure, consistency, and continuous relaxation, in R. Haralick and J.C. Simon (eds.), Digital Image Processing, Noordhoff International, Leyden, 1980.
    4. Zucker, S.W., and Terzopoulos, D., Finding structure in co-occurrence matrices for texture analysis, in A. Rosenfeld (ed.) Image Modeling, Academic Press, New York, 1980.
    5. Zucker, S.W., Cooperation and visual information processing, Proc. NATO Advanced Study Institute on Image Analysis, Bonas, France, June, 1980;
    6. Zucker. S. W., Aspects of visual perception relevant to radiologic diagnosis, Annual Meeting of the Canadian Association of Radiologists, Montreal, May, 1980.
    7. Ferrie, F., Levine, M.D., and Zucker, S.W., Cell tracking: a modeling and minimization approach, Proc. Fifth International Joint Conf. on Pattern Recognition, Miami, Fla., Dec., 1980.
    8. Terzopoulos, D., and Zucker, S.W., Detection of Osteogenesis Imperfecta by automated texture analysis, Proc. Fifth International Joint Conf. on Pattern Recognition, Miami, Fla., Dec., 1980.
    9. Zucker, S.W., and Terzopoulos, D., Finding structure in co-occurrence matrices for texture analysis, Computer Graphics and Image Processing, 1980, 12, 286-308.
    10. Hummel, R.A., and Zucker, S.W., On the foundations of relaxation labeling processes, Proc. Fifth International Joint Conf. on Pattern Recognition, Miami, Fla., Dec., 1980.
    11. Zucker, S.W., Functional architectures for cognition: Are simple inferences possible?, The Behavioral and Brain Sciences, 3, 1980, 153-154.
    12. Zucker, S. W., The computational/representational paradigm as normal science: further support, The Behavioral and Brain Sciences, 3, 1980, 406-407.
    13. Haralick, R., Mohammed, J., and Zucker, S., Compatibilities and the fixed points of arithmetic relaxation processes, Computer Graphics and Image Processing, 1980, 13, 242-256.
    14. Zucker, S.W., and Hummel, R.A., A 3-dimensional edge operator, IEEE Trans. Pattern Analysis and Machine Intelligence, 1981, PAMI-3, 324-331; reprinted in Digital Image Processing and Analysis: Vol. 2: Digital Image Analysis, IEEE Computer Society Press, Washington, D.C., 1985 and in A. Kaufman (ed.), Volume Visualization, IEEE Computer Society Press, in press, 1990.
    15. Zucker, S.W., Leclerc, Y.G., and Mohammed, J.L., Continuous Relaxation and local maxima selection: Conditions for equivalence, IEEE Trans. Pattern Analysis and Machine Intelligence, 1981, PAMI-3, 117-128.
    16. Zucker, S.W., Cooperation and visual information processing, in J. C. Simon and R. Haralick (eds.), Digital Image Processing, D. Reidel Publ. Co., Dordrecht, Holland, 1981.
    17. Pednault,E., Zucker,S., and Muresan,L., On the independence assumption underlying subjective Bayesian updating, Artificial Intelligence, 1981, 16, 213-222.
    18. Hubschman, H., and Zucker, S.W., Frame to frame coherence and the hidden surface computation: Constraints for a convex world, Computer Graphics, 1981, 15(3), 45-54.
    19. Leclerc, Y., Zucker, S., and Leclerc, D., A browsing approach to documenting documentation, Proc. Canadian Man-Machine Communications Conference, Ottawa, 1981.
    20. Hubschman, H., and Zucker, S.W., Frame to frame coherence and the hidden surface computation: Constraints for a convex world, Proc. SIGGRAPH 81, Dallas.
    21. Zucker,S.W., and Gupta, K.K., Multiple-level representations for texture discrimination, IEEE Conf. on Pattern Recognition and Image Processing, Dallas, August, 1981.
    22. Zucker, S.W., Computer vision and image processing, MICROS, 1981, 2, 23-24.
    23. Zucker, S.W., Computational and psychophysical experiments in grouping, Human-Machine Vision Workshop, Denver, August, 1981.
    24. Zucker, S.W., Computer vision and human perception: An essay on the discovery of constraints, Proc. Seventh Int. Joint Conf. on Artificial Intelligence, 1102 - 1116, Vancouver, August, 1981.
    25. Ferrie, F., Levine, M.D., and Zucker, S.W., Cell tracking: a modeling and minimization approach, IEEE Trans. Pattern Analysis and Machine Intelligence, 4, 1982, 277-291.
    26. Terzopoulos, D., and Zucker, S.W., Detection of Osteogenesis Imperfecta by automated texture analysis, Computer Graphics and Image Processing, 20, 1982, 229-243.
    27. Zucker, S.W., Cooperative grouping and early orientation selection, International Symposium on Physical and Biological Processing of Images, The Royal Society, London, Sept., 1982.
    28. Paton, K., and Zucker, S.W., Spatial pattern in sections of human muscle, Proc. International Conference on Pattern Recognition, Germany, October, 1982.
    29. Zucker, S.W., and Parent, P., Multiple size operators and optimal curve finding, Proc. International Conference on Pattern Recognition, Germany, October, 1982, 745 - 747.
    30. Zucker, S.W., Toward a theory of orientation selection and grouping, Proc. IEEE Workshop on Computer Vision: Representation and Control, New Hampshire, August, 1982.
    31. Zucker, S.W., and Parent, P., Curvature constraints from multiple-size asymmetric operators, NSF workshop on Multi-Resolution Image Processing and Analysis, Washington, D.C., July, 1982.
    32. Leclerc, Y., Zucker, S., and Leclerc, D., A browsing approach to documenting documentation, IEEE COMPUTER, 1982, 15(6), 46-49.
    33. Levine, M., and Zucker, S., Sensory-based robots for the repair of hybrid circuits, Canadian Conf. on Robotics, Mississauga, Ont., Sept., 1982.
    34. Levine, M., Eskenazi, C., and Zucker, S., Automated visual inspection of electronic circuits, Canadian Conf. on Robotics, Mississauga, Ont., Sept., 1982.
    35. Hubschman, H., and Zucker, S.W., Frame to frame coherence and the hidden surface computation: Constraints for a convex world, ACM Transactions on Graphics, 1982, 1, 129-162
    36. Hummel, R.A., and Zucker, S.W., On the foundations of relaxation labeling processes, IEEE Trans. Pattern Analysis and Machine Intelligence, 1983, PAMI-5, 267-287; reprinted in Fischler, M., and Firschein, O., Readings in Computer Vision, Morgan Kaufman, Palo Alto, 1987.
    37. Mohammed, J., Hummel, R., and Zucker, S., A feasible direction operator for relaxation methods, IEEE Trans. Pattern Analysis and Machine Intelligence, 1983, PAMI-5, 330-332; also, Technical Report No. 637, Laboratory for Artificial Intelligence Research, Fairchild Corp., Palo Alto, Ca., May, 1983.
    38. Zucker, S.W., Stevens, K., and Sander, P., The relation between brightness and proximity in dot patterns, A. I. Memo 670, Artificial Intelligence Laboratory, Massachusetts Institute of Technology, May, 1982; Perception and Psychophysics, 1983, 34, 513 - 522.
    39. Zucker, S. W., Perceptual grouping, Proceedings of the Workshop on Vision, Brain, and Cooperative Computation, University of Massachusetts, Amherst, May, 1983.
    40. Kimia, B., and Zucker, S.W., Deblurring gaussian blur, IEEE Conf. Computer Vision and Image Proc., Washington, D.C., June, 1983.
    41. Zucker, S. W., Finding structure in images, Stockholm Workshop on Computational Vision, Rosenon, August, 1983.
    42. Paton, K., and Zucker, S.W., Spatial pattern in sections of human muscle, Pattern Recognition Letters, 1984, 2, 53 - 59.
    43. Zucker, S. W., Early perceptual grouping, Workshop on Perceptual Organization, Fairchild Laboratory for Artificial Intelligence Research, Palo Alto, Ca., Feb., 1984.
    44. Zucker, S.W., Computational and psychophysical experiments in grouping, in A. Rosenfeld and J. Beck (eds.), Human and Machine Vision, Academic Press, New York, 1984.
    45. Zucker, S.W., Cooperative grouping and early orientation selection, in O. Braddick and A. Sleigh (eds.), Physical and Biological Processing of Images, Springer, New York, 1984.
    46. Zucker, S.W., and Parent, P., Curvature constraints from multiple-size asymmetric operators, in A. Rosenfeld (ed.) Multi-Resolution Image Processing and Analysis, Springer, New York, 1984.
    47. Zucker, S.W., Type I and Type II processes in early orientation selection, in T. Caelli and P. Dodwell (eds.), Figural Synthesis, Lawrence Erlbaum Assoc., Hillsdale, N.J., 1984
    48. Zucker, S.W., and Hummel, R. A., Receptive fields and the reconstruction of visual information, Seventh International Conference on Pattern Recognition, Montreal, July, 1984.
    49. Leclerc, Y., and Zucker, S.W., The local structure of intensity discontinuities, Seventh International Conference on Pattern Recognition, Montreal, July, 1984.
    50. Gupta, K. K., and Zucker, S.W., Trajectory planning problems, Seventh International Conference on Pattern Recognition, Montreal, July, 1984.
    51. Zucker, S.W., and Hummel, R. A., Receptive fields and the reconstruction of visual information, Proc. Canadian Society for Computational Studies of Intelligence, London, Ont., May, 1984.
    52. Leclerc, Y., and Zucker, S.W., The local structure of intensity discontinuities, Proc. Canadian Soc. Computational Studies of Intelligence, London, 1984.
    53. Gupta, K. K., and Zucker, S.W., Trajectory planning problems, I: determining velocity along a 1-dimensional path, Proc. Canadian Soc. Computational Studies of Intelligence, London, 1984.
    54. Zucker, S.W., Two processes for early orientation selection, Second Workshop on Perceptual Organization, Pajaro Dunes, Ca, June, 1984.
    55. Leclerc, Y., and Zucker, S.W., The local structure of intensity discontinuities, Technical Program, Annual Meeting of the Optical Society of America, San Diego, Oct., 1984, p43.
    56. Zucker, S.W., Two processes for early optical flow, Technical Program, Annual Meeting of the Optical Society of America, San Diego, Oct., 1984, p56.
    57. Kant, K., and Zucker, S.W., Trajectory planning in time-varying environments, I: TPP = PPP + VPP, Proc. SPIE, 1984, 521, 220-227.
    58. Zucker, S.W., The future of robotic vision, SIBEC II, Montréal, Oct., 1984.
    59. Leclerc, Y., and Zucker, S.W., The local structure of intensity discontinuities, (abstract) Optics News, 10, 1984, 71; J. Opt. Soc. Amer., Ser. A, 1, 1984, 1253.
    60. Zucker, S.W., Two processes for early optical flow, (abstract) Optics News, 10, 1984, 75;J. Opt. Soc. Amer., Ser. A, 1, 1984, 1266.
    61. Zucker, S.W., Early perceptual grouping: The What, Why, and How questions, Second Workshop on Human and Machine Vision, Montréal, August, 1984.
    62. Kaye, M., Zucker, S., Leclerc, Y., Prichard, S., and Barre, P., Osteoclast enlargement in end stage renal disease (ESRD), Kidney International, 1985, 27, 574 - 581.
    63. Zucker, S.W., Perceptual grouping, Tenth Interdisciplinary Conference, Jackson Hole, Wyoming, Jan., 1985.
    64. Zucker, S.W., Early orientation selection: Tangent fields and the dimensionality of their support, Computer Vision, Graphics, and Image Processing, 1985, 32, 74 - 103; Reprinted in A. Rosenfeld (ed.), Human and Machine Vision II, (Perspectives in Computing, vol. 13), Academic Press, New York, 1986 and in Fischler, M., and Firschein, O., Readings in Computer Vision, Morgan Kaufman, Palo Alto, 1987.
    65. Zucker, S.W. and Casson, Y., Sensitivity to change in early optical flow, Annual Meeting, The Association for Research in Vision and Opthalamology (ARVO), Florida, April, 1985.
    66. Hummel, R., Kimia, B., and Zucker, S.W., Gaussian blur and the heat equation: Forward and inverse solutions, Proc. IEEE Conf. Computer Vision and Pattern Recognition, San Francisco, 1985.
    67. Zucker, S.W., Early optical flow, Invited talk, Annual Meeting of the Optical Society of America, Washington, D.C., 1985.
    68. Zucker, S. W., Does connectionism suffice?, Behavioural and Brain Sciences, 1985, 8, 301-302.
    69. Zucker, S.W., and Cavanagh, P., Subjective figures and texture perception, Spatial Vision, Spatial Vision, 1985, 1, 131-140.
    70. Parent, P., and Zucker, S.W., Curvature, consistency, and curve detection, Annual Meeting of the Optical Society of America, Washington, D.C., 1985.
    71. Zucker, S.W., From Early Orientation Selection to Optical Flow, Human/Machine Vision Workshop, Psychonomic Society Meetings, Boston, 1985.
    72. Zucker, S.W. and Casson, Y., Sensitivity to change in early optical flow, Investigative Ophthalmology and Visual Science (Suppl.), 1985, 26(3), 57.
    73. Zucker, S.W., Structure into motion: Sensitivity to change in early optical flow, J. Opt. Soc. Amer., Ser. A, 1985, 2(13), 4.
    74. Parent, P., and Zucker, S.W., Curvature consistency and curve detection, J. Opt. Soc. Amer., Ser. A, 1985, 2(13), 5.
    75. Sander, P., and Zucker, S.W., Stable surface estimation, Proc. Sixth Canadian Conf. on Artificial Intelligence, Montréal, May, 1986, 144 - 147.
    76. Link, N., and Zucker, S.W., Sensitivity to corners in flow patterns, Proc. Sixth Canadian Conf. on Artificial Intelligence, Montréal, May, 1986, 139 - 142.
    77. Sander, P., and Zucker, S.W., Stable surface estimation, International Conference on Pattern Recognition, Paris, 1986.
    78. Zucker, S.W., Early orientation selection: inferring trace, tangent, and curvature fields, International Conference on Pattern Recognition, Paris, 1986.
    79. Zucker, S.W., and Hummel, R., Receptive fields and the representation of visual information, Human Neurobiology, 1986,5, 121 - 128.
    80. Zucker, S.W., Early orientation selection and grouping, in A. Pentland (ed.), From Pixels to Predicates: Progress in Computer Vision, Ablex, New Jersey, 1986.
    81. Zucker, S.W., The fox and the forrest: Toward a Type I/Type II constraint on early optical flow, in N. Badler and J. Tsotsos (eds.), Motion: Representation and Perception, Elsevier North Holland, 1986, 29 - 62.
    82. Zucker, S.W., The diversity of perceptual grouping, in Arbib, M. and Hanson, A. (eds.), Vision, Brain, and Cooperative Computation, MIT Press, Cambridge, 1986.
    83. Zucker, S.W., Early vision, in S. Shapiro (ed.), The Encyclopedia of Artificial Intelligence, John Wiley, 1986; second edition, 1990.
    84. Kant, K., and Zucker, S.W., Toward Efficent Trajectory Planning: the path-velocity decomposition, Int. J. Robotics Research, 1986, 5, 72 - 89.
    85. Zucker, S.W., and Hummel, R.A., A 3-dimensional edge operator, in Digital Image Processing and Analysis: Vol. 2: Digital Image Analysis, IEEE Computer Society Press, Washington, D.C., 1985.
    86. Zucker, S.W., Early orientation selection: Tangent fields and the dimensionality of their support, in A. Rosenfeld (ed.), Human and Machine Vision II, (Perspectives in Computing, vol. 13), Academic Press, New York, 1986.
    87. Zucker, S.W., The computational connection in vision: Early orientation selection, Behaviour Research Methods, Instruments, and Computers, 1986, 18, 608 - 617.
    88. Leclerc, Y., and Zucker, S.W., The local structure of intensity discontinuities in 1 dimension, IEEE Trans. Pattern Analysis and Machine Intelligence, 1987, PAMI-9, 341 - 355.
    89. Zucker, S.W., The emerging paradigm of computational vision, in Annual Reviews of Computer Science, vol. 2, 1987, 69 - 89.
    90. Zucker, S.W., Early orientation selection: Tangent fields and the dimensionality of their support, reprinted in Fischler, M., and Firschein, O., Readings in Computer Vision, Morgan Kaufman, Palo Alto, 1987.
    91. Hummel, R.A., and Zucker, S.W., On the foundations of relaxation labeling processes, reprinted in Fischler, M., and Firschein, O., Readings in Computer Vision, Morgan Kaufman, Palo Alto, 1987.
    92. Kimia, B., Hummel, R., and Zucker, S.W., Deblurring Gaussian blur, Computer Vision, Graphics, and Image Processing, 1987, 38, 66 - 80.
    93. Link, N., and Zucker, S.W., Sensitivity to corners in Flow Patterns, Spatial Vision, 1987, 2, 233 - 244.
    94. Zucker, S.W., and Iverson, L., From orientation selection to optical flow, Computer Vision, Graphics, and Image Processing, 1987, 37, 196 - 220.
    95. Dobbins, A., Zucker, S.W., and Cynader, M., Endstopped neurons provide curvature estimates, Investigative Ophthalmology and Visual Science (Suppl.), 1987, 28(3), 196.
    96. Dobbins, A., Zucker, S.W., and Cynader, M., Endstopped neurons in the visual cortex as a substrate for calculating curvature, Nature, 1987, 329(6138), 438 - 441.
    97. Kant, K., and Zucker, S.W., Planning Collision-free trajectories: Splines in space-time, Int. J. Robotics and Automation, 1987, 2(3), 117 - 126.
    98. Sander, P, and Zucker, S.W., Tracing surfaces and surfacing traces, International Conference on Computer Vision, London, June, 1987.
    99. Kant, K., and Zucker, Collision free trajectory planning: Computational geometry and splines in space-time, Proc. SIAM Conference on Applied Geometry, Albany, N.Y., July, 1987.
    100. Dubuc, B., Tricot, C., Zucker, S., and Rocques-Carmes, C., The variation method: a technique to estimate the fractal dimension of surfaces, Proc. SPIE Conf. on Visual Communications and Image Processing, Cambridge, October,1987.
    101. Dobbins, A., Zucker, S.W., and Cynader, M., Endstopped neurons provide curvature estimates, The Association for Research in Vision and Opthalamology (ARVO), Sarasota, Florida, May, 1987.
    102. Dubuc, B., Rocques-Carmes, C., Tricot, C., Zucker, S., , The variation method: a technique to estimate the fractal dimension of surfaces, Fractal Aspects of Materials: Disordered systems, Hurd, A., Weitz, D., and Mandelbrot, B. (eds.), Materials Research Society, Boston, November, 1987.
    103. Iverson, Lee, and Zucker, S.W., Orientation selection to optical flow: a computational perspective, Proc. IEEE Workshop on Computer Vision, Miami, 1987.
    104. Zucker, S.W., and Davis, S., Points and Endpoints: A size/spacing constraint for dot grouping, Perception, 1988, 17, 229 - 247.
    105. Kant, K., and Zucker, S.W., Planning collision-free trajectories in time-varying environments: A two-level hierarchy, The Visual Computer, 1988, 2, 304 - 313.
    106. Link, N., and Zucker, S.W., Corner detection in curvilinear dot grouping, Biological Cybernetics, 1988, 59, 247 - 256.
    107. Zucker, S.W., Early orientation selection: inferring trace, tangent, and curvature fields, Int. J. Pattern Recognition and Artificial Intelligence, 1988, 2, 443 - 458.
    108. Dobbins, A., Zucker, S.W., and Cynader, M., The Hypercomplex neuron: Has vision been thrown a curve?, in Pylyshyn, Z. (ed.), Computational Processes in Human Vision: An Interdisciplinary Perspective, Ablex, New York, 1988.
    109. Zucker, S.W., and Iverson, L., Computational networks in early vision: From orientation selection to optical flow, in Eckmiller, R., and v.d. Malsberg, C. (eds.), Neural Computers, Springer, New York, 1988.
    110. Zucker, S. W., A biologically motivated approach to early visual computations: orientation selection, texture, and optical flow, in J. Kittler (ed.), Lecture Notes in Computer Science, Springer, New York, 1988.
    111. Dobbins, A., Zucker, S.W., and Cynader, M., Endstopped simple cells and curvature: Predictions from a computational model, Investigative Ophthalmology and Visual Science (Suppl.), 1988, 331.
    112. Kant, K., and Zucker, S.W., Planning collision-free trajectories in time-varying environments: A two-level hierarchy, Proc. IEEE Int. Conf. on Robotics and Automation, Philadelphia, 1644 - 1649, 1988.
    113. Zucker, S.W., David, C., Dobbins, A., and Iverson, L., The organization of curve detection: Coarse tangent fields and fine spline coverings, Proc. COST 13 Workshop, Bonas, France, 1988.
    114. Sander, P., and Zucker, S.W., On computing principal directions as cross sections of fibre bundles, Proc. $9^{th}$ Int. Conf. on Pattern Recognition, 1988.
    115. Zucker, S.W., David, C., Dobbins, A., and Iverson, L., The organization of curve detection: Coarse tangent fields and fine spline coverings, Proc. $2^{nd}$ Int. Conf. on Computer Vision, Tarpon Springs, Fla, 1988.
    116. Sander, P., and Zucker, S.W., Singularities of principal direction fields from 3-D images, Proc. $2^{nd}$ Int. Conf. on Computer Vision, Tarpon Springs, Fla, 1988.
    117. Parent, P., and Zucker, S.W., Trace inference, curvature consistency, and curve detection, IEEE Trans. Pattern Analysis and Machine Intelligence, 1989, 11, 823 - 839.
    118. Parent, P., and Zucker, S.W., Radial projection: An efficent update rule for relaxation labeling, IEEE Trans. Pattern Analysis and Machine Intelligence, 1989, 11, 886 - 889.
    119. Dobbins, A., Zucker, S.W., and Cynader, M., Endstopping and curvature, Vision Research, 1989, 29, 1371 - 1387.
    120. Dubuc, B., Quiniou, J., Roques-Carmes, C., Tricot, C., and Zucker, S.W., Evaluating the fractal dimension of profiles, Physical Review A, 1989, 39, 1500 - 1512.
    121. Zucker,S.W., Dobbins, A., and Iverson, L., Two stages of curve detection suggest two styles of visual computation, Neural Computation, 1989, 1, 68 - 81.
    122. Zucker, S.W., David, C., Dobbins, A., and Iverson, L., The organization of curve detection: Coarse tangent fields and fine spline coverings, in J. C. Simon (ed.), From Pixels to Features, North Holland, New York, 1989, 75 - 90.
    123. Hel Or, Y., and Zucker, S.W., Texture fields and texture flows: Sensitivity to differences, Spatial Vision, 1989, 4, 131 - 139.
    124. Norman, J.F., Lappin, J., and Zucker, S.W., Stereoscopic discrimination of smooth vs. discontinuous surface structure, Investigative Ophthalmology and Visual Science (Suppl.), 1989, 252.
    125. Dubuc, B., Zucker, S.W., Tricot, C., Quiniou, J., and Wehbi, D., Evaluating the fractal dimension of surfaces, Proc. Royal Society (London), 1989, A425, 113 - 127.
    126. Kimia, B. B., Tannenbaum, A., and Zucker, S. W., Conservation Laws and the Evolution of Shape, Human/Machine Vision Workshop, SPIE Meetings Falmouth, MA, 1989.
    127. Norman, J.F., Lappin, J., and Zucker, S.W., Stereoscopic discrimination of smooth vs. discontinuous surface structure, Annual Meeting, The Association for Research in Vision and Opthalamology (ARVO), Florida, April, 1989.
    128. Dobbins, A., and Zucker, S.W., Mean field theory and MT neurons, Proc. IEEE Int. Symposium on Systems, Man, and Cybernetics, Boston, Ma., 1989.
  8. 1970-1979
    1. Zucker, S.W., Rosenfeld, A., and Davis, L.S., Picture segmentation by texture discrimination, IEEE Trans. Computers, 1975, C-24, 1228-1233.
    2. Zucker, S.W., Toward a model of texture, Computer Graphics and Image Processing, 1976, 5, 190-202.
    3. Zucker, S.W., and Fromm, E., Interactive semi-automated data reduction, Proc. 24th Annual Conference on Engineering in Medicine and Biology, Las Vegas, November, 197l.
    4. Zucker, S.W., and Fromm, E., Quantization of long sequences of 2-channel biologic data, Proc. Federation of American Societies for Experimental Biology, 197l, 30,700.
    5. Zucker, S.W., Rosenfeld, A., and Davis, L.S., General purpose models: Expectations about the unexpected, Adv. Papers Fourth International Joint Conference on Artificial Intelligence, Vol. 2, Tblisi, USSR, September, 1975. Reprinted in SIGART Newsletter, No. 54, October, 1975, 7-11.
    6. Zucker, S.W., Rosenfeld, A., and Davis, L.S., Picture segmentation by texture discrimination, Proc. 2nd U.S.A.- Japan Computer Conference, 1975.
    7. Rosenfeld, A., Hummel, R., and Zucker, S.W., Scene labelling by relaxation operations, IEEE Trans. Systems, Man and Cybernetics, 1976, SMC-6, 420-433.
    8. Zucker, S.W., Region growing: Childhood and adolescence, Computer Graphics and Image Processing, 1976, 5, 382-399.
    9. Zucker, S.W., On the structure of texture, Perception, 1976, 5, 419-436.
    10. Zucker, S.W., Approaches to image segmentation, NATO Advanced Study Institute on Image Processing, Bonas, France, June 1976,
    11. Zucker, S.W., Relaxation processes in low-level vision, SIGGRAPH '76 Workshop, University of Pennsylvania, July, 1976.
    12. Zucker, S.W., On the convergence , speed, and stability of relaxation labelling processes, Engineering Foundation Conf. on Image Processing Algorithms, Franklin Pierce College, Ringe, New Hampshire, August, 1976.
    13. Zucker, S.W., Relaxation labelling, local ambiguities and low-level vision, Proc. International Joint Conference on Pattern Recognition and Artificial Intelligence, Hyannis, Cape Cod, June, 1976.
    14. Lev, A., Zucker, S.W., and Rosenfeld, A., Iterative enhancement of noisy images, IEEE Trans. Systems, Man, and Cybernetics, 1977, SMC-7, 435-422.
    15. Zucker, S.W., Hummel, R., and Rosenfeld, A., An application of relaxation labelling to line and curve enhancement, IEEE Trans. Computers, 1977, C-26, 393-403 and 922-929.
    16. Schacter, B., Lev, A., Zucker, S.W., and Rosenfeld, A., An application of relaxation methods to edge reinforcement, IEEE Trans. Systems, Man and Cybernetics, 1977, SMC-7, 813-816.
    17. Zucker, S.W., Relaxation labelling and the reduction of local ambiguities, Proc. Third International Joint Conference on Pattern Recognition, Coronado California, November, 1976; reprinted in J.K. Aggarwal, R.O. Duda and A. Rosenfeld (eds.), Computer Methods in Image Analysis, IEEE Press, New York, 1977.
    18. Zucker, S.W., Production systems with feedback, Workshop on Pattern-Directed Inference Systems, Hawaii, May 1977.
    19. Zucker, S.W., Approaches to image segmentation, in A. Rosenfeld, and J.C. Simon (eds.), Digital Image Processing and Analysis, Nordhoff International Publ., 1977 .
    20. Zucker, S.W., Relaxation labelling, local ambiguities and low-level vision, in C.H. Chen (ed.) Pattern Recognition and Artificial Intelligence, Academic Press, New York, 1977.
    21. Zucker, S.W., Relaxation labelling and the reduction of local ambiguities, in J.K. Aggarwal, R.O. Duda and A. Rosenfeld (eds.), Computer Methods in Image Analysis, IEEE Press, New York, 1977.
    22. Zucker, S.W., Vertical and horizontal processes in low- level vision, Proc. Workshop on Computer Vision Systems, University of Mass., Amherst, June, 1977.
    23. Zucker, S.W., Toward consistent descriptions in vision systems, Proc. Fifth International Joint Conf. on Artificial Intelligence, M.I.T., Cambridge, Aug., 1977.
    24. Zucker, S.W., Krishnamurthy, E.V., and Haar, R., Relaxation processes for scene labelling: Convergence, speed, and stability, IEEE Trans. Systems, Man, and Cybernetics, 1978, SMC-9, 41-48.
    25. Zucker, S.W., Analysis of probabilistic updating rules for relaxation processes, Engineering Foundation Conf. on Algorithms for Image Processing, Asilomar, California, February, 1978.
    26. Zucker, S.W., and Leclerc, Y., Intensity clustering by relaxation, Proc. Workshop on Pattern Recognition and Artificial Intelligence, Princeton University, April, 1978.
    27. Zucker, S.W., Production systems with feedback, in F. Hayes-Roth and D. Waterman (eds.), Pattern-Directed Inference Systems, Academic Press, New York, 1978.
    28. Zucker, S.W., Vertical and horizontal processes in low- level vision, in E. Riseman and A. Hanson (eds.), Computer Vision Systems, Academic Press, New York, 1978.
    29. Zucker, S.W., and Mohammed, J.L., An analysis of probabilistic relaxation labelling processes, Proc. IEEE Conf. on Pattern Recognition and Image Processing, Chicago, May, 1978.
    30. Zucker, S.W., and Mohammed, J.L., A hierarchial relaxation system for line labelling and grouping, Proc. IEEE Conference on Pattern Recognition and Image Processing, Chicago, May, 1978.
    31. Zucker, S.W., Local Structure, consistency, and continuous relaxation, Proc. NATO Advanced Study Institute on Image Processing, Bonas, France, July, 1978.
    32. Zucker, S.W., Low level vision, consistency, and continuous relaxation, Proc. Canadian Soc. Computational Studies of Intelligence, Toronto, July, 1978.
    33. Rosenberg, D., Levine, M.D., and Zucker, S.W., Computing relative depth relationships from occlusion cues, Proc. Fourth International Joint Conference on Pattern Recognition, Tokyo, Japan, Nov., 1978.
    34. Zucker, S.W., and Hummel, R.A., Toward a low-level description of dot clusters: labelling edge, interior, and noise points, Computer Graphics and Image Processing, 1979, 9, 213-233.
    35. Tsotsos, J.K., Mylopolous, J., Covvey, D., and Zucker, S.W., Alven: A study on motion understanding by computer, Proc. Sixth Int. Joint Conf. on Artificial Intelligence, Tokyo, Aug., 1979.
    36. Tsotsos, J.K., Mylopolous, J., Covvey, D., and Zucker, S.W., A framework for visual motion understanding, Workshop on the analysis of Time-Varying Imagery, University of Pennsylvania, May, 1979.
    37. Zucker, S.W., and Hummel, R.A., A 3-dimensional edge operator, Proc. IEEE Conf. on Pattern Recognition and Image Proocessing, Chicago, July, 1979.
    38. Zucker, S.W., Leclerc, Y.G., and Mohammed, J.L., Continuous Relaxation and local maxima selection: Conditions for equivalence, Proc. Sixth Int. Joint Conf. on Artificial Intelligence, Tokyo, Aug., 1979.
    39. Zucker, S.W., and Terzopoulos, D., Finding structure in co-occurrence matrices for texture analysis, Workshop on Image Modelling, Chicago, Aug., 1979.
    40. Tsotsos,J.K., Covvey,H.D., Mylopoulos,J., Zucker, S.W., Wigle, E.D., ``ALVEN: A System for LV Segmental Wall Motion Analysis", Proc. of IEEE Computers in Cardiology, Geneva, Sept. 1979, p445-446.