论文信息 - Toward a computational theory of shape: an overview

Toward a computational theory of shape: an overview

Although the shape of objects is a key to their recognition, viable theories for describing shape have been elusive. We propose a theory that unifies the competing elements of shape—parts and protrusions—and we develop a framework for computing them reliably. The framework emerges from introducing conservation laws to computational vision, and has application in areas ranging from robotics to the psychology and physiology of form.

S. Zucker | B. Kimia | A. Tannenbaum

[1] P. Lax. Hyperbolic systems of conservation laws II , 1957 .

[2] P. Lax. Shock Waves and Entropy , 1971 .

[3] Ralph Roskies,et al. Fourier Descriptors for Plane Closed Curves , 1972, IEEE Transactions on Computers.

[4] H. Blum. Biological shape and visual science (part I) , 1973 .

[5] Herbert Freeman,et al. Computer Processing of Line-Drawing Images , 1974, CSUR.

[6] Manfredo P. do Carmo,et al. Differential geometry of curves and surfaces , 1976 .

[7] P. Lions,et al. Viscosity solutions of Hamilton-Jacobi equations , 1983 .

[8] J. Smoller. Shock Waves and Reaction-Diffusion Equations , 1983 .

[9] Donald D. Hoffman,et al. Parts of recognition , 1984, Cognition.

[10] M. Gage,et al. The heat equation shrinking convex plane curves , 1986 .

[11] P. Lax. Hyperbolic Systems of Conservation Laws and the Mathematical Theory of Shock Waves , 1987 .

[12] I. Biederman. Recognition-by-components: a theory of human image understanding. , 1987, Psychological review.

[13] M. Grayson. The heat equation shrinks embedded plane curves to round points , 1987 .

[14] Michael Leyton,et al. A Process-Grammar for Shape , 1988, Artif. Intell..

[15] Steven W. Zucker,et al. Two Stages of Curve Detection Suggest Two Styles of Visual Computation , 1989, Neural Computation.