11.2.5 The Facet Model for Descriptions

Haralick, R.M.,
Edge and Region Analysis for Digital Image Data,
CGIP(12), No. 1, January 1980, pp. 60-73. Facet Model. Segmentation, Edges. Segmentation, Facet Model. Fit a sloped plane to the image region rather than a uniform intensity. BibRef 8001

Watson, L.T., Laffey, T.J., and Haralick, R.M.,
Topographic Classification of Digital Image Intensity Surfaces Using Generalized Splines and the Discrete Cosine Transform,
CVGIP(29), No. 2, February 1985, pp. 143-167. Primal Sketch. BibRef 8502
Earlier: A2, A3, A1:
Topographic Classification of Digital Image Intensity Surfaces,
CVWS82(171-177). The complete paper on the topographic primal sketch. This refers to several other related papers. The results are based on first and second directional derivatives, with splines or the cosine transform used to estimate the surface. Proofs in: See also Topographic Primal Sketch, The. BibRef

Shapiro, L.G., Haralick, R.M., and Pong, T.C.,
The Use of the Facet Model and the Topographic Primal Sketch in Image Analysis,
ACV88(II 1-46). BibRef 8800

Pong, T.C., Shapiro, L.G., and Haralick, R.M.,
Shape Estimation from Topographic Primal Sketch,
PR(18), No. 5, 1985, pp. 333-347.
WWW Version. BibRef 8500
Earlier:
Shape Estimation from Topographic Primal Sketch: An Initial Feasibility Study,
ICPR84(597-600). BibRef

Haralick, R.M., Watson, L.T., and Laffey, T.J.,
The Topographic Primal Sketch,
IJRR(2), Spring 1983, pp. 50-72. Proof of some of the concepts in See also Topographic Classification of Digital Image Intensity Surfaces Using Generalized Splines and the Discrete Cosine Transform. BibRef 8300

Mainguy, Y., Birch, J.B., Watson, L.T.,
A Robust Variable Order Facet Model For Image Data,
MVA(8), No. 3, 1995, pp. 141-162. BibRef 9500

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Three-Dimensional Surface Reconstructions .