Multivariable Curve Interpolation

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Multivariable Curve Interpolation

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Journal of the ACM (JACM) archive
Volume 11 , Issue 2 (April 1964) table of contents

Pages: 221 - 228

Year of Publication: 1964

ISSN:0004-5411

Author

James Ferguson

Tempo Division, General Electric Co., Santa Barbara, Calif and The Boeing Company, Seattle, Washington

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 8, Downloads (12 Months): 76, Citation Count: 12

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abstract references cited by index terms collaborative colleagues

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ABSTRACT

The problem of defining a smooth surface through an array of points in space is well known. Several methods of solution have been proposed. Generally, these restrict the set of points to be one-to-one defined over a planar rectangular grid (X, Y-plane). Then a set of functions Z = F(X, Y) is determined, each of which represents a surface segment of the composite smooth surface. In this paper, these ideas are generalized to include a much broader class of permissible point array distributions: namely (1) the point arrangement (ordering) is topologically equivalent to a planar rectangular grid, (2) the resulting solution is a smooth composite of parametric surface segments, i.e. each surface piece is represented by a vector (point)-valued function. The solution here presented is readily applicable to a variety of problems, such as closed surface body definitions and pressure envelope surface definitions. The technique has been used successfully in these areas and others, such as numerical control milling, Newtonian impact and boundary layer.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	FERGUSON, JAMES C, Multi-variable curve interpolation. D2-22504, The Boeing Co., SeatIe, Wash., 1963.
	2	BIRKHOIFF, G., AND GARABEDION H. L. Smooth surface interpolation. J. math Phys. 39, 4 (I960), 258-268.
	3	CARLBERG, E. F., AND CHILDS, J.J. Boeing expands numerical control contouring capability. Madiue aud Tool Blue Book 58 I, (1963).
	4	MeEacHERN, N. V. A polynomial surface-fitting program for tim Bendix G-15 digital conputer. NRC LR-347, Nat. es. Cuuneil, Nat. Aero. Esabl., Ottowa, Canada, 1962.f

CITED BY 12

	M. A. Kaplan , R. A. Papetti, A Note on Quadrilateral Interpolation, Journal of the ACM (JACM), v.18 n.4, p.576-585, Oct. 1971
	Barry W. Boehm, Tabular representation of multivariate functions—with applications to topographic modeling, Proceedings of the 1967 22nd national conference, p.403-415, January 1967, Washington, D.C., United States
	Henry Moreton , Carlo Séquin, Surface design with minimum energy networks, Proceedings of the first ACM symposium on Solid modeling foundations and CAD/CAM applications, p.291-301, June 05-07, 1991, Austin, Texas, United States
	J. P. Mayfield , R. M. Burkley, Applications of a numerical geometry system in engineering, Proceedings of the 13th conference on Design automation, p.25-33, June 28-30, 1976, San Francisco, California, United States
	Jules Bloomenthal, Graphics Remembrances, IEEE Annals of the History of Computing, v.20 n.2, p.35-51, April 1998
	Larry Lichten, A solution to surface connectivity problems in computer-aided design, ACM SIGGRAPH Computer Graphics, v.14 n.4, March 1981
	R. S. Gallagher , J. C. Nagtegaal, An efficient 3-D visualization technique for finite element models and other coarse volumes, ACM SIGGRAPH Computer Graphics, v.23 n.3, p.185-194, July 1989
	Yates Fletcher , David F. McAllister, A Tension-Compatible Patch for Shape-Preserving Surface Interpolation, IEEE Computer Graphics and Applications, v.9 n.3, p.45-55, May 1989
	Xiaoping Wang , Rurong Zhou , Zhenglin Ye , Liyan Zhang, Constructing spherical curves by interpolation, Advances in Engineering Software, v.38 n.3, p.150-157, March, 2007
	Larry Lichten, A partial solution to fitting large parametric surfaces in computer-aided design systems, Proceedings of the 16th Conference on Design automation, p.222-228, June 25-27, 1979, San Diego, CA, United States
	Jian Sun , Lin Liang , Fang Wen , Heung-Yeung Shum, Image vectorization using optimized gradient meshes, ACM Transactions on Graphics (TOG), v.26 n.3, July 2007
	Yu-Kun Lai , Shi-Min Hu , Ralph R. Martin, Automatic and topology-preserving gradient mesh generation for image vectorization, ACM Transactions on Graphics (TOG), v.28 n.3, August 2009