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Experimental comparison of splines using the shape-matching paradigm

Editor: Jim Foley Authors:

Pierre JolicoeurAuthors Info & Claims

ACM Transactions on Graphics (TOG), Volume 12, Issue 3

Pages 179 - 208

https://doi.org/10.1145/169711.169709

Published: 02 July 1993 Publication History

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References

[1]

ATHERTON, P. R., ^ND CAPORAEI, L.R. A subjective judgment study of polygon based curved surface imagery. In CHI'85 Proceedings (San Francisco, Apr. 14 18, 1985). ACM. New York, pp. 27 34.

Crossref

Google Scholar

[2]

BARTEI,S, R. H., BEATTY, J. C., AND BARSKY, B.A. An Introduction to the Use of Splines in Computer Graphics. Morgan Kaufmann, 1987.

Google Scholar

[3]

B~;^TTV, J. C., COWAN, W. B., AND SCHWARZ, M.W. An experimental comparison of RGB, YIQ, LAB. HSV and opponent color models. ACM Trans. Graph. 6, 2 (April 1987), 123 158.

Crossref

Google Scholar

[4]

BOOTH, K. S., COWAN, W. B., AND FORSEY, D. R. Multitasking support in a graphics workstation. In Ist International Conference on Computer Workstations (San Jose, Calif., Nov. 11 14, 1985}. IEEE, Washington, D.C., pp. 82-89.

Google Scholar

[5]

B(}tm~, K. S., BRVE)EN, M. P., COW~N, W. B., MORGAN, M. F., AND PLANTE, B. L. On the parameters of human visual performance: An investigation of the benefits of antialiasing. IEEE Comput. Graph. Appl. 7, 9 (Sept. 1987), 34 41.

Google Scholar

[6]

Bosctt, E. G. Workstation-based shape matching experiments. Master's thesis, Dept. of Computer Science, Univ. of Waterloo, Waterloo, Ontario, Canada, 1987.

Google Scholar

[7]

BOSCH, E. G., BAtlTEI,S, R. H., AND JOLICOEUR, r. Workstation-based shape matching experiments. {n 2nd IEEE Conference on Computer Workstations (Santa Clara, Calif., Mar. 7 10, 1988). IEEE, Washington, D.C., pp. 132-141.

Google Scholar

[8]

BUXTON, W. A.S. There's more to interaction than meets the eye: Some issues in manual input. In User Centered System Design: New Perspectives on Human-Computer Interaction. D. A. Norman and S. W. Draper, Eds., Lawrence Earlbaum, Milisdale, N.J., 1986, pp. 319-337.

Crossref

Google Scholar

[9]

DEVORE, J.L. Probability and Statistics for Engineering and the Sciences. Brooks/Cole, Monterey, Calif., 1982.

Google Scholar

[10]

FERGUSON, G.A.Statistical Analysis in Psychology and Education. 3rd ed. McGraw-Hill, New York, 1971.

Google Scholar

[11]

FOLEY, J. D., AND VAN DAM, A. Fundamentals of Interactive Computer Graphics. Addison- Wesley, Reading, Mass., 1982.

Crossref

Google Scholar

[12]

FOLEY, J. D., VAN DAM, A., FEINEIt, S. K., AND HUGHES, J.F. Computer Graphics: Principles and Practice. Addison-Wesley, Reading, Mass., 1990.

Crossref

Google Scholar

[13]

FOWLER, B.M. Geometric techniques for interactive curve design. Master's thesis, Dept. of Computer Science, Univ. of Waterloo, Waterloo, Ontario, Canada, 1990.

Google Scholar

[14]

GOODMAN, T. J., AND SPENCE, R. The effect of computer system response time on interactive computer aided problem solving. Comput. Graph. 12, 3 (Aug. 1978), 100-104.

Crossref

Google Scholar

[15]

GOODMAN, T. J., AND SPENCE, R. The effect of computer system response time variability on interactive graphical problem solving. IEEE Trans. Syst. Man Cybern. 11, 3 (Mar. 1981), 207-216.

Google Scholar

[16]

GOODMAN, T. J., AND SPENCE, R. The effects of potentiometer dimensionality system response time and time of day on interactive, graphical problem solving. Hum. Factors 24, 4 (Aug. 1982), 437-456.

Google Scholar

[17]

OLIV1ERO, A., AND SCARPETTA, G. A new approach to contour coding. Comput. Graph. Image Process. 15, 1 (Jan. 1981), 87-92.

Google Scholar

[18]

RUES?, P. An evaluation of tension within an extensible spline testing facility. Master's thesis, Dept. of Computer Science, Univ. of Waterloo, Waterloo, Ontario, Canada, 1989.

Google Scholar

[19]

RUEST, P., BARTELS, R. H., BEATrY, J. C., AND JOLICOEUR, P. An experimental evaluation of tension parameters in cubic Beta-splines and rational B-splines. Dept. of Computer Science, Univ. of Waterloo, Waterloo, Ont., 1991. Unpublished manuscript.

Google Scholar

[20]

SHNEIDERMAN, B. Response time and display rate in human performance with computers. Dept. of Computer Science, Univ. of Waterloo, Waterloo, Ont., 1991. Unpublished manuscript. ACM Comput. Surv. 16, 3 (Sept. 1984), 265-285.

Crossref

Google Scholar

[21]

WINER, B. J. Statistical Principles in Experimental Design. 2nd ed. McGraw-Hill, New York, 1971.

Google Scholar

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Sarfraz MHussain MIshaq M(2013)Modeling of Objects Using Conic SplinesJournal of Software Engineering and Applications10.4236/jsea.2013.63B01506:03(67-72)Online publication date: 2013
https://doi.org/10.4236/jsea.2013.63B015
Booth KShaw CBartram L(2008)25 Years ago I couldn't even spell Canadian, now I are oneProceedings of Graphics Interface 200810.5555/1375714.1375733(107-114)Online publication date: 28-May-2008
https://dl.acm.org/doi/10.5555/1375714.1375733
Latulipe CMann SKaplan CClarke C(2006)symSplineProceedings of the SIGCHI Conference on Human Factors in Computing Systems10.1145/1124772.1124825(349-358)Online publication date: 22-Apr-2006
https://dl.acm.org/doi/10.1145/1124772.1124825
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Experimental comparison of splines using the shape-matching paradigm

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Reviews

Reviewer: Andrew Timothy Thornton

The authors describe a technique they developed for quantitatively evaluating experiments in which a subject manipulates a spline curve to match a curve supplied by the experimenter. The evaluation takes the form of a goodness-of-fit parameter and a measure of the time taken for the subject to create the new curve. It uses as a worked example an experiment where five types of spline are used—B-spline, Be´zier, Catmull-Rom, and natural splines with natural and tangent end conditions. It comes as no surprise to those in the field that B-splines are the easiest, and natural splines the hardest, to manipulate in this sort of work. The interest of this paper lies in the methodology used, however, rather than in the results of the example experiment.

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Published In

cover image ACM Transactions on Graphics

ACM Transactions on Graphics Volume 12, Issue 3

July 1993

98 pages

ISSN:0730-0301

EISSN:1557-7368

DOI:10.1145/169711

Editor:
Jim Foley
Georgia Institute of Technology, Atlanta

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Association for Computing Machinery

New York, NY, United States

Publication History

Published: 02 July 1993

Published in TOG Volume 12, Issue 3

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Sarfraz MHussain MIshaq M(2013)Modeling of Objects Using Conic SplinesJournal of Software Engineering and Applications10.4236/jsea.2013.63B01506:03(67-72)Online publication date: 2013
https://doi.org/10.4236/jsea.2013.63B015
Booth KShaw CBartram L(2008)25 Years ago I couldn't even spell Canadian, now I are oneProceedings of Graphics Interface 200810.5555/1375714.1375733(107-114)Online publication date: 28-May-2008
https://dl.acm.org/doi/10.5555/1375714.1375733
Latulipe CMann SKaplan CClarke C(2006)symSplineProceedings of the SIGCHI Conference on Human Factors in Computing Systems10.1145/1124772.1124825(349-358)Online publication date: 22-Apr-2006
https://dl.acm.org/doi/10.1145/1124772.1124825
Owen RKurtenbach GFitzmaurice GBaudel TBuxton BInkpen Kvan de Panne M(2005)When it gets more difficult, use both handsProceedings of Graphics Interface 200510.5555/1089508.1089512(17-24)Online publication date: 7-May-2005
https://dl.acm.org/doi/10.5555/1089508.1089512
Fischer SRimac ISteinmetz R(2002)Automatic Recognition of Camera ZoomsVisual Information and Information Systems10.1007/3-540-48762-X_32(253-260)Online publication date: 2-Jul-2002
https://doi.org/10.1007/3-540-48762-X_32
Raisamo RWilliams MAltom M(1999)An alternative way of drawingProceedings of the SIGCHI conference on Human Factors in Computing Systems10.1145/302979.303035(175-182)Online publication date: 1-May-1999
https://dl.acm.org/doi/10.1145/302979.303035
Sarfraz M(1998)A rational spline with tension: some CAGD perspectivesProceedings. 1998 IEEE Conference on Information Visualization. An International Conference on Computer Visualization and Graphics (Cat. No.98TB100246)10.1109/IV.1998.694217(178-183)Online publication date: 1998
https://doi.org/10.1109/IV.1998.694217
Baudel TSzekely P(1994)A mark-based interaction paradigm for free-hand drawingProceedings of the 7th annual ACM symposium on User interface software and technology10.1145/192426.192496(185-192)Online publication date: 2-Nov-1994
https://dl.acm.org/doi/10.1145/192426.192496

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A locally controllable spline with tension for interactive curve design

Shape-preserving univariate cubic and higher-degree L1 splines with function-value-based and multistep minimization principles

Shape control tools for periodic Bézier curves

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