“Surface reconstruction from unorganized points” by Hoppe, DeRose, Duchamp, McDonald Jr. and Stuetzle

  • ©Hugues Hoppe, Tony DeRose, Tom Duchamp, John McDonald Jr., and Werner Stuetzle




    Surface reconstruction from unorganized points



    No abstract available.


    1. E.L. Allgower and P. H. Schmidt. An algorithm for piecewise linear approximation of an implicitly defined manifold. SlAM Journal of Numerical Analysis, 22:322-346, April 1985.
    2. J.L. Bentley. Multidimensional divide and conquer. Comm. ACM, 23(4):214–229, 1980.
    3. Y. Breseler, J. A. Fessler, and A. Macovski. A Bayesian approach to reconstruction from incomplete projections of a multiple object 3D domain. IEEE Trans. Pat. Anal. Mach. InteU., 11 (8):840-858, August 1989.
    4. James F. Brinkley. Knowledge-driven ultrasonic threedimensional organ modeling. IEEE Trans. Pat. Anal. Mach. lntell., 7(4):431-441, July 1985.
    5. David P. Dobkin, Silvio V. E Levy, William P. Thurston, and Allan R. Wilks. Contour tracing by piecewise linear approximations. ACM TOG, 9(4):389-423, October 1990.
    6. John A. Eisenman. Graphical editing of composite bezier curves. Master’s thesis, Department of Electrical Engineering and Computer Science, M.I.T., 1988.
    7. T.A. Foley. interpolation to scattered data on a spherical domain. In M. Cox and J. Mason, editors, Algorithms for Approximation l}, pages 303-310. Chapman and Hall, London, 1990.
    8. Michael R. Garey and David S. Johnson. Computers and Intractability. W. H. Freeman and Company, 1979.
    9. T. Hastie and W. Stuetzle. Principal curves. JASA, 84:502- 516, 1989.
    10. Averill M. Law and W. David Kelton. Simulation Modeling and Analysis. McGraw-Hill, Inc., second edition, 1991.
    11. Marshal L. Merriam. Experience with the cyberware 3D digitizer. In NCGA Proceedings, pages 125-133, March 1992.
    12. David Meyers, Shelly Skinner, and Kenneth Sloan. Surfaces from contours: The correspondence and branching problems. In Proceedings of Graphics Interface ’91, pages 246-254, June 1991.
    13. Doug Moore and Joe Warren. Approximation of dense scattered data using algebraic surfaces. TR 90-135, Rice University, October 1990.
    14. Doug Moore and Joe Warren. Adaptive mesh generation ii: Packing solids. TR 90-139, Rice University, March 1991.
    15. Shigeru Muraki. Volumetric shape description of range data using “blobby model”. Computer Graphics (SIGGRAPH ’91 Proceedings), 25(4):227-235, July 1991.
    16. Gregory M. Nielson, Thomas A. Foley, Bernd Hamann, and David Lane. Visualizing and modeling scattered multivariate data. IEEECG&A, 11(3):47-55, May 1991.
    17. Barrett O’Neill. Elementary Differential Geometry. Academic Press, Orlando, Florida, 1966.
    18. Vaughan Pratt. Direct least-squares fitting of algebraic surfaces. Computer Graphics (SIGGRAPH ’87 Proceedings), 21(4): 145-152, July 1987.
    19. Emanuel Sachs, Andrew Roberts, and David Stoops. 3-Draw: A tool for designing 3 D shapes. {EEE Computer Graphics and Applications, 11(6):18-26, November 1991.
    20. Hanan Samet. Applications of Spatial Data Structures. Addison-Wesley, 1990.
    21. Philip J. Schneider. Phoenix: An interactive curve design system based on the automatic fitting of hand-sketched curves. Master’s thesis, Department of Computer Science, U. of Washington, 1988.
    22. R. B. Schudy and D. H. Ballard. Model detection of cardiac chambers in ultrasound images. Technical Report 12, Computer Science Department, University of Rochester, 1978.
    23. R.B. Schudy and D. H, Ballard. Towards an anatomical model of heart motion as seen in 4-d cardiac ultrasound data. In Proceedings of the 6th Conference on Computer Applications in Radiology and Computer.Aided Analysis of Radiological Images, 1979.
    24. Stan Sclaroff and Alex Pentland. Generalized implicit functions for computer graphics. Computer Graphics (SIGGRAPH ’91 Proceedings), 25(4):247-250, July 1991.
    25. G. Taubin. Estimation of planar curves, surfaces and nonplanat space curves defined by implicit equations, with applications to edge and range image segmentation. Technical Report LEMS-66, Division of Engineering, Brown University, 1990.
    26. B. C. Vemuri. Representation and Recognition of Objects From Dense Range Maps. PhD thesis, Department of Electrical and Computer Engineering, University of Texas at Austin, 1987.
    27. B. C. Vemuri, A. Mitiche, and J. K. Aggarwal. Curvaturebased representation of objects from range data. Image and Vision Computing, 4(2): 107-114,1986.
    28. 13. Wyvill, C. McPheeters, and B. Wyvill. Data structures for soft objects. The Visual Computer, 2(4):227-234, August 1986.

ACM Digital Library Publication: