34
[7] Gibson, S. F. F. Using distance maps for accurate surface representation in
sampled volumes. Volume Visualization and Graphics, IEEE Symposium on 0
(1998), 23-30.
[8] Hadwiger, M., Berger, C., and Hauser, H. High-quality two-level volume
rendering of segmented data sets on consumer graphics hardware. In VIS ’03:
Proceedings of the Ifth IEEE Visualization 2003 (VIS,03) (Washington, DC,
USA, 2003), IEEE Computer Society, p. 40.
[9] Ju, T., Losasso, F., Schaefer, S., and Warren, J. Dual contouring of
hermite data. In SIGGRAPH ’02: Proceedings of the 29th annual conference
on Computer graphics and interactive techniques (New York, NY, USA, 2002),
ACM, pp. 339-346.
[10] Kadosh, A., Cohen-Or, D., and Yagel, R. Tricubic interpolation of dis-
crete surfaces for binary volumes. IEEE Transactions on Visualization and Com-
puter Graphics 9, 4 (2003), 580-586.
[11] Kindlmann, G., and Durkin, J. W. Semi-automatic generation of transfer
functions for direct volume rendering. In VVS ’98: Proceedings of the 1998
IEEE symposium on Volume visualization (New York, NY, USA, 1998), ACM,
pp. 79-86.
[12] Kobbelt, L. P., Botsch, M., Schwanecke, U., and Seidel, H.-Р. Fea-
ture sensitive surface extraction from volume data. In SIGGRAPH ’01: Pro-
ceedings of the 28th annual conference on Computer graphics and interactive
techniques (New York, NY, USA, 2001), ACM, pp. 57-66.
[13] Lichtenbelt, B., Crane, R., and Naqvi, S. Introduction to volume ren-
dering. Prentice-Hall, Inc., Upper Saddle River, NJ, USA, 1998.
[14] Liu, L., Raber, D., Nopachai, D., Commean, P., Sinacore, D., Prior,
F., Pless, R., and Ju, T. Interactive separation of segmented bones in ct