Image Processing Reference
In-Depth Information
8. Blaas, J., Botha, C.P., Post, F.H.: Interactive visualization of multi-field medical data using
linked physical and feature-space views. In: EuroVis, pp. 123-130 (2007)
9. Daniels, J. II., Anderson, E.W., Nonato, L.G., Silva, C.T.: Interactive vector field feature iden-
tification. IEEE Trans. Vis. Comput. Graph.
16
, 1560-1568 (2010)
10. Dobrev, P., Van Long, T., Linsen, L. : A cluster hierarchy-based volume rendering approach for
interactive visual exploration ofmulti-variate volume data. In: Proceedings of 16th International
Workshop on Vision, Modeling and Visualization (VMV 2011), pp. 137-144. Eurographics
Association (2011)
11. Elmoasry, A., Maswadah, M.S., Linsen, L.: Semi-automatic rough classification of multichan-
nel medical imaging data. In: Visualization in Medicine and Life Sciences II (to appear).
Springer, Heidelberg (2011)
12. Faloutsos, C., Lin, K.I.: Fastmap: a fast algorithm for indexing, data-mining and visualization of
traditional andmultimedia datasets. In: SIGMOD '95: Proceedings of the 1995 ACMSIGMOD
international Conference on Management of data, pp. 163-174. ACM Press, New York (1995)
13. Han, J., Kamber, M.: Data Mining: Concepts and Techniques. Morgan Kaufmann Publishers,
Los Altos (2006)
14. Heckbert, P.: Color image quantization for frame buffer display. In: Computer Graphics (Pro-
ceedings of ACM SIGGRAPH 82), pp. 297-307 (1982)
15. Heinrich, J., Bachthaler, S., Weiskopf, D.: Progressive splatting of continuous scatterplots and
parallel coordinates. Comput. Graph. Forum
30
(3), 653-662 (2011)
16. Ivanovska, T: Efficient multichannel image partitioning: theory and application. PhD thesis,
School of Engineering and Science, Jacobs University, Bremen, Germany (2009)
17. Ivanovska, T., Linsen, L: A user-friendly tool for semi-automated segmentation and surface
extraction from color volume data using geometric feature space operations. In: Visualization
in Medicine and Life Sciences, pp. 145-162, 319. Springer, Heidelberg (2007)
18. Jain, A.K., Dubes, R.C.: Algorithms for Clustering Data. Prentice Hall, Englewood Cliffs
(1988)
19. Jänicke, H., Wiebel, A., Scheuermann, G., Kollmann, W.: Multifield visualization using local
statistical complexity. IEEE Trans. Vis. Comput. Graph.
13
(6), 1384-1391 (2007)
20. Kandogan, E.: Star coordinates: a multi-dimensional visualization technique with uniform
treatment of dimensions. In: Proceedings of IEEE Information Visualization Symposium (Hot
Topics), pp. 4-8 (2000)
21. Kindlmann, G., Durkin, J.W.: Semi-automatic generation of transfer functions for direct volume
rendering. In: IEEE Symposium on Volume Visualization, pp. 79-86 (1998)
22. Kniss, J., Kindlmann, G., Hansen, C.: Interactive volume rendering using multi-dimensional
transfer functions and direct manipulation widgets. In: VIS '01: Proceedings of the Conference
on Visualization '01, pp. 255-262. IEEE Computer Society, Washington, DC, USA (2001)
23. Lehmann, D.J., Theisel, H.: Discontinuities in continuous scatter plots. IEEE Trans. Vis. Com-
put. Graph.
16
, 1291-1300 (2010)
24. Lehmann, D.J., Theisel, H.: Features in continuous parallel coordinates. IEEE Trans. Vis.
Comput. Graph.
17
(12), 1912-1921 (2011)
25. Linsen, L., VanLong, T., Rosenthal, P., Rosswog, S.: Surface extraction frommulti-field particle
volume data using multi-dimensional cluster visualization. IEEE Tran. Vis. Comput. Graph.
14
(6), 1483-1490 (2008)
26. Linsen, L., Van Long, T., Rosenthal, P.: Linking multi-dimensional feature space cluster visual-
ization to surface extraction from multi-field volume data. IEEE Comput. Graph. Appl.
29
(3),
85-89 (2009)
27. Van Long, T., Linsen, L.: MultiClusterTree: Interactive visual exploration of hierarchical clus-
ters in multidimensional multivariate data. Comput. Graph. Forum
28
(3), 823-830 (2009)
28. Van Long, T., Linsen, L.: Visualizing high density clusters in multidimensional data using
optimized star coordinates. Computat. Stat.
26
, 655-678 (2011)
29. Maciejewski, R., Woo, I., Chen, W., Ebert, D.: Structuring feature space: a non-parametric
method for volumetric transfer function generation. IEEE Trans. Vis. Comput. Graph.
15
(6),
1473-1480 (2009)
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