• BANERJEE, D., GROSS, J., GADDAM, P. R., OLANO, M., HESS, W., TERRILL, J. E., GRIFFIN, T. J., HAGEDORN, J. G., KELSO, J. T., AND SATTERFIELD, S. G. 2010. An integrated interactive visualization and analysis environment to study the impact of fire on building structures. In Garland andWang [DBL 2010], 159–166.
  • BRONSON, J., RHEINGANS, P., AND OLANO, M. 2008. Semiautomatic stencil creation through error minimization. In Anjyo and Sillion [Anjyo and Sillion 2008], 31–37.
  • COHEN, J. D., MANOCHA, D., AND OLANO, M. 2003. Successive mappings: An approach to polygonal mesh simplification with guaranteed error bounds. Int. J. Comput. Geometry Appl. 13, 1, 61.
  • DUBOIS, T. M., LEE, B., WANG, Y., OLANO, M., AND VISHKIN, U. 2008. Xmt-gpu: A pram architecture for graphics computation. In ICPP, 364–372.
  • GRIFFIN, W., WANG, Y., BERRIOS, D., AND OLANO, M. 2011. Gpu curvature estimation on deformable meshes. In Garland and Wang [Garland and Wang 2011], 159–166.
  • INGRAM, S., MUNZNER, T., AND OLANO, M. 2009. Glimmer: Multilevel mds on the gpu. IEEE Trans. Vis. Comput. Graph. 15, 2, 249–261.
  • KLOETZLI, J., OLANO, M., AND RHEINGANS, P. 2008. Interactive volume isosurface rendering using bt volumes. In Haines and McGuire [Haines and McGuire 2008], 45–52.
  • KLOETZLI, J., STREGE, B., DECKER, J., AND OLANO, M. 2008. Parallel longest common subsequence using graphics hardware. In Favre and Ma [Favre and Ma 2008], 57–64.
  • OLANO, M., AND BAKER, D. 2010. Lean mapping. In Aliaga et al. [Aliaga et al. 2010], 181–188.
  • OLANO, M., KUEHNE, B., AND SIMMONS, M. 2003. Automatic shader level of detail. In Mark and Schilling [Mark and Schilling 2003], 7–14.
  • OLANO, M., BAKER, D., GRIFFIN, W., AND BARCZAK, J. 2011. Variable bit rate gpu texture decompression. Comput. Graph. Forum 30, 4, 1299–1308.
  • OLANO, M. 2005. Modified noise for evaluation on graphics hardware. In Meißner and Schneider [Meißner and Schneider 2005], 105–110.
  • SHOPF, J., AND OLANO, M. 2006. Procedural haptic texture. In Wellner and Hinckley [Wellner and Hinckley 2006], 179–186.
  • WANG, Y., AND OLANO, M. 2011. A framework for gpu 3d model reconstruction using structure-from-motion. In SIGGRAPH Posters, 27.
  • ZAFAR, F., AND OLANO, M. 2010. Tiny encryption algorithm for parallel random numbers on the gpu. In Aliaga et al. [Aliaga et al. 2010].
  • ZAFAR, F., OLANO, M., AND CURTIS, A. 2010. Gpu random numbers via the tiny encryption algorithm. In Hensley et al. [Hensley et al. 2010], 133–141.
  • BHAGAVATULA, S., RHEINGANS, P., AND DESJARDINS, M. 2005. Discovering high-level parameters for visualization design. In Brodlie et al. [Brodlie et al. 2005], 255–262.
  • BRODLIE, K., DUKE, D. J., AND JOY, K. I., Eds. 2005. Euro-Vis05: Joint Eurographics – IEEE VGTC Symposium on Visualization, Leeds, United Kingdom, 1-3 June 2005, Eurographics Association.
  • BRONSON, J., RHEINGANS, P., AND OLANO, M. 2008. Semiautomatic stencil creation through error minimization. In NPAR, 31–37.
  • CABAN, J., AND RHEINGANS, P. 2008. Texture-based transfer functions for direct volume rendering. IEEE Trans. Vis. Comput. Graph. 14, 6, 1364–1371.
  • CABAN, J., AND RHEINGANS, P. 2010. Relational statistical deformation models for morphological image analysis and classification. In ISBI, 1333–1336.
  • CABAN, J., JOSHI, A., AND RHEINGANS, P. 2007. Texture based feature tracking for effective time-varying data visualization. IEEE Trans. Vis. Comput. Graph. 13, 6, 1472–1479.
  • CEDILNIK, A., AND RHEINGANS, P. 2000. Procedural annotation of uncertain information. In IEEE Visualization, 77–83.
  • CHLAN, E. B., AND RHEINGANS, P. 2004. A botanically inspired high-dimensional visualization with multivariate glyphs. In Vis-Sym , 231–236, 349.
  • CHLAN, E. B., AND RHEINGANS, P. 2005. Multivariate glyphs for multi-object clusters. In INFOVIS, 19.
  • DESJARDINS, M., AND RHEINGANS, P. 1999. Visualization of high-dimensional model characteristics. In Workshop on New Paradigms in Information Visualization and Manipulation, 6–8.
  • DESJARDINS, M., BULKA, B., CARR, R., HUNT, A., RATHOD, P., AND RHEINGANS, P. 2006. Heuristic search and information visualization methods for school redistricting. In AAAI, 1774–1781.
  • DESJARDINS, M., BULKA, B., CARR, R., JORDAN, E., AND RHEINGANS, P. 2007. Heuristic search and information visualization methods for school redistricting. AI Magazine 28, 3, 59–72.
  • EBERT, D. S., AND RHEINGANS, P. 2000. Volume illustration: non-photorealistic rendering of volume models. In IEEE Visualization, 195–202.
  • EBERT, D. S., AND RHEINGANS, P. 2003. Procedural volume modeling, rendering, and visualization. In Data Visualization: The State of the Art , 317–332.
  • EBERT, D. S., MORRIS, C. J., RHEINGANS, P., AND YOO, T. S. 2002. Designing effective transfer functions for volume rendering from photographic volumes. IEEE Trans. Vis. Comput. Graph. 8, 2, 183–197.
  • GOODALL, J. R., LUTTERS, W. G., RHEINGANS, P., AND KOMLODI, A. 2005. Preserving the big picture: Visual network traffic analysis with tn. In VizSEC, 6.
  • GOODALL, J. R., OZOK, A. A., LUTTERS, W. G., RHEINGANS, P., AND KOMLODI, A. 2005. A user-centered approach to visualizing network traffic for intrusion detection. In CHI Extended Abstracts , 1403–1406.
  • GOODALL, J. R., LUTTERS, W. G., RHEINGANS, P., AND KOMLODI, A. 2006. Focusing on context in network traffic analysis. IEEE Computer Graphics and Applications 26, 2, 72–80.
  • GRIGORYAN, G., AND RHEINGANS, P. 2002. Probabilistic surfaces: Point based primitives to show surface uncertainty. In IEEE Visualization, 147–153.
  • GRIGORYAN, G., AND RHEINGANS, P. 2004. Point-based probabilistic surfaces to show surface uncertainty. IEEE Trans. Vis. Comput. Graph. 10, 5, 564–573.
  • JOSHI, A., AND RHEINGANS, P. 2005. Illustration-inspired techniques for visualizing time-varying data. In IEEE Visualization, 86.
  • JOSHI, A., AND RHEINGANS, P. 2008. Evaluation of illustration inspired techniques for time-varying data visualization. Comput.Graph. Forum 27, 3, 999–1006.
  • JOSHI, A., CABAN, J., RHEINGANS, P., AND SPARLING, L. 2009. Case study on visualizing hurricanes using illustration inspired techniques. IEEE Trans. Vis. Comput. Graph. 15, 5, 709–718.
  • KLOETZLI, J., OLANO, M., AND RHEINGANS, P. 2008. Interactive volume isosurface rendering using bt volumes. In SI3D, 45–52.
  • KOMLODI, A., RHEINGANS, P., AYACHIT, U., GOODALL, J. R., AND JOSHI, A. 2005. A user-centered look at glyph-based security visualization. In VizSEC, 3.
  • LOWEKAMP, B. C., RHEINGANS, P., AND YOO, T. S. 2002. Exploring surface characteristics with interactive gaussian images (a case study). In IEEE Visualization, 553–556.
  • LU, A., MORRIS, C. J., EBERT, D. S., RHEINGANS, P., AND HANSEN, C. D. 2002. Non-photorealistic volume rendering using stippling techniques. In IEEE Visualization, 211–218.
  • LU, A., MORRIS, C. J., TAYLOR, J., EBERT, D. S., HANSEN, C. D., RHEINGANS, P., AND HARTNER, M. 2003. Illustrative interactive stipple rendering. IEEE Trans. Vis. Comput. Graph. 9, 2, 127–138.
  • MOORHEAD, R., JOHNSON, C., MUNZNER, T., PFISTER, H., RHEINGANS, P., AND YOO, T. S. 2006. Visualization research challenges: A report summary. Computing in Science and Engineering 8, 4, 66–73.
  • MORSE, B. S., YOO, T. S., CHEN, D. T., RHEINGANS, P., AND SUBRAMANIAN, K. R. 2001. Interpolating implicit surfaces from scattered surface data using compactly supported radial basis functions. In Shape Modeling International, 89–98.
  • MUNZNER, T., JOHNSON, C., MOORHEAD, R., PFISTER, H., RHEINGANS, P., AND YOO, T. S. 2006. Nih-nsf visualization research challenges report summary. IEEE Computer Graphics and Applications 26, 2, 20–24.
  • PEARLMAN, J., AND RHEINGANS, P. 2007. Visualizing network security events using compound glyphs from a service-oriented perspective. In VizSEC, 131–146.
  • PEARLMAN, J., RHEINGANS, P., AND DESJARDINS, M. 2007. Visualizing diversity and depth over a set of objects. IEEE Computer Graphics and Applications 27, 5, 35–45.
  • RHEINGANS, P., AND DESJARDINS, M. 2000. Visualizing high dimensional predicitive model quality. In IEEE Visualization, 493–496.
  • RHEINGANS, P., AND EBERT, D. S. 2001. Volume illustration: Non photorealistic rendering of volume models. IEEE Trans. Vis. Comput. Graph. 7, 3, 253–264.
  • RHEINGANS, P. 2002. Are we there yet? exploring with dynamic visualization. IEEE Computer Graphics and Applications 22, 1, 6–10.
  • RHEINGANS, P. 2004. Expressive volume rendering. In WSCG, 7–10. SHANBHAG, P., RHEINGANS, P., AND DESJARDINS, M. 2005. Temporal visualization of planning polygons for efficient partitioning of geo-spatial data. In INFOVIS, 28.
  • WORTMAN, D., AND RHEINGANS, P. 2007. Visualizing trends in student performance across computer science courses. In SIGCSE , 430–434.
  • YOO, T. S., AND RHEINGANS, P. 1999. Digital design of a surgical simulator for interventional magnetic resonance imaging. In IEEE Visualization, 393–396.
  • EBERT, D. S., AND RHEINGANS, P. 2000. Volume illustration: non-photorealistic rendering of volume models. In IEEE Visualization, 195–202.
  • EBERT, D. S., CARLSON, W. E., AND PARENT, R. E. 1994. Solid spaces and inverse particle systems for controlling the animation of gases and fluids. The Visual Computer 10, 4, 179–190.
  • EBERT, D. S., YAGEL, R., SCOTT, J. N., AND KURZION, Y. 1994. Volume rendering methods for computational fluid dynamics visualization. In IEEE Visualization, 232–239.
  • EBERT, D. S., SHAW, C. D., ZWA, A., MILLER, E. L., AND ROBERTS, D. A. 1996. Minimally-immersive interactive volumetric information visualization. In INFOVIS, 66–67.
  • EBERT, D. S., SHAW, C. D., ZWA, A., AND STARR, C. 1996. Two-handed interactive stereoscopic visualization. In IEEE Visualization, 205–210.
  • EBERT, D. S., SHAW, C. D., ZWA, A., MILLER, E. L., AND ROBERTS, D. A. 1997. Interactive volumetric information visualization. In Graphics Interface, 121–128.
  • EBERT, D. S., ZWA, A., MILLER, E. L., SHAW, C. D., AND ROBERTS, D. A. 1997. Two-handed volumetric document corpus management. IEEE Computer Graphics and Applications 17, 4, 60–62.
  • EBERT, D. S., HEATH, D. G., KUSZYK, B. S., EDWARDS, L., SHAW, C. D., KUKLA, J. M., BEDWELL, T., AND FISHMAN, E. K. 1998. Evaluating the potential and problems of three-dimensional computed tomography measurements of arterial stenosis. J. Digital Imaging 11, 3, 151–157.
  • EBERT, D. S., BEDWELL, E., MAHER, S., SMOLIAR, L., AND DOWNING, E. 1999. Realizing 3d visualization using grossed beam volumetric displays. Commun. ACM 42, 8, 100–107.
  • EBERT, D. S., ROHRER, R. M., SHAW, C. D., PANDA, P., KUKLA, J. M., AND ROBERTS, D. A. 2000. Procedural shape generation for multi-dimensional data visualization. Computers Graphics 24, 3, 375–384.
  • EBERT, D. S. 1996. Advanced modeling techniques for computer graphics. ACM Comput. Surv. 28, 1, 153–156.
  • EBERT, D. S. 1997. Advanced geometric modeling. In The Computer Science and Engineering Handbook. 1226–1244.
  • EBERT, D. S. 2000. Guest editor’s introduction: Special section on visualization. IEEE Trans. Vis. Comput. Graph. 6, 2, 97.
  • GRASSO, M. A., EBERT, D. S., AND FININ, T. W. 1998. The integrality of speech in multimodal interfaces. ACM Trans. Comput.-Hum. Interact. 5, 4, 303–325.
  • ROHRER, R. M., SIBERT, J. L., AND EBERT, D. S. 1998. The shape of shakespeare: Visualizing text using implicit surfaces. In INFOVIS, 121–129.
  • ROHRER, R. M., SIBERT, J. L., AND EBERT, D. S. 1999. A shape-based visual interface for text retrieval. IEEE Computer Graphics and Applications 19, 5, 40–46.
  • SHAW, C. D., HALL, J. A., BLAHUT, C., EBERT, D. S., AND ROBERTS, D. A. 1999. Using shape to visualize multivariate data. In Workshop on New Paradigms in Information Visualization and Manipulation, 17–20.
  • SHAW, C. D., HALL, J. A., EBERT, D. S., AND ROBERTS, D. A. 1999. Interactive lens visualization techniques. In IEEE Visualization, 155–160.
  • SHAW, C. D., KUKLA, J. M., SOBOROFF, I., EBERT, D. S., NICHOLAS, C. K., ZWA, A., MILLER, E. L., AND ROBERTS, D. A. 1999. Interactive volumetric information visualization for document corpus management. Int. J. on Digital Libraries 2, 2-3, 144–156.
  • SOBOROFF, I., NICHOLAS, C. K., KUKLA, J. M., AND EBERT, D. S. 1997. Visualizing document authorship using n-grams and latent semantic indexing. In Workshop on New Paradigms in Information Visualization and Manipulation, 43–48.
  • YAGEL, R., EBERT, D. S., SCOTT, J. N., AND KURZION, Y. 1995. Grouping volume renderers for enhanced visualization in computational fluid dynamics. IEEE Trans. Vis. Comput. Graph. 1, 2, 117–132.