97 | -- | 98 | Gregory M. Nielson. Visualization Takes its Place in the Scientific Community |
99 | -- | 108 | Nelson L. Max. Optical Models for Direct Volume Rendering |
109 | -- | 116 | Shigeru Muraki. Multiscale Volume Representation by a DoG Wavelet |
117 | -- | 132 | Roni Yagel, David S. Ebert, James N. Scott, Yair Kurzion. Grouping Volume Renderers for Enhanced Visualization in Computational Fluid Dynamics |
133 | -- | 141 | Lisa K. Forssell, Scott D. Cohen. Using Line Integral Convolution for Flow Visualization: Curvilinear Grids, Variable-Speed Animation, and Unsteady Flows |
142 | -- | 150 | Hans-Georg Pagendarm, Birgit Walter. Competent, Compact, Comparative Visualization of a Vortical Flow Field |
151 | -- | 163 | David C. Banks, Bart A. Singer. A Predictor-Corrector Technique for Visualizing Unsteady Flow |
164 | -- | 174 | Andrew J. Hanson, Hui Ma. Quaternion Frame Approach to Streamline Visualization |
175 | -- | 193 | Marc Najork, Marc H. Brown. Obliq-3D: A High-Level, Fast-Turnaround 3D Animation System |
194 | -- | 204 | Ayellet Tal, David P. Dobkin. Visualization of Geometric Algorithms |