Rendering Techniques 1995: Dublin, Ireland

@proceedings{DBLP:conf/rt/1995,
  editor    = {Pat Hanrahan and
               Werner Purgathofer},
  title     = {Rendering Techniques '95, Proceedings of the Eurographics Workshop
               in Dublin, Ireland, June 12-14, 1995},
  booktitle = {Rendering Techniques},
  publisher = {Springer},
  year      = {1995},
  isbn      = {3-211-82733-1},
  bibsource = {DBLP, http://dblp.uni-trier.de}
}

• Maurice van der Zwaan, Erik Reinhard, Frederik W. Jansen: Pyramid Clipping for Efficient Ray Traversal. 1-10
• Eric P. Lafortune, Yves D. Willems: A 5D Tree to Reduce the Variance of Monte Carlo Ray Tracing. 11-20
• Yair Kurzion, Roni Yagel: Space Deformation using Ray Deflectors. 21-30
• Tsukasa Noma: Bridging between Surface Rendering and Volume Rendering for Multi-resolution Display. 31-40
• Jos Stam: Multiple Scattering as a Diffusion Process. 41-50
• Georgios Sakas, Marcus Grimm, Alexandros Savopoulos: Optimized Maximum Intensity Projection (MIP). 51-63
• Raghu Machiraju, J. Edward Swan II, Roni Yagel: Spatial Domain Characterization and Control of Reconstruction Errors. 64-73
• Nelson L. Max, Keiichi Ohsaki: Rendering Trees from Precomputed Z-Buffer Views. 74-81
• Holly E. Rushmeier, Gregory J. Ward, Christine D. Piatko, Phil Sanders, Bert Rust: Comparing Real and Synthetic Images: Some Ideas about Metrics. 82-91
• Jeffry Nimeroff, Julie Dorsey, Holly E. Rushmeier: A Framework for Global Illumination in Animated Environments. 92-103
• Gregory J. Ward: Making Global Illumination User-friendly. 104-114
• James Arvo: The Role of Functional Analysis in Global Illumination. 115-126
• Alain Fournier: From Local to Global Illumination and Back. 127-136
• Stefan Müller, Wolfram Kresse, Neil Gatenby, Frank Schöffel: A Radiosity Approach for the Simulation of Daylight. 137-146
• Pascal M. Deville, Jean-Claude Paul: Modeling the Spatial Energy Distribution of Complex Light Sources for Lighting Engineering. 147-159
• Pierre Poulin, Alain Fournier: Painting Surface Characteristics. 160-169
• Sumanta N. Pattanaik, Kadi Bouatouch: Linear Radiosity with Error Estimation. 170-185
• Nicolas Holzschuch, François X. Sillion: Accurate Computation of the Radiosity Gradient for Constant and Linear Emitters. 186-195
• François X. Sillion, George Drettakis, Cyril Soler: A Clustering Algorithm for Radiance Calculation in General Environments. 196-205
• László Neumann, Werner Purgathofer, Robert F. Tobler, Attila Neumann, Pavol Eliás, Martin Feda, Xavier Pueyo: The Stochastic Ray Method for Radiosity. 206-218
• Peter Shirley, Bretton Wade, Philip M. Hubbard, David Zareski, Bruce Walter, Donald P. Greenberg: Global Illumination via Density Estimation. 219-230
• Mateu Sbert, Frederic Pérez, Xavier Pueyo: Global Monte Carlo. A Progressive Solution. 231-239
• Philipp Slusallek, Michael Schröder, Marc Stamminger, Hans-Peter Seidel: Smart Links and Efficient Reconstruction for Wavelet Radiosity. 240-251
• Peter Schröder, Wim Sweldens: Spherical Wavelets: Texture Processing. 252-263
• Reid Gershbein: Integration Methods for Galerkin Radiosity Couplings. 264-273
• Steven Collins: Reconstruction of Illumination from Area Luminaires. 274-283
• Kurt Zimmerman, Peter Shirley: A Two-Pass Solution to the Rendering Equation with a Source Visibility Process. 284-295
• Alain Fournier: Separating Reflection Functions for Linear Radiosity. 296-305
• Philip Dutré, Yves D. Willems: Potential-driven Monte Carlo Particle Tracing for Diffuse Environments with Adaptive Probability Functions. 306-315
• Philippe Bekaert, Yves D. Willems: Importance-Driven Progressive Refinement Radiosity. 316-325
• Henrik Wann Jensen: Importance Driven Path Tracing using the Photon Map. 326-335
• László Neumann, Robert F. Tobler, Pavol Eliás: The Constant Radiosity Step. 336-344
• Gladimir V. G. Baranoski, Randall Bramley, Peter Shirley: Fast Radiosity Solutions for Environments with High Average Reflectance. 345-356