Physical Simulation Thursday, 25 July 10:30 am - 12:15 pm River Room 001 Session Chair: Holly Rushmeier, IBM T. J. Watson Research Center Modeling the Accumulation of Wind-Driven Snow A method for modeling the appearance of snow drifts formed by accumulation of wind-blown snow near buildings and other obstacles. James F. O'Brien University of California, Berkeley job@eecs.berkeley.edu Bryan E. Feldman University of California, Berkeley The Simulation of Fluid-Rigid Body Interaction Modeling of the interaction between fluid and rigid bodies, and how to simulate scenes with consistent motion of fluid and rigid bodies. Tsunemi Takahashi Toshiba Corporation tsunemi.takahashi@toshiba.co.jp Ueki Heihachi Toshiba CAE Systems Incorporated Atsushi Kunimatsu Hiroko Fujii Toshiba Corporation Modal Analysis for Real-Time Viscoelastic Deformation Using modal decompositions from finite-element models to model viscoelastic deformation in real time in an unconditionally stable fashion. James F. O'Brien University of California, Berkeley job@eecs.berkeley.edu Chen Shen Kris K. Hauser Christine M. Gatchalian University of California, Berkeley Firefighter-Training Virtual Environment A virtual environment in which the user, a commanding officer trainee, instructs teams of virtual firefighters to perform different actions to put out virtual fires. Tazama St. Julien Georgia Institute of Technology tazstjulien@yahoo.com Chris D. Shaw Georgia Institute of Technology Summaries of SIGGRAPH 2002 Sketches & Applications are available in the SIGGRAPH 2002 Conference Abstracts and Applications.