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Summary Sentence: Model Reduction for Elasticity Problems in Computer Graphics and Animation
Full Summary: No summary paragraph submitted.
Jernej BarbicSpeaker:
Jernej Barbic
Title:
Model Reduction for Elasticity Problems in Computer Graphics and Animation
Abstract:
In nature, there are many dynamical systems that are reasonably well understood from the viewpoint of physics, but are computationally slow to simulate with detailed models. The observed transients in many simulations are, however, often not very rich, but exhibit primarily simple, low-dimensional dynamics. Such observations form the cornerstone of model reduction, an interdisciplinary technique used in electrical and aerospace engineering, as well as solid and fluid mechanics, and computer graphics. In my career, I have studied how model reduction can be applied to elasticity problems in computer graphics and animation. I will present my work on model reduction applied to fast simulation, optimal control, optimization, collision detection, sound simulation and interactive design of
geometrically and materially complex models undergoing large deformations.
Bio:
Jernej Barbic is an assistant professor of computer science at USC, working in the field of computer graphics and animation. In 2011, MIT Technology Review named him of the Top 35 Innovators under the age of 35 in the world (TR35). Jernej is the author of Vega FEM, an free C/C++ software physics library for deformable object
simulation. He received his Ph.D. from CMU, and did postdoctoral research at MIT CSAIL. His research interests include computer graphics, animation, fast physics, special effects for film, medical simulation, FEM deformable objects, haptics, sound simulation, and model reduction and control of nonlinear systems. Jernej is a NSF
CAREER Award winner and holds a Viterbi Early Career Chair position at USC.
