Fast and Exact Root Parity for Continuous Collision Detection
Copyright policy )Fast and Exact Root Parity for Continuous Collision Detection
AbstractWe introduce the firstexactroot parity counter for continuous collision detection (CCD). That is, our algorithm computes the parity (even or odd) of the number of roots of the cubic polynomial arising from a CCD query. We note that the parity is unable to differentiate between zero (no collisions) and the rare case of two roots (collisions).Our method does not have numerical parameters to tune, has a performance comparable to efficient approximate algorithms, and is exact. We test our approach on a large collection of synthetic tests and real simulations, and we demonstrate that it can be easily integrated into existing simulators.
- New York University United States
- National Research Council Sri Lanka
- National Research Council Italy
- University of Victoria Canada
- Beihang University China (People's Republic of)
Computing methodologies: Collision detection; Mathematics of computing: Mathematical software
Computing methodologies: Collision detection; Mathematics of computing: Mathematical software
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