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Tracking Intersection Curves of Two Deforming Parametric Surfaces. Xianming Chen ¹ , Richard Riesenfeld ¹ Elaine Cohen ¹, James Damon ² ¹ School of Computing, University of Utah ² Department of Mathematics, UNC. Two Main Ideas. Construct evolution vector field
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Tracking Intersection Curves of Two Deforming Parametric Surfaces Xianming Chen¹, Richard Riesenfeld¹ Elaine Cohen¹, James Damon² ¹School of Computing, University of Utah ²Department of Mathematics, UNC
Two Main Ideas • Construct evolution vector field • To follow the gradual change of intersection curve (IC) • Apply Morse theory and Shape Operator • To compute topological change of IC • Formulate locus of IC as 2-manifold in parametric 5-space • Compute quadric approximation at critical points of height function
Evolution Vector Field in Larger Context • Well-defined actually in a neighborhood of any P in R³, where two surfaces deform to P at t1and t2 • Vector field is on the tangent planes of level set surfaces defined by f = t1 - t2 • Locus of ICs is one of such level surfaces.
A Comment Singularity theory of stable surface mapping in physical space R3 {x, y, z} Morse theory of height function in augmented parametric space R5 { s1,s2,ŝ1,ŝ2,t }
Conclusion • Solve dynamic intersection curves of 2 deforming closed B-spline surfaces • Deformation represented as generalized offset surfaces • Implemented in B-splines, exploiting its symbolic computation and subdivision-based 0-dimensional root finding. • Evolve ICs by following evolution vector field • Create, annihilate, merge or split IC by 2nd order shape computation at critical points of a 2-manifold in a parametric 5-space.