A discrete wedge product on general polygonal meshes
By: Lenka Ptackova
Potential Business Impact:
Makes computer graphics work on any shape.
Discrete exterior calculus offers a coordinate-free discretization of exterior calculus especially suited for computations on curved spaces. In this work, we present a wedge product on 2-dimensional pseudomanifolds, whose faces are any polygons. We prove that this polygonal wedge product is compatible with the discrete exterior derivative in the sense that it satisfies the Leibniz product rule. We thus extend previously studied discretizations of wedge products from simplicial or quadrilateral meshes to surface meshes whose faces are arbitrary simple polygons. We also prove that our discrete wedge product corresponds to a cup product of cochains on 2-pseudomanifolds. By rigorously justifying our construction we add another piece to ever evolving discrete versions of exterior calculus.
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