6533b7d6fe1ef96bd12663f2

RESEARCH PRODUCT

New Geometric Constraint Solving Formulation: Application to the 3D Pentahedron

Hichem BarkiDominique MichelucciSebti FoufouJean Marc Cane

subject

Constraint (information theory)Mathematical optimizationQuadrilateralComputer scienceAlgebraic numberFocus (optics)Geometric modelingParametrizationPentahedronPlanarity testing

description

Geometric Constraint Solving Problems (GCSP) are nowadays routinely investigated in geometric modeling. The 3D Pentahedron problem is a GCSP defined by the lengths of its edges and the planarity of its quadrilateral faces, yielding to an under-constrained system of twelve equations in eighteen unknowns. In this work, we focus on solving the 3D Pentahedron problem in a more robust and efficient way, through a new formulation that reduces the underlying algebraic formulation to a well-constrained system of three equations in three unknowns, and avoids at the same time the use of placement rules that resolve the under-constrained original formulation. We show that geometric constraints can be specified in many ways and that some formulations are much better than others, because they are much smaller and they avoid spurious degenerate solutions. Several experimentations showing a considerable performance enhancement (×42) are reported in this paper to consolidate our theoretical findings.

yearjournalcountryeditionlanguage
2014-01-01
https://doi.org/10.1007/978-3-319-07998-1_68