Polynomial System Solving: the Case of a Six-Atom Molecule
Ioannis Z. Emiris, Bernard Mourrain
- 发表年份
- 1996
- 引用次数
- 2
摘要
A relatively new branch of computational biology and chemistry has been emerging as an e#ort to apply successful paradigms and algorithms from geometry and robot kinematics to predicting the structure of molecules, embedding them in Euclidean space, and #nding the energetically favorable con#gurations. We illustrate several e#cient algebraic algorithms for enumerating all possible conformations of a cyclic molecule and for studying its singular locus. Recent advances in computational algebra are exploited, including distance geometry, sparse polynomial theory based on Newton polytopes, and matrix methods for solving nonlinear multivariate polynomial systems. With respect to the latter, we compare sparse resultants, Bezoutians, and Sylvester resultants in cascade, in terms of performance and numerical stability.
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