Carlos Hermoso scite author profile

This paper addresses the problem of determining the symmetries of a plane or space curve defined by a rational parametrization. We provide effective methods to compute the involution and rotation symmetries for the planar case. As for space curves, our method finds the involutions in all cases, and all the rotation symmetries in the particular case of Pythagorean-hodograph curves. Our algorithms solve these problems without converting to implicit form. Instead, we make use of a relationship between two proper parametrizations of the same curve, which leads to algorithms that involve only univariate polynomials. These algorithms have been implemented and tested in the Sage system.

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Detecting similarity of rational plane curves

Alcázar¹,

Hermoso²,

Muntingh³

2014

Journal of Computational and Applied Mathematics

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A novel and deterministic algorithm is presented to detect whether two given rational plane curves are related by means of a similarity, which is a central question in Pattern Recognition. As a by-product it finds all such similarities, and the particular case of equal curves yields all symmetries. A complete theoretical description of the method is provided, and the method has been implemented and tested in the Sage system for curves of moderate degrees.

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Algebraic surfaces invariant under scissor shears

2016

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Symmetry detection of rational space curves from their curvature and torsion

Alcázar

Hermoso

Muntingh

2015

Computer Aided Geometric Design

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We present a novel, deterministic, and efficient method to detect whether a given rational space curve is symmetric. By using well-known differential invariants of space curves, namely the curvature and torsion, the method is significantly faster, simpler, and more general than an earlier method addressing a similar problem [3]. To support this claim, we present an analysis of the arithmetic complexity of the algorithm and timings from an implementation in Sage.

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Involutions of polynomially parametrized surfaces

Alcázar

Hermoso

2016

Journal of Computational and Applied Mathematics

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We provide an algorithm for detecting the involutions leaving a surface defined by a polynomial parametrization invariant. As a consequence, the symmetry axes, symmetry planes and symmetry center of the surface, if any, can be determined directly from the parametrization, without computing or making use of the implicit representation. The algorithm is based on the fact, proven in the paper, that any involution of the surface comes from an involution of the parameter space R 2 ; therefore, by determining the latter, the former can be found. The algorithm has been implemented in the computer algebra system Maple 17. Evidence of its efficiency for moderate degrees, examples and a complexity analysis are also given.

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Carlos Hermoso

Detecting symmetries of rational plane and space curves

Detecting similarity of rational plane curves

Algebraic surfaces invariant under scissor shears

Symmetry detection of rational space curves from their curvature and torsion

Involutions of polynomially parametrized surfaces

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