Weight enumerators of Reed-Muller codes from cubic curves and their duals

AbstractSplines are one of the main methods of mathematically representing complicated shapes, which have become the primary technique in the fields of Computer Graphics (CG) and Computer-Aided Geometric Design (CAGD) for modeling complex surfaces. Among all, Bézier and Catmull–Rom splines are the most common in the sub-fields of engineering. In this paper, we focus on conversion between cubic Bézier and Catmull–Rom curve segments, rather than going through their properties. By deriving the conversion equations, we aim at converting the original set of the control points of either of the Catmull–Rom or Bézier cubic curves to a new set of control points, which corresponds to approximately the same shape as the original curve, when considered as the set of the control points of the other curve. Due to providing simple linear transformations of control points, the method is very simple, efficient, and easy to implement, which is further validated in this paper using some numerical and visual examples.

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Cubic Curves Over the Finite Field of Order Twenty-Five

Journal of Physics Conference Series ◽

10.1088/1742-6596/1818/1/012079 ◽

2021 ◽

Vol 1818 (1) ◽

pp. 012079

Author(s):

S. H. Naji ◽

E. B. Al-Zangana

Keyword(s):

Finite Field ◽

Cubic Curves

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Euler equations on the general linear group, cubic curves, and inscribed hexagons

L’Enseignement Mathématique ◽

10.4171/lem/62-1/2-9 ◽

2016 ◽

Vol 62 (1) ◽

pp. 143-170

Author(s):

Konstantin Aleshkin ◽

Anton Izosimov

Keyword(s):

Euler Equations ◽

Linear Group ◽

General Linear Group ◽

General Linear ◽

Cubic Curves

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The proportion of plane cubic curves over ℚ that everywhere locally have a point

International Journal of Number Theory ◽

10.1142/s1793042116500664 ◽

2016 ◽

Vol 12 (04) ◽

pp. 1077-1092 ◽

Cited By ~ 3

Author(s):

Manjul Bhargava ◽

John Cremona ◽

Tom Fisher

Keyword(s):

Rational Function ◽

Rational Point ◽

Cubic Curves

We show that the proportion of plane cubic curves over [Formula: see text] that have a [Formula: see text]-rational point is a rational function in [Formula: see text], where the rational function is independent of [Formula: see text], and we determine this rational function explicitly. As a consequence, we obtain the density of plane cubic curves over [Formula: see text] that have points everywhere locally; numerically, this density is shown to be [Formula: see text].

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Transformations depending on sets of associated points

Mathematical Proceedings of the Cambridge Philosophical Society ◽

10.1017/s030500410002778x ◽

1952 ◽

Vol 48 (3) ◽

pp. 383-391

Author(s):

T. G. Room

Keyword(s):

Projective Space ◽

Projective Plane ◽

Three Dimensional ◽

Cubic Curves ◽

Birational Transformations ◽

Quadric Surfaces ◽

Base Points ◽

Dimensional Projective Space ◽

Quartic Curves

This paper falls into three sections: (1) a system of birational transformations of the projective plane determined by plane cubic curves of a pencil (with nine associated base points), (2) some one-many transformations determined by the pencil, and (3) a system of birational transformations of three-dimensional projective space determined by the elliptic quartic curves through eight associated points (base of a net of quadric surfaces).

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