Numerical analysis of an ode and a level set methods for evolving spirals by crystalline eikonal-curvature flow

Tetsuya Ishiwata; Takeshi Ohtsuka

doi:10.3934/dcdss.2020390

Numerical analysis of an ode and a level set methods for evolving spirals by crystalline eikonal-curvature flow

Tetsuya Ishiwata, Takeshi Ohtsuka

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

In this paper, the evolution of a polygonal spiral curve by the crystalline curvature flow with a pinned center is considered from two viewpoints; a discrete model consisting of an ODE system describing facet lengths and another using level set method. We investigate the difference of these models numerically by calculating the area of an interposed region by their spiral curves. The area difference is calculated by the normalized L¹ norm of the difference of step-like functions which are branches of arg(x) whose discontinuities are on the spirals. We find that the differences in the numerical results are small, even though the model equations around the center and the farthest facet are slightly different.

Original language	English
Pages (from-to)	893-907
Number of pages	15
Journal	Discrete and Continuous Dynamical Systems - Series S
Volume	14
Issue number	3
DOIs	https://doi.org/10.3934/dcdss.2020390
Publication status	Published - 2021 Mar

Keywords

Crystalline eikonal-curvature flow
Evolution of a polygonal spiral
Finite difference scheme
Level set method
ODE system for crystalline motion

ASJC Scopus subject areas

Analysis
Discrete Mathematics and Combinatorics
Applied Mathematics

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10.3934/dcdss.2020390

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title = "Numerical analysis of an ode and a level set methods for evolving spirals by crystalline eikonal-curvature flow",

abstract = "In this paper, the evolution of a polygonal spiral curve by the crystalline curvature flow with a pinned center is considered from two viewpoints; a discrete model consisting of an ODE system describing facet lengths and another using level set method. We investigate the difference of these models numerically by calculating the area of an interposed region by their spiral curves. The area difference is calculated by the normalized L1 norm of the difference of step-like functions which are branches of arg(x) whose discontinuities are on the spirals. We find that the differences in the numerical results are small, even though the model equations around the center and the farthest facet are slightly different.",

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author = "Tetsuya Ishiwata and Takeshi Ohtsuka",

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AU - Ishiwata, Tetsuya

AU - Ohtsuka, Takeshi

PY - 2021/3

Y1 - 2021/3

N2 - In this paper, the evolution of a polygonal spiral curve by the crystalline curvature flow with a pinned center is considered from two viewpoints; a discrete model consisting of an ODE system describing facet lengths and another using level set method. We investigate the difference of these models numerically by calculating the area of an interposed region by their spiral curves. The area difference is calculated by the normalized L1 norm of the difference of step-like functions which are branches of arg(x) whose discontinuities are on the spirals. We find that the differences in the numerical results are small, even though the model equations around the center and the farthest facet are slightly different.

AB - In this paper, the evolution of a polygonal spiral curve by the crystalline curvature flow with a pinned center is considered from two viewpoints; a discrete model consisting of an ODE system describing facet lengths and another using level set method. We investigate the difference of these models numerically by calculating the area of an interposed region by their spiral curves. The area difference is calculated by the normalized L1 norm of the difference of step-like functions which are branches of arg(x) whose discontinuities are on the spirals. We find that the differences in the numerical results are small, even though the model equations around the center and the farthest facet are slightly different.

KW - Crystalline eikonal-curvature flow

KW - Evolution of a polygonal spiral

KW - Finite difference scheme

KW - Level set method

KW - ODE system for crystalline motion

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Numerical analysis of an ode and a level set methods for evolving spirals by crystalline eikonal-curvature flow

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