Schaerf, Timothy; Macaskill, C

Author(s)

Schaerf, Timothy

Macaskill, C

Publication Date

2012

Abstract

This is the first of two papers devoted to the analysis of contour crossing errors that occur in contour-advective simulations of fluid motion. Here an algorithm is presented for quantifying the error due to contour crossings. The first step is to determine the relative proximity of all possible pairs of contours. A digital representation of each contour is produced to aid in the corresponding calculation. Simple analysis of functions is then used to find any crossings between contours deemed close to each other by the digital representation method. Next, the area in error of a pair of crossing contours is calculated by identifying the polygon or polygons that approximately bound the erroneous region. Finally, some preliminary results of analysis of contour crossings that occur in contour-advective semilagrangian (CASL) simulations of single layer quasigeostrophic turbulence are presented. It is shown that the error due to contour crossings is small in the simulations considered here.

Citation

Journal of Computational Physics, 231(2), p. 465-480

ISSN

1090-2716

0021-9991

Link

https://hdl.handle.net/1959.11/18278

Publisher

Academic Press

Title

On contour crossings in contour-advective simulations - part 1 - algorithm for detection and quantification

Type of document

Journal Article

Entity Type

Publication

Author(s)	Schaerf, Timothy Macaskill, C
Publication Date	2012
Abstract	This is the first of two papers devoted to the analysis of contour crossing errors that occur in contour-advective simulations of fluid motion. Here an algorithm is presented for quantifying the error due to contour crossings. The first step is to determine the relative proximity of all possible pairs of contours. A digital representation of each contour is produced to aid in the corresponding calculation. Simple analysis of functions is then used to find any crossings between contours deemed close to each other by the digital representation method. Next, the area in error of a pair of crossing contours is calculated by identifying the polygon or polygons that approximately bound the erroneous region. Finally, some preliminary results of analysis of contour crossings that occur in contour-advective semilagrangian (CASL) simulations of single layer quasigeostrophic turbulence are presented. It is shown that the error due to contour crossings is small in the simulations considered here.
Citation	Journal of Computational Physics, 231(2), p. 465-480
ISSN	1090-2716 0021-9991
Link	https://hdl.handle.net/1959.11/18278
Publisher	Academic Press
Title	On contour crossings in contour-advective simulations - part 1 - algorithm for detection and quantification
Type of document	Journal Article
Entity Type	Publication

On contour crossings in contour-advective simulations - part 1 - algorithm for detection and quantification

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