Atmosphere (Mar 2019)

An Alternative Bilinear Interpolation Method Between Spherical Grids

  • Ki-Hwan Kim,
  • Pyoung-Seop Shim,
  • Seoleun Shin

DOI
https://doi.org/10.3390/atmos10030123
Journal volume & issue
Vol. 10, no. 3
p. 123

Abstract

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In geoscientific studies, conventional bilinear interpolation has been widely used for remapping between logically rectangular grids on the surface of a sphere. Recently, various spherical grid systems including geodesic grids have been suggested to tackle the singularity problem caused by the traditional latitude–longitude grid. We suggest an alternative to pre-existing bilinear interpolation methods for remapping between any spherical grids, even for randomly distributed points on a sphere. This method supports any geometrical configuration of four source points neighboring a target point for interpolation, and provides remapping accuracy equivalent to the conventional bilinear method. In addition, for efficient search of neighboring source points, we use the linked-cell mapping method with a cubed-sphere as a reference frame. As a result, the computational cost is proportional to NlogN instead of N 2 (N being the number of grid points), even for the remapping of randomly distributed points on a sphere.

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