A method for finding least-cost corridors with reduced distortion in raster space

• Published in: International journal of geographical information science : IJGIS Vol. 35; no. 8; pp. 1570 - 1591
• Main Authors: Seegmiller, Lindsi, Shirabe, Takeshi, Tomlin, C. Dana
• Format: Journal Article
• Language: English
• Published: Abingdon Taylor & Francis 03.08.2021; Taylor & Francis LLC
• Subjects: Algorithms; Corridors; Distortion; Euclidean geometry; least-cost corridors; least-cost wide paths; Polynomials; Raster; Raster data modeling; route planning
• ISSN: 1365-8816; 1365-8824; 1365-8824; 1362-3087
• DOI: 10.1080/13658816.2020.1850734

Given a grid of cells, each having a value indicating its cost per unit area, a variant of the least-cost path problem is to find a corridor of a specified width connecting two termini such that its cost-weighted area is minimized. A computationally efficient method exists for finding such corridors, but as is the case with conventional raster-based least-cost paths, their incremental orientations are limited to a fixed number of (typically eight orthogonal and diagonal) directions, and therefore, regardless of the grid resolution, they tend to deviate from those conceivable on the Euclidean plane. In this paper, we propose a method for solving the raster-based least-cost corridor problem with reduced distortion by adapting a distortion reduction technique originally designed for least-cost paths and applying it to an efficient but distortion-prone least-cost corridor algorithm. The proposed method is, in theory, guaranteed to generate no less accurate solutions than the existing one in polynomial time and, in practice, expected to generate more accurate solutions, as demonstrated experimentally using synthetic and real-world data.