Title :
Optimization of Inverse Snyder Polyhedral Projection
Author :
Harrison, Erika ; Mahdavi-Amiri, Ali ; Samavati, Faramarz
Author_Institution :
Dept. of Comput. Sci., Univ. of Calgary, Calgary, AB, Canada
Abstract :
Modern techniques in area preserving projections used by cartographers and other glossarial researchers have closed forms when projecting from the sphere to the plane, as based on their initial derivations. Inversions, from the planar map to the spherical approximation of the Earth which are important for modern 3D analysis and visualizations, are slower, requiring iterative root finding approaches, or not determined at all. We introduce optimization techniques for Snyder´s inverse polyhedral projection by reducing iterations, and using polynomial approximations for avoiding them entirely. Results including speed up, iteration reduction, and error analysis are provided.
Keywords :
cartography; computational geometry; data visualisation; error analysis; iterative methods; optimisation; polynomial approximation; 3D visualizations; Snyder inverse polyhedral projection; area preserving projections; cartographers; closed forms; error analysis; glossarial researchers; inverse Snyder polyhedral projection optimization; iteration reduction; iterative root finding approaches; modern 3D analysis; modern techniques; optimization techniques; planar map; polynomial approximations; speed up; spherical approximation; Approximation methods; Azimuth; Earth; Equations; Mathematical model; Optimization; Shape; equal area; optimization; projection;
Conference_Titel :
Cyberworlds (CW), 2011 International Conference on
Conference_Location :
Banff, ON
Print_ISBN :
978-1-4577-1453-5
