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Computational Geometry with Independent and Dependent Uncertainties

voska89

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English | 2022 | ISBN: 9811253838 | 160 pages | True PDF | 6.44 MB
This comprehensive compendium describes a parametric model and algorithmic theory to represent geometric entities with dependent uncertainties between them. The theory, named Linear Parametric Geometric Uncertainty Model (LPGUM), is an expressive and computationally efficient framework that allows to systematically study geometric uncertainty and its related algorithms in computer geometry.
The self-contained monograph is of great scientific, technical, and economic importance as geometric uncertainty is ubiquitous in mechanical CAD/CAM, robotics, computer vision, wireless networks and many other fields. Geometric models, in contrast, are usually exact and do not account for these inaccuracies.​

This useful reference text benefits academics, researchers, and practitioners in computer science, robotics, mechanical engineering and related fields.
Contents:
IntroductionThe Linear Parametric Geometric Uncertainty ModelThe Envelopes of Uncertain Points, Lines and CirclesHalf-Plane Point Retrieval QueriesEuclidean Minimum Spanning TreesVoronoi Diagram and Delaunay TriangulationConclusion
Readership: Researchers, professionals, academics, undergraduate and graduate students in robotics and mechanical engineering.

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