Mathematics of Digital Images

Mathematics of Digital Images

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Compression, restoration and recognition are three of the key components of digital imaging. The mathematics needed to understand and carry out all these components are explained here in a style that is at once rigorous and practical with many worked examples, exercises with solutions, pseudocode, and sample calculations on images. The introduction lists fast tracks to special topics such as Principal Component Analysis, and ways into and through the book, which abounds with illustrations. The first part describes plane geometry and pattern-generating symmetries, along with some on 3D rotation and reflection matrices. Subsequent chapters cover vectors, matrices and probability. These are applied to simulation, Bayesian methods, Shannon's information theory, compression, filtering and tomography. The book will be suited for advanced courses or for self-study. It will appeal to all those working in biomedical imaging and diagnosis, computer graphics, machine vision, remote sensing, image processing and information theory and its applications.B 48, 259-302. (2(KK)), Markov Chain Monte Carlo for Statistical Inference, Working Paper No. ... Briggs, W. L. and Henson, Van E. (1995), The DFT: An Ownera#39;s Manual for the Discrete Fourier Transform, SIAM. Brigham ... Bruce, V., Green, P. R. and Georgeson, M. A. (1996), Visual Perception, Psychology Press. Burroughanbsp;...

Title:Mathematics of Digital Images
Author:S. G. Hoggar
Publisher:Cambridge University Press - 2006-09-14


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