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Geometric Data Analysis: An Empirical Approach to Dimensionality Reduction and the Study of Patterns Hardback - 2001 - 1st Edition
by Michael Kirby
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- Hardcover
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Details
- Title Geometric Data Analysis: An Empirical Approach to Dimensionality Reduction and the Study of Patterns
- Author Michael Kirby
- Binding Hardback
- Edition number 1st
- Edition 1
- Condition New
- Pages 384
- Volumes 1
- Language ENG
- Publisher John Wiley & Sons, Hoboken, New Jersey, U.S.A
- Date 2001-01-12
- Illustrated Yes
- Features Bibliography, Illustrated, Index
- Bookseller's Inventory # A9780471239291
- ISBN 9780471239291 / 0471239291
- Weight 1.57 lbs (0.71 kg)
- Dimensions 9.21 x 6.14 x 0.88 in (23.39 x 15.60 x 2.24 cm)
- Library of Congress subjects Artificial intelligence, Pattern perception
- Library of Congress Catalog Number 2001017842
- Dewey Decimal Code 006.4
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From the publisher
First line
1.1 WHY DATA REDUCTION?
From the rear cover
An analysis of large data sets from an empirical and geometric viewpoint Data reduction is a rapidly emerging field with broad applications in essentially all fields where large data sets are collected and analyzed. Geometric Data Analysis is the first textbook to focus on the geometric approach to this problem of developing and distinguishing subspace and submanifold techniques for low-dimensional data representation. Understanding the geometrical nature of the data under investigation is presented as the key to identifying a proper reduction technique. Focusing on the construction of dimensionality-reducing mappings to reveal important geometrical structure in the data, the sequence of chapters is carefully constructed to guide the reader from the beginnings of the subject to areas of current research activity. A detailed, and essentially self-contained, presentation of the mathematical prerequisites is included to aid readers from a broad variety of backgrounds. Other topics discussed in Geometric Data Analysis include:
* The Karhunen-Loeve procedure for scalar and vector fields with extensions to missing data, noisy data, and data with symmetry
* Nonlinear methods including radial basis functions (RBFs) and backpropa-gation neural networks
* Wavelets and Fourier analysis as analytical methods for data reduction
* Expansive discussion of recent research including the Whitney reduction network and adaptive bases codeveloped by the author
* And much more The methods are developed within the context of many real-world applications involving massive data sets, including those generated by digital imaging systems and computer simulations of physical phenomena. Empirically based representations are shown to facilitate their investigation and yield insights that would otherwise elude conventional analytical tools.
* The Karhunen-Loeve procedure for scalar and vector fields with extensions to missing data, noisy data, and data with symmetry
* Nonlinear methods including radial basis functions (RBFs) and backpropa-gation neural networks
* Wavelets and Fourier analysis as analytical methods for data reduction
* Expansive discussion of recent research including the Whitney reduction network and adaptive bases codeveloped by the author
* And much more The methods are developed within the context of many real-world applications involving massive data sets, including those generated by digital imaging systems and computer simulations of physical phenomena. Empirically based representations are shown to facilitate their investigation and yield insights that would otherwise elude conventional analytical tools.