Pattern Classification, Part 1This unique text/professional reference provides the information you need to choose the most appropriate method for a given class of problems, presenting an in-depth, systematic account of the major topics in pattern recognition today. A new edition of a classic work that helped define the field for over a quarter century, this practical book updates and expands the original work, focusing on pattern classification and the immense progress it has experienced in recent years."--BOOK JACKET. |
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Page 283
... tion to an arbitrary classification problem . There is nothing particularly magical about multilayer neural networks ; they implement linear discriminants , but in a space where the inputs have been mapped nonlinearly . The key power ...
... tion to an arbitrary classification problem . There is nothing particularly magical about multilayer neural networks ; they implement linear discriminants , but in a space where the inputs have been mapped nonlinearly . The key power ...
Page 310
... tion 6.8.3 , the variance of the added noise should be less than 1.0 ( e.g. , 0.1 ) and the category label should be left unchanged . This method of training with noise can be used with virtually every classification method , though it ...
... tion 6.8.3 , the variance of the added noise should be less than 1.0 ( e.g. , 0.1 ) and the category label should be left unchanged . This method of training with noise can be used with virtually every classification method , though it ...
Page 404
... tion in the training set . Naturally , this comes at a greater computational expense than stopped splitting , and for problems with large training sets , the expense can be pro- hibitive . For small problems , though , these ...
... tion in the training set . Naturally , this comes at a greater computational expense than stopped splitting , and for problems with large training sets , the expense can be pro- hibitive . For small problems , though , these ...
Contents
MAXIMUMLIKELIHOOD AND BAYESIAN | 84 |
NONPARAMETRIC TECHNIQUES | 161 |
LINEAR DISCRIMINANT FUNCTIONS | 215 |
Copyright | |
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Other editions - View all
Computer Manual in MATLAB to accompany Pattern Classification David G. Stork,Elad Yom-Tov No preview available - 2004 |
Computer Manual in MATLAB to accompany Pattern Classification David G. Stork,Elad Yom-Tov No preview available - 2004 |
Common terms and phrases
analysis approach assume backpropagation Bayes Bayesian bias binary Boltzmann calculate Chapter cluster centers component classifiers Consider convergence corresponding covariance matrix criterion function d-dimensional data set decision boundary denote derivation discriminant function distance distribution entropy error rate feature space FIGURE Gaussian given gradient descent Hidden Markov Models hidden units independent input iteration jackknife estimate labeled large number learning algorithm maximum-likelihood estimate mean methods minimize minimum minimum description length mixture density nearest-neighbor neural networks node nonlinear normal number of clusters number of samples obtain optimal output units p(xw parameters pattern recognition Perceptron points prior probabilities probability density problem procedure random variables randomly Section sequence shown shows simple solution split statistical statistically independent string Suppose target tion training data training error training patterns training set tree two-category unsupervised learning variance w₁ weight vector x₁ zero