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Author:   Mark Girolami
Publisher:   Springer London Ltd
Imprint:   Springer London Ltd
Edition:   2000 ed.
Dimensions:   Width: 15.50cm , Height: 1.60cm , Length: 23.50cm
Weight:   0.950kg
ISBN:  

9781852332631

ISBN 10:   1852332638
Pages:   284
Publication Date:   17 July 2000
Audience:   College/higher education ,  Professional and scholarly ,  Undergraduate ,  Postgraduate, Research & Scholarly
Format:   Paperback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

I Temporal ICA Models.- 1 Hidden Markov Independent Component Analysis.- 1.1 Introduction.- 1.2 Hidden Markov Models.- 1.3 Independent Component Analysis.- 1.3.1 Generalised Exponential Sources.- 1.3.2 Generalised Autoregressive Sources.- 1.4 Hidden Markov ICA.- 1.4.1 Generalised Exponential Sources.- 1.4.2 Generalised Autoregressive Sources.- 1.5 Practical Issues.- 1.5.1 Initialisation.- 1.5.2 Learning.- 1.5.3 Model Order Selection.- 1.6 Results.- 1.6.1 Multiple Sinewave Sources.- 1.6.2 Same Sources, Different Mixing.- 1.6.3 Same Mixing, Different Sources.- 1.6.4 EEG Data.- 1.7 Conclusion.- 1.8 Acknowledgements.- 1.9 Appendix.- 2 Particle Filters for Non-Stationary ICA.- 2.1 Introduction.- 2.2 Stationary ICA.- 2.3 Non-Stationary Independent Component Analysis.- 2.3.1 Source Model.- 2.4 Particle Filters.- 2.4.1 Source Recovery.- 2.5 Illustration of Non-Stationary ICA.- 2.6 Smoothing.- 2.7 Temporal Correlations.- 2.8 Conclusion.- 2.8.1 Acknowledgement.- 2.9 Appendix: Laplace's Approximation for the Likelihood.- II The Validity of the Independence Assumption.- 3 The Independence Assumption: Analyzing the Independence of the Components by Topography.- 3.1 Introduction.- 3.2 Background: Independent Subspace Analysis.- 3.3 Topographic ICA Model.- 3.3.1 Dependence and Topography.- 3.3.2 Defining Topographic ICA.- 3.3.3 The Generative Model.- 3.3.4 Basic Properties of the Topographic ICA Model.- 3.4 Learning Rule.- 3.5 Comparison with Other Topographic Mappings.- 3.6 Experiments.- 3.6.1 Experiments in Feature Extraction of Image Data.- 3.6.2 Experiments in Feature Extraction of Audio Data.- 3.6.3 Experiments with Magnetoencephalographic Recordings.- 3.7 Conclusion.- 4 The Independence Assumption: Dependent Component Analysis.- 4.1 Introduction.- 4.2 Blind Source Separation by DCA.- 4.3 The Cyclone Algorithm.- 4.4 Experimental Results.- 4.5 Higher-Order Cyclostationary Signal Separation.- 4.6 Conclusion.- 4.7 Appendix: Proof of ACF Property 3.- III Ensemble Learning and Applications.- 5 Ensemble Learning.- 5.1 Introduction.- 5.2 Posterior Averages in Action.- 5.3 Approximations of Posterior PDF.- 5.4 Ensemble Learning.- 5.4.1 Model Selection in Ensemble Learning.- 5.4.2 Connection to Coding.- 5.4.3 EM and MAP.- 5.5 Construction of Probabilistic Models.- 5.5.1 Priors and Hyperpriors.- 5.6 Examples.- 5.6.1 Fixed Form Q.- 5.6.2 Free Form Q.- 5.7 Conclusion.- References.- 6 Bayesian Non-Linear Independent Component Analysis by Multi-Layer Perceptrons.- 6.1 Introduction.- 6.2 Choosing Among Competing Explanations.- 6.3 Non-Linear Factor Analysis.- 6.3.1 Definition of the Model.- 6.3.2 Cost Function.- 6.3.3 Update Rules.- 6.4 Non-Linear Independent Factor Analysis.- 6.5 Experiments.- 6.5.1 Learning Scheme.- 6.5.2 Helix.- 6.5.3 Non-Linear Artificial Data.- 6.5.4 Process Data.- 6.6 Comparison with Existing Methods.- 6.6.1 SOM and GTM.- 6.6.2 Auto-Associative MLPs.- 6.6.3 Generative Learning with MLPs.- 6.7 Conclusion.- 6.7.1 Validity of the Approximations.- 6.7.2 Initial Inversion by Auxiliary MLP.- 6.7.3 Future Directions.- 6.8 Acknowledgements.- 7 Ensemble Learning for Blind Image Separation and Deconvolution.- 7.1 Introduction.- 7.2 Separation of Images.- 7.2.1 Learning the Ensemble.- 7.2.2 Learning the Model.- 7.2.3 Example.- 7.2.4 Parts-Based Image Decomposition.- 7.3 Deconvolution of Images.- 7.4 Conclusion.- 7.5 Acknowledgements.- References.- IV Data Analysis and Applications.- 8 Multi-Class Independent Component Analysis (MUCICA) for Rank-Deficient Distributions.- 8.1 Introduction.- 8.2 The Rank-Deficient One Class Problem.- 8.2.1 Method I: Three Blocks.- 8.2.2 Method II: Two Blocks.- 8.2.3 Method III: One Block.- 8.3 The Rank-Deficient Multi-Class Problem.- 8.4 Simulations.- 8.5 Conclusion.- References.- 9 Blind Separation of Noisy Image Mixtures.- 9.1 Introduction.- 9.2 The Likelihood.- 9.3 Estimation of Sources for the Case of Known Parameters.- 9.4 Joint Estimation of Sources, Mixing Matrix, and Noise Level.- 9.5 Simulation Example.- 9.6 Generalization and the Bias-Variance Dilemma.- 9.7 Application to Neuroimaging.- 9.8 Conclusion.- 9.9 Acknowledgments.- 9.10 Appendix: The Generalized Boltzmann Learning Rule.- 10 Searching for Independence in Electromagnetic Brain Waves.- 10.1 Introduction.- 10.2 Independent Component Analysis.- 10.2.1 The Model.- 10.2.2 The FastICA Algorithm.- 10.3 Electro- and Magnetoencephalography.- 10.4 On the Validity of the Linear ICA Model.- 10.5 The Analysis of EEG and MEG Data.- 10.5.1 Artifact Identification and Removal from EEG/MEG.- 10.5.2 Analysis of Multimodal Evoked Fields.- 10.5.3 Segmenting Auditory Evoked Fields.- 10.6 Conclusion.- 11 ICA on Noisy Data: A Factor Analysis Approach.- 11.1 Introduction.- 11.2 Factor Analysis and ICA.- 11.2.1 Factor Analysis.- 11.2.2 Factor Analysis in Preprocessing.- 11.2.3 ICA as Determining the Rotation Matrix.- 11.3 Experiment with Synthesized Data.- 11.4 MEG Data Analysis.- 11.4.1 Experiment with Phantom Data.- 11.4.2 Experiment with Real Brain Data.- 11.5 Conclusion.- 11.6 Acknowledgements.- 12 Analysis of Optical Imaging Data Using Weak Models and ICA.- 12.1 Introduction.- 12.2 Linear Component Analysis.- 12.3 Singular Value Decomposition.- 12.3.1 SVD Applied to OI Data Set.- 12.4 Independent Component Analysis.- 12.4.1 Minimisation Routines.- 12.4.2 Application of sICA to OI Data.- 12.5 The Weak Causal Model.- 12.5.1 Weak Causal Model Applied to the OI Data Set.- 12.5.2 Some Remarks on Significance Testing.- 12.6 The Weak Periodic Model.- 12.7 Regularised Weak Models.- 12.8 Regularised Weak Causal Model Applied to OI Data.- 12.9 Image Goodness and Multiple Models.- 12.10 A Last Look at the OI Data Set.- 12.11 Conclusion.- References.- 13 Independent Components in Text.- 13.1 Introduction.- 13.1.1 Vector Space Representations.- 13.1.2 Latent Semantic Indexing.- 13.2 Independent Component Analysis.- 13.2.1 Noisy Separation of Linear Mixtures.- 13.2.2 Learning ICA Text Representations on the LSI Space.- 13.2.3 Document Classification Based on Independent Components.- 13.2.4 Keywords from Context Vectors.- 13.2.5 Generalisation and the Bias-Variance Dilemma.- 13.3 Examples.- 13.3.1 MED Data Set.- 13.3.2 CRAN Data Set.- 13.4 Conclusion.- 14 Seeking Independence Using Biologically-Inspired ANN's.- 14.1 Introduction.- 14.2 The Negative Feedback Network.- 14.3 Independence in Unions of Sources.- 14.3.1 Factor Analysis.- 14.3.2 Minimal Overcomplete Bases.- 14.4 Canonical Correlation Analysis.- 14.4.1 Extracting Multiple Correlations.- 14.4.2 Using Minimum Correlations to Extract Independent Sources.- 14.4.3 Experiments.- 14.5 ?-Insensitive Hebbian Learning.- 14.5.1 Is this a Hebbian Rule?.- 14.5.2 Extraction of Sinusoids.- 14.5.3 Noise Reduction.- 14.6 Conclusion.- References.

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