Automated EEG-Based Diagnosis of Neurological Disorders: Inventing the Future of Neurology / Edition 1

Automated EEG-Based Diagnosis of Neurological Disorders: Inventing the Future of Neurology / Edition 1

by Hojjat Adeli, Samanwoy Ghosh-Dastidar
     
 

ISBN-10: 1439815313

ISBN-13: 9781439815311

Pub. Date: 02/09/2010

Publisher: Taylor & Francis

Based on the authors’ groundbreaking research, Automated EEG-Based Diagnosis of Neurological Disorders: Inventing the Future of Neurology presents a research ideology, a novel multi-paradigm methodology, and advanced computational models for the automated EEG-based diagnosis of neurological disorders. It is based on the ingenious integration of

…  See more details below

Overview

Based on the authors’ groundbreaking research, Automated EEG-Based Diagnosis of Neurological Disorders: Inventing the Future of Neurology presents a research ideology, a novel multi-paradigm methodology, and advanced computational models for the automated EEG-based diagnosis of neurological disorders. It is based on the ingenious integration of three different computing technologies and problem-solving paradigms: neural networks, wavelets, and chaos theory. The book also includes three introductory chapters that familiarize readers with these three distinct paradigms.

After extensive research and the discovery of relevant mathematical markers, the authors present a methodology for epilepsy diagnosis and seizure detection that offers an exceptional accuracy rate of 96 percent. They examine technology that has the potential to impact and transform neurology practice in a significant way. They also include some preliminary results towards EEG-based diagnosis of Alzheimer’s disease.

The methodology presented in the book is especially versatile and can be adapted and applied for the diagnosis of other brain disorders. The senior author is currently extending the new technology to diagnosis of ADHD and autism. A second contribution made by the book is its presentation and advancement of Spiking Neural Networks as the seminal foundation of a more realistic and plausible third generation neural network.

Read More

Product Details

ISBN-13:
9781439815311
Publisher:
Taylor & Francis
Publication date:
02/09/2010
Pages:
423
Product dimensions:
6.40(w) x 9.40(h) x 1.30(d)

Table of Contents

Basic Concepts
Introduction

Time-Frequency Analysis: Wavelet Transforms
Signal Digitization and Sampling
Time and Frequency Domain Analyses
Time-Frequency Analysis
Types of Wavelets
Advantages of the Wavelet Transform

Chaos Theory
Introduction
Attractors in Chaotic Systems
Chaos

Classifier Designs
Data Classification
Cluster Analysis
k-Means Clustering
Discriminant Analysis
Principal Component
Artificial Neural Networks

Automated EEG-Based Diagnosis of Epilepsy
Electroencephalograms and Epilepsy
Spatio-Temporal Activity in the Human
EEG: A Spatio-Temporal Data
Data Mining Techniques
Multi-Paradigm Data Mining Strategy for EEGs
Epilepsy and Epileptic Seizures

Analysis of EEGs in an Epileptic Patient Using Wavelet Transform
Introduction
Wavelet Analysis of a Normal
Characterization of the 3-Hz Spike and Slow Wave Complex in
Absence Seizures Using Wavelet
Concluding Remarks

Wavelet-Chaos Methodology for Analysis of EEGs and EEG Sub-Bands
Introduction
Wavelet-Chaos Analysis of EEG
Application and Results
Concluding Remarks

Mixed-Band Wavelet-Chaos Neural Network Methodology
Introduction
Wavelet-Chaos Analysis: EEG Sub-Bands and Feature Space Design
Data Analysis
Band-Specific Analysis: Selecting Classifiers and Feature
Mixed-Band Analysis: Wavelet-Chaos-Neural Network
Concluding Remarks

Principal Component Analysis-Enhanced Cosine Radial Basis Function Neural Network
Introduction
Principal Component Analysis for Feature
Cosine Radial Basis Function Neural Network: EEG Classification
Applications and Results
Concluding Remarks and Clinical Significance

Automated EEG-Based Diagnosis of Alzheimer’s Disease
Alzheimer’s Disease and Models of Computation: Imaging, Classification, and Neural Models
Introduction
Neurological Markers of Alzheimer’s
Imaging Studies
Classification Models .
Neural Models of Memory and Alzheimer’s Disease
Approaches to Neural Modeling

Alzheimer’s Disease: Models of Computation and Analysis of EEGs
EEGs for Diagnosis and Detection of Alzheimer’s Disease
Time-Frequency Analysis
Wavelet Analysis
Chaos Analysis
Concluding Remarks

A Spatio-Temporal Wavelet-Chaos Methodology for EEG Based Diagnosis of Alzheimer’s Disease
Introduction
Methodology
Description of the EEG
Results
Complexity and Chaoticity of the EEG: Results of the
Three-Way Factorial ANOVA
Discussion
Concluding Remarks

Third Generation Neural Networks: Spiking Neural Networks
Spiking Neural Networks: Spiking Neurons and Learning Algorithms
Introduction
Information Encoding and Evolution of Spiking
Mechanism of Spike Generation in Biological Neurons
Models of Spiking Neurons
Spiking Neural Networks (SNNs)
Unsupervised Learning
Supervised Learning

Improved Spiking Neural Networks with Application to EEG Classification and Epilepsy and Seizure Detection
XOR Classification Problem
Fisher Iris Classification Problem
EEG Classification Problem
Input and Output Encoding
Concluding Remarks

A New Supervised Learning Algorithm for Multiple Spiking Neural Networks
Introduction
Multi-Spiking Neural Network (MuSpiNN) and Neuron Model
Multi-SpikeProp: Backpropagation Learning Algorithm for MuSpiNN

Applications of Multiple Spiking Neural Networks: EEG Classification and Epilepsy and Seizure Detection
Parameter Selection and Weight Initialization
Heuristic Rules for Multi-SpikeProp
XOR Problem
Fisher Iris Classification Problem
EEG Classification Problem
Discussion and Concluding Remarks

The Future

Bibliography

Index

Read More

Customer Reviews

Average Review:

Write a Review

and post it to your social network

     

Most Helpful Customer Reviews

See all customer reviews >