Statistical Learning and Inference in Neural Signal Processing
Statistical Learning and Inference in Neural Signal Processing

Author: Ozan Ă–zdenizci

Publisher:

Published: 2020

Total Pages: 103

ISBN-13:

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"Neuromuscular diseases such as brainstem stroke, amyotrophic lateral sclerosis or spinal cord injuries restrict activities of daily living for millions of patients. Such conditions often cause patients severely affected by them to be left in a locked-in state, sustaining loss of voluntary muscle control and restricted communication abilities unless any other means of assistive technology is provided. Brain/neural-computer interface (BNCI) technologies have become one of the most prominent research areas in this regard. Primary motivation of BNCI systems is to provide communication and control means for people with neuromuscular disabilities by establishing a direct brain communication pathway in replacement of peripheral nerves and muscles. Ultimately the capabilities of BNCIs are dependent on the advancements in robust signal processing methods for neural intent inference. Accordingly, neural signal processing is a very active domain of research playing an important role in brain interfacing to facilitate assistive technologies, as well as in fundamental neuroscience to understand the dynamics of the brain. Major challenges in neural signal processing, particularly for non-invasive modalities to monitor brain activity (e.g., electroencephalography (EEG)), are usually caused by the non-stationary nature of the measured neural signals. Our objective in this dissertation is to develop neural signal processing methodologies for non-invasively recorded brain signals that consider beyond heuristic neural feature learning approaches and also account for this stochasticity. We present a collection of work that explores both traditional machine learning based and contemporary deep learning based neural signal processing approaches. Firstly we present a hierarchical graphical model based context-aware hybrid neural interface inference pipeline within an experimental study for multi-modal neurophysiological sensor driven robotic hand prosthetics. Secondly we present an information theoretic learning driven feature transformation concept to extend neural feature dimensionality reduction problems beyond heuristic feature ranking and selection methods. Thirdly we present an adversarial inference approach to learn discriminative invariant neural representations for deep transfer learning in BNCIs, together with neurophysiological interpretability of these invariant deep learning machines. Fourthly we apply this idea in the context of session-invariant EEG-based biometric representation learning. Lastly we present a framework on using generative deep neural network machines to synthesize task-specific artificial EEG signals by manipulating real resting-state EEG recordings"--Author's abstract.

Signal Processing and Machine Learning Theory
Signal Processing and Machine Learning Theory

Author: Paulo S.R. Diniz

Publisher: Elsevier

Published: 2023-07-10

Total Pages: 1236

ISBN-13: 032397225X

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Signal Processing and Machine Learning Theory, authored by world-leading experts, reviews the principles, methods and techniques of essential and advanced signal processing theory. These theories and tools are the driving engines of many current and emerging research topics and technologies, such as machine learning, autonomous vehicles, the internet of things, future wireless communications, medical imaging, etc. Provides quick tutorial reviews of important and emerging topics of research in signal processing-based tools Presents core principles in signal processing theory and shows their applications Discusses some emerging signal processing tools applied in machine learning methods References content on core principles, technologies, algorithms and applications Includes references to journal articles and other literature on which to build further, more specific, and detailed knowledge

Statistical Learning Using Neural Networks
Statistical Learning Using Neural Networks

Author: Basilio de Braganca Pereira

Publisher: CRC Press

Published: 2020-08-25

Total Pages: 286

ISBN-13: 0429775547

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Statistical Learning using Neural Networks: A Guide for Statisticians and Data Scientists with Python introduces artificial neural networks starting from the basics and increasingly demanding more effort from readers, who can learn the theory and its applications in statistical methods with concrete Python code examples. It presents a wide range of widely used statistical methodologies, applied in several research areas with Python code examples, which are available online. It is suitable for scientists and developers as well as graduate students. Key Features: Discusses applications in several research areas Covers a wide range of widely used statistical methodologies Includes Python code examples Gives numerous neural network models This book covers fundamental concepts on Neural Networks including Multivariate Statistics Neural Networks, Regression Neural Network Models, Survival Analysis Networks, Time Series Forecasting Networks, Control Chart Networks, and Statistical Inference Results. This book is suitable for both teaching and research. It introduces neural networks and is a guide for outsiders of academia working in data mining and artificial intelligence (AI). This book brings together data analysis from statistics to computer science using neural networks.

Signal Processing and Machine Learning for Brain-Machine Interfaces
Signal Processing and Machine Learning for Brain-Machine Interfaces

Author: Toshihisa Tanaka

Publisher: Institution of Engineering and Technology

Published: 2018-09-13

Total Pages: 355

ISBN-13: 1785613987

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Brain-machine interfacing or brain-computer interfacing (BMI/BCI) is an emerging and challenging technology used in engineering and neuroscience. The ultimate goal is to provide a pathway from the brain to the external world via mapping, assisting, augmenting or repairing human cognitive or sensory-motor functions.

Statistical Machine Learning & Deep Neural Networks Applied to Neural Data Analysis
Statistical Machine Learning & Deep Neural Networks Applied to Neural Data Analysis

Author: Hooshmand Shokri Razaghi

Publisher:

Published: 2020

Total Pages:

ISBN-13:

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Computational neuroscience seeks to discover the underlying mechanisms by which neural activity is generated. With the recent advancement in neural data acquisition methods, the bottleneck of this pursuit is the analysis of ever-growing volume of neural data acquired in numerous labs from various experiments. These analyses can be broadly divided into two categories. First, extraction of high quality neuronal signals from noisy large scale recordings. Second, inference for statistical models aimed at explaining the neuronal signals and underlying processes that give rise to them. Conventionally, majority of the methodologies employed for this effort are based on statistics and signal processing. However, in recent years recruiting Artificial Neural Networks (ANN) for neural data analysis is gaining traction. This is due to their immense success in computer vision and natural language processing, and the stellar track record of ANN architectures generalizing to a wide variety of problems.

Inference and Learning from Data: Volume 3
Inference and Learning from Data: Volume 3

Author: Ali H. Sayed

Publisher: Cambridge University Press

Published: 2022-12-22

Total Pages: 1082

ISBN-13: 1009218301

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This extraordinary three-volume work, written in an engaging and rigorous style by a world authority in the field, provides an accessible, comprehensive introduction to the full spectrum of mathematical and statistical techniques underpinning contemporary methods in data-driven learning and inference. This final volume, Learning, builds on the foundational topics established in volume I to provide a thorough introduction to learning methods, addressing techniques such as least-squares methods, regularization, online learning, kernel methods, feedforward and recurrent neural networks, meta-learning, and adversarial attacks. A consistent structure and pedagogy is employed throughout this volume to reinforce student understanding, with over 350 end-of-chapter problems (including complete solutions for instructors), 280 figures, 100 solved examples, datasets and downloadable Matlab code. Supported by sister volumes Foundations and Inference, and unique in its scale and depth, this textbook sequence is ideal for early-career researchers and graduate students across many courses in signal processing, machine learning, data and inference.

Information Theory, Inference and Learning Algorithms
Information Theory, Inference and Learning Algorithms

Author: David J. C. MacKay

Publisher: Cambridge University Press

Published: 2003-09-25

Total Pages: 694

ISBN-13: 9780521642989

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Information theory and inference, taught together in this exciting textbook, lie at the heart of many important areas of modern technology - communication, signal processing, data mining, machine learning, pattern recognition, computational neuroscience, bioinformatics and cryptography. The book introduces theory in tandem with applications. Information theory is taught alongside practical communication systems such as arithmetic coding for data compression and sparse-graph codes for error-correction. Inference techniques, including message-passing algorithms, Monte Carlo methods and variational approximations, are developed alongside applications to clustering, convolutional codes, independent component analysis, and neural networks. Uniquely, the book covers state-of-the-art error-correcting codes, including low-density-parity-check codes, turbo codes, and digital fountain codes - the twenty-first-century standards for satellite communications, disk drives, and data broadcast. Richly illustrated, filled with worked examples and over 400 exercises, some with detailed solutions, the book is ideal for self-learning, and for undergraduate or graduate courses. It also provides an unparalleled entry point for professionals in areas as diverse as computational biology, financial engineering and machine learning.

Machine Learning in Signal Processing
Machine Learning in Signal Processing

Author: Sudeep Tanwar

Publisher: CRC Press

Published: 2021-12-10

Total Pages: 488

ISBN-13: 1000487814

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Machine Learning in Signal Processing: Applications, Challenges, and the Road Ahead offers a comprehensive approach toward research orientation for familiarizing signal processing (SP) concepts to machine learning (ML). ML, as the driving force of the wave of artificial intelligence (AI), provides powerful solutions to many real-world technical and scientific challenges. This book will present the most recent and exciting advances in signal processing for ML. The focus is on understanding the contributions of signal processing and ML, and its aim to solve some of the biggest challenges in AI and ML. FEATURES Focuses on addressing the missing connection between signal processing and ML Provides a one-stop guide reference for readers Oriented toward material and flow with regards to general introduction and technical aspects Comprehensively elaborates on the material with examples and diagrams This book is a complete resource designed exclusively for advanced undergraduate students, post-graduate students, research scholars, faculties, and academicians of computer science and engineering, computer science and applications, and electronics and telecommunication engineering.

Statistical Learning Theory
Statistical Learning Theory

Author: Vladimir Naumovich Vapnik

Publisher: Wiley-Interscience

Published: 1998-09-30

Total Pages: 778

ISBN-13:

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A comprehensive look at learning and generalization theory. The statistical theory of learning and generalization concerns the problem of choosing desired functions on the basis of empirical data. Highly applicable to a variety of computer science and robotics fields, this book offers lucid coverage of the theory as a whole. Presenting a method for determining the necessary and sufficient conditions for consistency of learning process, the author covers function estimates from small data pools, applying these estimations to real-life problems, and much more.

Machine Learning
Machine Learning

Author: Sergios Theodoridis

Publisher: Academic Press

Published: 2020-02-19

Total Pages: 1160

ISBN-13: 0128188049

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Machine Learning: A Bayesian and Optimization Perspective, 2nd edition, gives a unified perspective on machine learning by covering both pillars of supervised learning, namely regression and classification. The book starts with the basics, including mean square, least squares and maximum likelihood methods, ridge regression, Bayesian decision theory classification, logistic regression, and decision trees. It then progresses to more recent techniques, covering sparse modelling methods, learning in reproducing kernel Hilbert spaces and support vector machines, Bayesian inference with a focus on the EM algorithm and its approximate inference variational versions, Monte Carlo methods, probabilistic graphical models focusing on Bayesian networks, hidden Markov models and particle filtering. Dimensionality reduction and latent variables modelling are also considered in depth. This palette of techniques concludes with an extended chapter on neural networks and deep learning architectures. The book also covers the fundamentals of statistical parameter estimation, Wiener and Kalman filtering, convexity and convex optimization, including a chapter on stochastic approximation and the gradient descent family of algorithms, presenting related online learning techniques as well as concepts and algorithmic versions for distributed optimization. Focusing on the physical reasoning behind the mathematics, without sacrificing rigor, all the various methods and techniques are explained in depth, supported by examples and problems, giving an invaluable resource to the student and researcher for understanding and applying machine learning concepts. Most of the chapters include typical case studies and computer exercises, both in MATLAB and Python. The chapters are written to be as self-contained as possible, making the text suitable for different courses: pattern recognition, statistical/adaptive signal processing, statistical/Bayesian learning, as well as courses on sparse modeling, deep learning, and probabilistic graphical models. New to this edition: Complete re-write of the chapter on Neural Networks and Deep Learning to reflect the latest advances since the 1st edition. The chapter, starting from the basic perceptron and feed-forward neural networks concepts, now presents an in depth treatment of deep networks, including recent optimization algorithms, batch normalization, regularization techniques such as the dropout method, convolutional neural networks, recurrent neural networks, attention mechanisms, adversarial examples and training, capsule networks and generative architectures, such as restricted Boltzman machines (RBMs), variational autoencoders and generative adversarial networks (GANs). Expanded treatment of Bayesian learning to include nonparametric Bayesian methods, with a focus on the Chinese restaurant and the Indian buffet processes. Presents the physical reasoning, mathematical modeling and algorithmic implementation of each method Updates on the latest trends, including sparsity, convex analysis and optimization, online distributed algorithms, learning in RKH spaces, Bayesian inference, graphical and hidden Markov models, particle filtering, deep learning, dictionary learning and latent variables modeling Provides case studies on a variety of topics, including protein folding prediction, optical character recognition, text authorship identification, fMRI data analysis, change point detection, hyperspectral image unmixing, target localization, and more