Deep Learning Through Sparse and Low-Rank Modeling. Computer Vision and Pattern Recognition

  • ID: 4482993
  • Book
  • 300 Pages
  • Elsevier Science and Technology
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Deep Learning Through Sparse Representation and Low-Rank Modeling bridges classical sparse and low rank models-those that emphasize problem-specific Interpretability-with recent deep network models that have enabled a larger learning capacity and better utilization of Big Data. It shows how the toolkit of deep learning is closely tied with the sparse/low rank methods and algorithms, providing a rich variety of theoretical and analytic tools to guide the design and interpretation of deep learning models. The development of the theory and models is supported by a wide variety of applications in computer vision, machine learning, signal processing, and data mining.

This book will be highly useful for researchers, graduate students and practitioners working in the fields of computer vision, machine learning, signal processing, optimization and statistics.

  • Combines classical sparse and low-rank models and algorithms with the latest advances in deep learning networks
  • Shows how the structure and algorithms of sparse and low-rank methods improves the performance and interpretability of Deep Learning models
  • Provides tactics on how to build and apply customized deep learning models for various applications
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1. Introduction
2. Bi-Level Sparse Coding: A Hyperspectral Image Classification Example
3. Deep Encoders: A Model Unfolding Example
4. Single Image Super-Resolution: From Sparse Coding to Deep Learning
5. From Bi-Level Sparse Clustering to Deep Clustering
6. Signal Processing
7. Dimensionality Reduction
8. Action Recognition
9. Style Recognition and Kinship Understanding
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Wang, Zhangyang
During 2012-2016, he was a Ph.D. student in the Electrical and Computer Engineering (ECE) Department, at the University of Illinois at Urbana-Champaign (UIUC), working with Professor Thomas S. Huang. Prior to that, he obtained the B.E. degree at the University of Science and Technology of China (USTC), in 2012.
Dr. Wang's research has been addressing machine learning, computer vision and image processing problems using advanced feature learning techniques. He has co-authored over 30 papers, and published the book "Sparse Coding and Its Applications in Computer Vision”. He has been granted 3 patents.
Raymond, Yun
Dr. Fu is an interdisciplinary faculty member affiliated with College of Engineering and the College of Computer and Information Science at Northeastern University. He received the B.Eng. degree in information engineering and the M.Eng. degree in pattern recognition and intelligence systems from Xi'an Jiaotong University, China, respectively, and the M.S. degree in statistics and the Ph.D. degree in electrical and computer engineering from the University of Illinois at Urbana-Champaign, respectively.
Dr. Fu's research interests are Interdisciplinary research in Machine Learning and Computational Intelligence, Social Media Analytics, Human-Computer Interaction, and Cyber-Physical Systems. He has extensive publications in leading journals, books/book chapters and international conferences/workshops.
Huang, Thomas S.
Thomas S. Huang received his B.S. Degree in Electrical Engineering from National Taiwan University, Taipei, Taiwan, China; and his M.S. and Sc.D. Degrees in Electrical Engineering from the Massachusetts Institute of Technology, Cambridge, Massachusetts. He was on the Faculty of the Department of Electrical Engineering at MIT from 1963 to 1973; and on the Faculty of the School of Electrical Engineering and Director of its Laboratory for Information and Signal Processing at Purdue University from 1973 to 1980.
Dr. Huang's professional interests lie in the broad area of information technology, especially the transmission and processing of multidimensional signals. He has published 21 books, and over 600 papers in Network Theory, Digital Filtering, Image Processing, and Computer Vision. Among his many honors and awards: Honda Lifetime Achievement Award, IEEE Jack Kilby Signal Processing Medal, and the King-Sun Fu Prize of the International Association for Pattern Recognition.
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