Example-Based Super Resolution

Example-Based Super Resolution

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Description

Example-Based Super Resolution provides a thorough introduction and overview of example-based super resolution, covering the most successful algorithmic approaches and theories behind them with implementation insights. It also describes current challenges and explores future trends.

Readers of this book will be able to understand the latest natural image patch statistical models and the performance limits of example-based super resolution algorithms, select the best state-of-the-art algorithmic alternative and tune it for specific use cases, and quickly put into practice implementations of the latest and most successful example-based super-resolution methods.
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Product details

  • Paperback | 162 pages
  • 152 x 229 x 10.16mm | 190g
  • Academic Press Inc
  • San Diego, United States
  • English
  • black & white illustrations
  • 0128097035
  • 9780128097038

Table of contents

Chapter 1: Classic Multiframe Super Resolution

Chapter 2: A Taxonomy of Example-Based Super Resolution

Chapter 3: High-Frequency Transfer

Chapter 4: Neighbor Embedding

Chapter 5: Sparse Coding

Chapter 6: Anchored Regression

Chapter 7: Trees and Forests

Chapter 8: Deep Learning

Chapter 9: Conclusions
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About Jordi Salvador

Jordi Salvador holds a senior scientist position at Technicolor R&I in Hannover and is member of Technicolor's Fellowship Network. His main focus is the research of new algorithms for example-based super resolution and machine learning. Formerly, he received a M.Sc. in Telecommunications (equivalent to Electrical) Engineering in 2006 and a M.Sc. in the European MERIT program in 2008, both from the Universitat Polit'ecnica de Catalunya (UPC) in Barcelona. He obtained the Ph.D. degree in 2011, also from UPC, where he contributed to projects of the Spanish Science and Technology System (VISION, PROVEC) and also to a European FP6 project (CHIL) as research assistant on multiview reconstruction. His research interests include 3D reconstruction, real-time and parallel algorithms, new computer-human interfaces, image and video restoration, super resolution, inverse problems and machine learning.
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