Discusses challenges related to performance and power in 3D video coding for embedded devices
Describes energy-efficient algorithms for reducing computational complexity at multiple hierarchical levels
Presents energy-efficient hardware architectures along with methods for reducing on-chip and off-chip energy related to both data processing and memory access
Shows how to leverage jointly the algorithm and hardware architecture layers of the system
This book shows readers how to develop energy-efficient algorithms and hardware architectures to enable high-definition 3D video coding on resource-constrained embedded devices. Users of the Multiview Video Coding (MVC) standard face the challenge of exploiting its 3D video-specific coding tools for increasing compression efficiency at the cost of increasing computational complexity and, consequently, the energy consumption. This book enables readers to reduce the multiview video coding energy consumption through jointly considering the algorithmic and architectural levels. Coverage includes an introduction to 3D videos and an extensive discussion of the current state-of-the-art of 3D video coding, as well as energy-efficient algorithms for 3D video coding and energy-efficient hardware architecture for 3D video coding.
Authors and Affiliations
CES - Chair for Embedded Systems, Department of Computer Science, Karlsruhe Institute of Technology, Karlsruhe, Germany
Bruno Zatt,
Jörg Henkel
Karlsruhe Institute of Technology, Karlsruhe, Germany
Muhammad Shafique
Instituto de Informática, UFRGS, Porto Alegre, Brazil
Sergio Bampi
About the authors
Multiview Video Coding Analysis for Energy and Quality.- Energy-Efficient Algorithms for Multiview Video Coding.- Energy-Efficient Architecture for Multiview Video Coding.- Results and Comparison.
Bibliographic Information
Book Title: 3D Video Coding for Embedded Devices
Book Subtitle: Energy Efficient Algorithms and Architectures
Authors: Bruno Zatt, Muhammad Shafique, Sergio Bampi, Jörg Henkel