Energy consumption, whether in wired or wireless networks is higher than usually supposed. And in terms of pollution it is estimated that one small computer server generates as much greenhouse gas as the typical SUV. Edited by Yu (systems and computer engineering, Carleton U.) and Zhang (electrical and computer engineering, Texas A&M U.), this work explores novel ways of reducing energy use in networks, including the development of smart grids. It is appropriate for both researchers and practitioners. Annotation ©2013 Book News, Inc., Portland, OR (booknews.com)
Green Communications and Networking introduces novel solutions that can bring about significant reductions in energy consumption in the information and communication technology (ICT) industryas well as other industries, including electric power. Containing the contributions of leading experts in the field, it examines the latest research advances in green communications and networking for next-generation wired, wireless, and smart-grid networks.
The book presents cutting-edge algorithms, protocols, and network architectures to improve energy efficiency in communication networks. It illustrates the various aspects of modeling, analysis, design, management, deployment, and optimization of algorithms, protocols, and architectures of green communications and networking. The text examines energy-efficient hardware platforms, physical layer, networking, and applications. Containing helpful references in each chapter, it also:
- Proposes a mechanism for minimizing energy consumption of wireless networks without compromising QoS
- Reviews recent development in utility communication networks, including advanced metering infrastructure and SCADA
- Studies energy-efficient rate adaptation in long-distance wireless mesh networks
- Considers the architectural design of energy-efficient wireline Internet nodes
- Presents graph-theoretic solutions that can be adopted in an IP network to reduce the number of links used in the network during off-peak periods
- Outlines a methodology for optimizing time averages in systems with variable length frames
- Details a demand-based resources trading model for green communications
The book introduces a new solution for delivering green last-mile access: broadband wireless access with fiber-connected massively distributed antennas (BWA-FMDA). It also presents a methodology for optimizing time averages in systems with variable length frames. Surveying a representative number of demand and response methods in smart grids, the text supplies you with the understanding of smart grid dynamics needed to participate in the development of next-generation wireless cellular networks.
| A Brief Journey through "Green Communications and Networking" |
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| About the Editors |
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| Contributors |
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I Green Wireless Communications and Networking |
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1 | (156) |
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1 Power-Efficient Last Mile Access Using Fiber-Connected Massively Distributed Antenna (BWA-FMDA) System |
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3 | (24) |
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2 Wireless Networks Resources Trading for QoS Performance Guaranteed Green Communications |
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27 | (32) |
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3 Green Relay Techniques in Cellular Systems |
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59 | (52) |
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4 Cross-Layer Design and Optimization for Green Wireless Communications and Networking |
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111 | (20) |
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5 Energy-Efficient Rate Adaptation in Long-Distance Wireless Mesh Networks |
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131 | (26) |
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II Green Wireline Communications and Networking |
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157 | (116) |
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6 Graph-Theoretic Algorithms for Energy Saving in IP Networks |
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159 | (26) |
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7 Architectural Design of an Energy-Efficient Router |
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185 | (26) |
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8 The Impact of Renewable Energy Sources in the CO2 Emissions of Converged Optical Network and Cloud Infrastructures |
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211 | (20) |
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9 Low Power Dynamic Scheduling for Computing Systems |
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231 | (42) |
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III Smart Grid Communications and Networking |
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273 | (88) |
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10 Smart Grid Communication Network and Its Applications |
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275 | (32) |
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11 Demand and Response in Smart Grid |
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307 | (30) |
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12 Green Wireless Cellular Networks in the Smart Grid Environment |
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337 | (24) |
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| Index |
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361 | |
About the Editors:
F. Richard Yu is currently an Associate Professor in the Department of Systems and Computer Engineering, School of Information Technology, at Carleton University, Ottawa, ON, Canada. He received the Ph.D. degree in electrical engineering from the University of British Columbia, Vancouver, BC, Canada, in 2003. From 2002 to 2004, he was with Ericsson, Lund, Sweden, where he worked on the research and development of third-generation cellular networks. From 2005 to 2006, he was with a startup company in California, where he worked on the research and development in the areas of advanced wireless communication technologies and new standards. He joined the School of Information Technology and the Department of Systems and Computer Engineering, Carleton University, Ottawa, ON, Canada, in 2007. His research interests include cross-layer design, security, and quality-of-service provisioning in wireless networks.
He received the Carleton Research Achievement Award in 2012, the Ontario Early Researcher Award in 2011, the Excellent Contribution Award at IEEE/IFIP TrustCom 2010, the Leadership Opportunity Fund Award from Canada Foundation of Innovation in 2009 and the Best Paper Awards at IEEE/IFIP TrustCom 2009 and Intl Conference on Networking 2005. His research interests include cross-layer design, security and QoS provisioning in wireless networks.
Dr. Yu is a senior member of the IEEE. He serves on the editorial boards of several journals, including IEEE Transactions on Vehicular Technology, IEEE Communications Surveys & Tutorials, ACM/Springer Wireless Networks, EURASIP Journal on Wireless Communications Networking, Ad Hoc & Sensor Wireless Networks, Wiley Journal on Security and Communication Networks, and International Journal of Wireless Communications and Networking, and a Guest Editor for IEEE Systems Journal for the special issue on Smart Grid Communications Syst
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