Cooperative multicell processing techniques for energy-efficient cellular wireless communications

Nakhai, Mohammad Reza, Le, Tuan Anh ORCID: https://orcid.org/0000-0003-0612-3717, Akhtar, Auon Muhammad and Holland, Oliver (2012) Cooperative multicell processing techniques for energy-efficient cellular wireless communications. In: Green Radio Communication Networks. Cambridge University Press, pp. 236-260. ISBN 9781107017542. [Book Section]

Abstract

Table of Contents in a book:

Part I. Communication Architectures and Models for Green Radio Networks:
1. Fundamental trade-offs on the design of green radio networks Yan Chen, Shunqing Zhang and Shugong Xu
2. Algorithms for energy-harvesting wireless networks Vinod Sharma, Utpal Mukherji and Vinay Joseph
3. PHY and MAC layer optimization for energy-harvesting wireless networks Neelesh B. Mehta and Chandra R. Murthy
4. Mechanical relaying techniques in cellular wireless networks Panayiotis Kolios, Vasilis Friderikos and Katerina Papadaki
Part II. Physical Communications Techniques for Green Radio Networks:
5. Green modulation and coding schemes in energy-constrained wireless networks Jamshid Abouei, Konstantinos N. Plataniotis and Subbarayan Pasupathy
6. Cooperative techniques for energy-efficient wireless communications Osama Amin, Sara Bavarian and Lutz Lampe
7. Effect of cooperation and network coding on energy-efficiency of wireless transmissions Nof Abuzainab and Anthony Ephremides
Part III. Base Station Power-Management Techniques for Green Radio Networks:
8. Opportunistic spectrum and load management for green radio networks Oliver Holland, Christian Facchini, A. Hamid Aghvami, Orlando Cabral and Fernando Velez
9. Energy-saving techniques in cellular wireless base stations Tao Chen, Honggang Zhang, Yang Yang and Kari Horneman
10. Power-management for base stations in smart grid environment Xiao Lu, Dusit Niyato and Ping Wang
11. Cooperative multicell processing techniques for energy-efficient cellular wireless communications Mohammad Reza Nakhai, Tuan Anh Le, Auon Muhammad Akhtar and Oliver Holland
Part IV. Wireless Access Techniques for Green Radio Networks:
12. Cross-layer design of adaptive packet scheduling for green radio networks Ashok Karmokar, Alagan Anpalagan and Ekram Hossain
13. Energy-efficient relaying for cooperative cellular wireless networks Yifei Wei, Mei Song and F. Richard Yu
14. Energy performance in TDD-CDMA multihop cellular networks Hoang Thanh Long, Xue Jun Li and Peter Han Joo Chong
15. Resource allocation for green communication in relay-based cellular networks Umesh Phuyal, Satish C. Jha and Vijay K. Bhargava
Part V. Green Radio Test-Bed, Experimental Results, and Standardization Activities:
16. How much energy is needed to run a wireless network? Gunther Auer, Vito Giannini, Istv́an Godor, Oliver Blume, Albrecht Fehske, Jose Alonso Rubio, Pål Frenger, Magnus Olsson, Dario Sabella, Manuel J. Gonzalez, Muhammad Ali Imran and Claude Desset
17. Standardization, fora, and joint industrial projects on green radio networks Alberto Conte, Hakon Helmers and Philippe Sehier.

Description:
The importance of reducing energy costs, reducing CO2 emissions and protecting the environment are leading to an increased focus on green, energy-efficient approaches to the design of next-generation wireless networks. Presenting state-of-the-art research on green radio communications and networking technology by leaders in the field, this book is invaluable for researchers and professionals working in wireless communication. Summarizing existing and ongoing research, the book explores communication architectures and models, physical communications techniques, base station power-management techniques, wireless access techniques for green radio networks, and green radio test-bed, experimental results and standardization activities. Throughout, theoretical results are blended with practical insights and coverage of deployment issues. It serves as a one-stop reference for key concepts and design techniques for energy-efficient communications and networking and provides information essential for the design of future-generation cellular wireless systems.

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