Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Part I Communication architectures and models for green radio networks
- Part II Physical communications techniques for green radio networks
- Part III Base station power-management techniques for green radio networks
- Part IV Wireless access techniques for green radio networks
- 12 Cross-layer design of adaptive packet scheduling for green radio networks
- 13 Energy-efficient relaying for cooperative cellular wireless networks
- 14 Energy performance in TDD-CDMA multi-hop cellular networks
- 15 Resource allocation for green communication in relay-based cellular networks
- Part V Green radio test-bed, experimental results, and standardization activities
- Index
- References
13 - Energy-efficient relaying for cooperative cellular wireless networks
from Part IV - Wireless access techniques for green radio networks
Published online by Cambridge University Press: 05 August 2012
- Frontmatter
- Contents
- List of contributors
- Preface
- Part I Communication architectures and models for green radio networks
- Part II Physical communications techniques for green radio networks
- Part III Base station power-management techniques for green radio networks
- Part IV Wireless access techniques for green radio networks
- 12 Cross-layer design of adaptive packet scheduling for green radio networks
- 13 Energy-efficient relaying for cooperative cellular wireless networks
- 14 Energy performance in TDD-CDMA multi-hop cellular networks
- 15 Resource allocation for green communication in relay-based cellular networks
- Part V Green radio test-bed, experimental results, and standardization activities
- Index
- References
Summary
Introduction
The continuously growing demand for ubiquitous network access has led to the rapid development of wireless cellular networks during the last decade. The subscriber number and service traffic in cellular networks have explosively escalated. It is reported that there are now more than 5 billion mobile phone connections worldwide, and more than a billion mobile phone connections have been added globally in just 18 months [1]. The Asia-Pacific region including India and China is the main source of growth, accounting for 47% of global mobile connections at the end of June 2010. The penetration of mobile phones is growing rapidly in developing countries, and the number of subscribers will be astounding, since the world population is expected to reach 9.15 billion in 2050. In parallel with the rapid growth of the number of connections, the service types and traffic load have experienced significant evolvement from voice and short messaging service (SMS) to video and multimedia internet. Such tremendous growth in the information and communication technology (ICT) industry has made it become one of the leading sources of world energy consumption and it is expected to grow dramatically in the future. There are currently more than 4 million base stations (BSs) serving mobile users, each consuming an average of 25 MWh per year. In 2007, four Chinese operators consumed 20 billion KWh, which is equivalent to 8 million tons of coal combustion. ICT already represents around 2%of total carbon emissions, and this is expected to increase from 0.53 billion tonnes (Gt) carbon dioxide equivalent (CO2e) in 2002 to 1.43GtCO2e in 2020 [2].
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- Chapter
- Information
- Green Radio Communication Networks , pp. 286 - 308Publisher: Cambridge University PressPrint publication year: 2012