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Green Mobile networks : a networking perspective / Nirwan Ansari and Tao Han.

By: Ansari, Nirwan [author.].
Contributor(s): Han, Tao [author.].
Material type: materialTypeLabelBookPublisher: Hoboken, NJ : John Wiley and Sons : Wiley-IEEE Press, 2017Description: 1 online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9781119125112; 1119125111; 9781119125099; 111912509X; 1119125103; 9781119125105.Subject(s): Mobile communication systems -- Energy conservation | Green electronics | TECHNOLOGY & ENGINEERING -- Mechanical | Green electronicsGenre/Form: Electronic books.DDC classification: 621.3845/6 Online resources: Wiley Online Library
Contents:
Green Mobile Networks; Contents; Preface; List of Abbreviations; Part I Green Mobile Networking Technologies; 1 Fundamental Green Networking Technologies; 1.1 Energy Efficient Multi-cell Cooperation; 1.2 Heterogeneous Networking; 1.3 Mobile Traffic Offloading; 1.3.1 Infrastructure Based Mobile Traffic Offloading; 1.3.2 Ad-hoc Based Mobile Traffic Offloading; 1.3.3 User-BS Associations in Heterogeneous Mobile Networks; 1.4 Device-to-Device Communications and Proximity Services; 1.5 Powering Mobile Networks With Renewable Energy; 1.6 Green Communications via Cognitive Radio Communications.
1.7 Green Communications via Optimizing Mobile Content Delivery2 Multi-cell Cooperation Communications; 2.1 Traffic Intensity Aware Multi-cell Cooperation; 2.1.1 Cooperation to Estimate Traffic Demands; 2.1.2 Cooperation to Optimize Switching Off Strategy; 2.2 Energy Aware Multi-cell Cooperation; 2.3 Energy Efficient CoMP Transmission; 2.3.1 Increasing Energy Efficiency for Cell Edge Communications; 2.3.2 Enabling More BSs Into Sleep Mode; 2.4 Summary and Future Research; 2.4.1 Coalition Formation; 2.4.2 Green Energy Utilization; 2.4.3 Incentive Mechanism; 2.5 Questions.
3 Powering Mobile Networks with Green Energy3.1 Green Energy Models: Generation and Consumption; 3.1.1 Green Power Generation; 3.1.2 Mobile Network Energy Consumption; 3.2 Green Energy Powered Mobile Base Stations; 3.2.1 Green Energy Provisioning; 3.2.2 Base Station Resource Management; 3.3 Green Energy Powered Mobile Networks; 3.3.1 Off-Grid Green Mobile Networks; 3.3.2 On-Grid Green Mobile Networks; 3.3.3 Mixture of Green Base Stations and Grid Powered Base Stations; 3.4 Summary; 3.5 Questions; 4 Spectrum and Energy Harvesting Wireless Networks; 4.1 Spectrum Harvesting Techniques.
4.1.1 Energy Efficiency in Spectrum Harvesting Networks4.1.2 Enhancing Energy Efficiency Through Spectrum Harvesting; 4.2 Energy Harvesting Techniques; 4.2.1 Green Energy Harvesting Models; 4.2.2 Green Energy Utilization and Optimization; 4.2.3 Cognitive Functionalities in Energy Harvesting; 4.3 FreeNet: Spectrum and Energy Harvesting Wireless Networks; 4.3.1 FreeNet Application Scenarios; 4.3.2 Dynamic Network Architecture Optimization; 4.3.3 Communication Protocol Suite Design; 4.4 Summary; 4.5 Questions; Part II Green Mobile Networking Solutions.
5 Energy and Spectrum Efficient Mobile Traffic Offloading5.1 Centralized Energy Spectrum Trading Algorithm; 5.1.1 System Model and Problem Formulation; 5.1.2 A Heuristic Power Consumption Minimization Algorithm; 5.2 Auction-Based Decentralized Algorithm; 5.2.1 An Auction-Based EST Scheme; 5.3 Performance Evaluation; 5.3.1 Centralized Energy Spectrum Trading Algorithm; 5.3.2 Auction-Based Decentralized Algorithm; 5.4 Summary; 5.5 Questions; 6 Optimizing Green Energy Utilization for Mobile Networks with Hybrid Energy Supplies.
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Online resource; title from PDF title page (EBSCO, viewed March 23, 2017).

Green Mobile Networks; Contents; Preface; List of Abbreviations; Part I Green Mobile Networking Technologies; 1 Fundamental Green Networking Technologies; 1.1 Energy Efficient Multi-cell Cooperation; 1.2 Heterogeneous Networking; 1.3 Mobile Traffic Offloading; 1.3.1 Infrastructure Based Mobile Traffic Offloading; 1.3.2 Ad-hoc Based Mobile Traffic Offloading; 1.3.3 User-BS Associations in Heterogeneous Mobile Networks; 1.4 Device-to-Device Communications and Proximity Services; 1.5 Powering Mobile Networks With Renewable Energy; 1.6 Green Communications via Cognitive Radio Communications.

1.7 Green Communications via Optimizing Mobile Content Delivery2 Multi-cell Cooperation Communications; 2.1 Traffic Intensity Aware Multi-cell Cooperation; 2.1.1 Cooperation to Estimate Traffic Demands; 2.1.2 Cooperation to Optimize Switching Off Strategy; 2.2 Energy Aware Multi-cell Cooperation; 2.3 Energy Efficient CoMP Transmission; 2.3.1 Increasing Energy Efficiency for Cell Edge Communications; 2.3.2 Enabling More BSs Into Sleep Mode; 2.4 Summary and Future Research; 2.4.1 Coalition Formation; 2.4.2 Green Energy Utilization; 2.4.3 Incentive Mechanism; 2.5 Questions.

3 Powering Mobile Networks with Green Energy3.1 Green Energy Models: Generation and Consumption; 3.1.1 Green Power Generation; 3.1.2 Mobile Network Energy Consumption; 3.2 Green Energy Powered Mobile Base Stations; 3.2.1 Green Energy Provisioning; 3.2.2 Base Station Resource Management; 3.3 Green Energy Powered Mobile Networks; 3.3.1 Off-Grid Green Mobile Networks; 3.3.2 On-Grid Green Mobile Networks; 3.3.3 Mixture of Green Base Stations and Grid Powered Base Stations; 3.4 Summary; 3.5 Questions; 4 Spectrum and Energy Harvesting Wireless Networks; 4.1 Spectrum Harvesting Techniques.

4.1.1 Energy Efficiency in Spectrum Harvesting Networks4.1.2 Enhancing Energy Efficiency Through Spectrum Harvesting; 4.2 Energy Harvesting Techniques; 4.2.1 Green Energy Harvesting Models; 4.2.2 Green Energy Utilization and Optimization; 4.2.3 Cognitive Functionalities in Energy Harvesting; 4.3 FreeNet: Spectrum and Energy Harvesting Wireless Networks; 4.3.1 FreeNet Application Scenarios; 4.3.2 Dynamic Network Architecture Optimization; 4.3.3 Communication Protocol Suite Design; 4.4 Summary; 4.5 Questions; Part II Green Mobile Networking Solutions.

5 Energy and Spectrum Efficient Mobile Traffic Offloading5.1 Centralized Energy Spectrum Trading Algorithm; 5.1.1 System Model and Problem Formulation; 5.1.2 A Heuristic Power Consumption Minimization Algorithm; 5.2 Auction-Based Decentralized Algorithm; 5.2.1 An Auction-Based EST Scheme; 5.3 Performance Evaluation; 5.3.1 Centralized Energy Spectrum Trading Algorithm; 5.3.2 Auction-Based Decentralized Algorithm; 5.4 Summary; 5.5 Questions; 6 Optimizing Green Energy Utilization for Mobile Networks with Hybrid Energy Supplies.

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