Green Mobile Networks : A Networking Perspective.

Intro -- 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 Delivery -- 2 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 Energy -- 3.1 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 Networks -- 4.1.2 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 Offloading -- 5.1 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 -- 6.1 Green Energy Optimization Scheme for Mobile Networks With Hybrid Energy Supplies -- 6.1.1 System Model and Problem Formulation -- 6.1.2 Problem Formulation -- 6.1.3 The GEO Algorithm -- 6.1.4 Performance Evaluation -- 6.2 Optimal Renewable Energy Provisioning for BSs -- 6.2.1 Related Work on Provisioning the Green Power System -- 6.2.2 System Model and Problem Formulation -- 6.2.3 The Green Energy Provisioning Solution -- 6.2.4 Performance Evaluation -- 6.3 Summary -- 6.4 Questions -- 7 Energy Aware Traffic Load Balancing in Mobile Networks -- 7.1 Traffic Load Balancing in Mobile Networks -- 7.2 ICE: Intelligent Cell brEathing to Optimize the Utilization of Green Energy -- 7.2.1 Problem Formulation -- 7.2.2 The ICE Algorithm.

7.2.3 ICE Algorithm Performance -- 7.3 Energy- and QoS-Aware Traffic Load Balancing -- 7.3.1 System Model and Problem Formulation -- 7.3.2 vGALA: A Green Energy and Latency Aware Load Balancing Scheme -- 7.3.3 Properties of vGALA -- 7.3.4 The Practicality of the vGALA Scheme -- 7.3.5 The Admission Control Mechanism -- 7.3.6 Performance Evaluation -- 7.4 Energy Efficient Traffic Load Balancing in Backhaul Constrained Small Cell Networks -- 7.4.1 System Model and Problem Formulation -- 7.4.2 Network Utility Aware Traffic Load Balancing -- 7.4.3 Performance Evaluation -- 7.5 Traffic Load Balancing in Smart Grid Enabled Mobile Networks -- 7.5.1 System Model and Problem Formulation -- 7.5.2 An Approximation Solution -- 7.5.3 Performance Evaluation -- 7.6 Summary -- 7.7 Questions -- 8 Enhancing Energy Efficiency via Device-to-Device Proximity Services -- 8.1 Energy Efficient Cooperative Wireless Multicasting -- 8.1.1 System Model and Problem Formulation -- 8.1.2 Gradient Guided Algorithm -- 8.1.3 Performance Evaluation -- 8.2 Green Relay Assisted D2D Communications -- 8.2.1 System Model and Problem Formulation -- 8.2.2 A Heuristic Green Relay Assignment Algorithm -- 8.3 Green Content Brokerage -- 8.3.1 Problem Formulation and Analysis -- 8.3.2 The Heuristic Traffic Offloading Algorithm -- 8.3.3 Performance Evaluation -- 8.4 Summary -- 8.5 Questions -- 9 Greening Mobile Networks via Optimizing the Efficiency of Content Delivery -- 9.1 Mobile Network Measurements -- 9.1.1 Packet Retransmission -- 9.1.2 Queuing in Mobile Core Networks -- 9.1.3 Network Asymmetry -- 9.1.4 Queue Management -- 9.1.5 First Packet Delay -- 9.1.6 TCP Flaws -- 9.1.7 Application Misbehavior -- 9.1.8 Mobile Devices -- 9.1.9 User Mobility -- 9.2 Mobile System Evolution -- 9.2.1 EUTRAN -- 9.2.2 Integrating Mobile Networks and CDN -- 9.3 Content and Network Optimization.

9.3.1 Content Domain Techniques -- 9.3.2 Network Domain Techniques -- 9.3.3 Cross Domain Techniques -- 9.4 Mobile Data Offloading -- 9.4.1 Direct Data Offloading -- 9.4.2 Network Aggregation -- 9.5 Web Content Delivery Acceleration System -- 9.5.1 Web Acceleration System -- 9.6 Multimedia Content Delivery Acceleration -- 9.6.1 Adaptive Streaming -- 9.6.2 Other Methods -- 9.7 Summary -- 9.8 Questions -- References -- Index.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.