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Advanced Wireless Networks, 3rd Edition

Book Description

The third edition of this popular reference covers enabling technologies for building up 5G wireless networks. Due to extensive research and complexity of the incoming solutions for the next generation of wireless networks it is anticipated that the industry will select a subset of these results and leave some advanced technologies to be implemented later,. This new edition presents a carefully chosen combination of the candidate network architectures and the required tools for their analysis.  Due to the complexity of the technology, the discussion on 5G will be extensive and it will be difficult to reach consensus on the new global standard.  The discussion will have to include the vendors, operators, regulators as well as the research and academic community in the field. Having a comprehensive book will help many participants to join actively the discussion and make meaningful contribution to shaping the new standard. 

Table of Contents

  1. Cover
  2. Title Page
  3. Preface
  4. 1 Introduction
    1. 1.1 Network Model
    2. 1.2 Network Connectivity
    3. 1.3 Wireless Network Design with Small World Properties
    4. 1.4 Frequency Channels Backup
    5. 1.5 Generalized Network Model
    6. 1.6 Routing Protocols Over <i xmlns="http://www.w3.org/1999/xhtml" xmlns:epub="http://www.idpf.org/2007/ops" xmlns:m="http://www.w3.org/1998/Math/MathML" xmlns:svg="http://www.w3.org/2000/svg" xmlns:ibooks="http://vocabulary.itunes.apple.com/rdf/ibooks/vocabulary-extensions-1.0">s</i>-Lattice Network-Lattice Network
    7. 1.7 Network Performance
    8. 1.8 Node, Route, Topology, and Network Robustness
    9. 1.9 Power Consumption
    10. 1.10 Protocol Complexity
    11. 1.11 Performance Evaluation
    12. 1.12 Book Layout
    13. Appendix A.1
    14. References
  5. 2 Adaptive Network Layer
    1. 2.1 Graphs and Routing Protocols
    2. 2.2 Graph Theory
    3. 2.3 Routing with Topology Aggregation
    4. References
  6. 3 Mobility Management
    1. 3.1 Cellular Networks
    2. 3.2 Cellular Systems with Prioritized Handoff
    3. 3.3 Cell Residing Time Distribution
    4. 3.4 Mobility Prediction in Pico- and Micro-Cellular Networks
    5. Appendix A.3 Distance Calculation in an Intermediate Cell
    6. References
  7. 4 Ad Hoc Networks
    1. 4.1 Routing Protocols
    2. 4.2 Hybrid Routing Protocol
    3. 4.3 Scalable Routing Strategies
    4. 4.4 Multipath Routing
    5. 4.5 Clustering Protocols
    6. 4.6 Cashing Schemes for Routing
    7. 4.7 Distributed QoS Routing
    8. References
  8. 5 Sensor Networks
    1. 5.1 Introduction
    2. 5.2 Sensor Network Parameters
    3. 5.3 Sensor Network Architecture
    4. 5.4 Mobile Sensor Network Deployment
    5. 5.5 Directed Diffusion
    6. 5.6 Aggregation in Wireless Sensor Networks
    7. 5.7 Boundary Estimation
    8. 5.8 Optimal Transmission Radius in Sensor Networks
    9. 5.9 Data Funneling
    10. 5.10 Equivalent Transport Control Protocol in Sensor Networks
    11. References
  9. 6 Security
    1. 6.1 Authentication
    2. 6.2 Security Architecture
    3. 6.3 Key Management
    4. 6.4 Security in Ad Hoc Networks
    5. 6.5 Security in Sensor Networks
    6. References
  10. 7 Network Economics
    1. 7.1 Fundamentals of Network Economics
    2. 7.2 Wireless Network Microeconomics: Data Sponsoring
    3. 7.3 Spectrum Pricing for Market Equilibrium
    4. 7.4 Sequential Spectrum Sharing
    5. 7.5 Data Plan Trading
    6. References
  11. 8 Multi-Hop Cellular Networks
    1. 8.1 Modeling Multi-Hop Multi-Operator Multi-Technology Wireless Networks
    2. 8.2 Technology Background
    3. 8.3 System Model and Notation
    4. 8.4 m<sup xmlns="http://www.w3.org/1999/xhtml" xmlns:epub="http://www.idpf.org/2007/ops" xmlns:m="http://www.w3.org/1998/Math/MathML" xmlns:svg="http://www.w3.org/2000/svg" xmlns:ibooks="http://vocabulary.itunes.apple.com/rdf/ibooks/vocabulary-extensions-1.0">3</sup> Route Discovery Protocols Route Discovery Protocols
    5. 8.5 Performance of m<sup xmlns="http://www.w3.org/1999/xhtml" xmlns:epub="http://www.idpf.org/2007/ops" xmlns:m="http://www.w3.org/1998/Math/MathML" xmlns:svg="http://www.w3.org/2000/svg" xmlns:ibooks="http://vocabulary.itunes.apple.com/rdf/ibooks/vocabulary-extensions-1.0">3</sup> Route Discovery Protocols Route Discovery Protocols
    6. 8.6 Protocol Complexity
    7. 8.7 Traffic Offloading Incentives
    8. 8.8 Performance Illustrations
    9. References
  12. 9 Cognitive Networks
    1. 9.1 Technology Background
    2. 9.2 Spectrum Auctions for Multi-hop Cognitive Networks
    3. 9.3 Compound Auctioning in Multi-hop Cognitive Cellular Networks
    4. References
  13. 10 Stochastic Geometry
    1. 10.1 Background Theory
    2. References
  14. 11 Heterogeneous Networks
    1. 11.1 Preliminaries
    2. 11.2 Self-Organized Small Cell Networks
    3. 11.3 Dynamic Network Architecture
    4. 11.4 Economics of Heterogeneous Networks
    5. References
  15. 12 Access Point Selection
    1. 12.1 Background Technology
    2. 12.2 Network Selection Game
    3. 12.3 Joint Access Point Selection and Power Allocation
    4. 12.4 Joint AP Selection and Beamforming Optimization
    5. References
  16. 13 Self-Organizing Networks
    1. 13.1 Self-Organizing Network Optimization
    2. 13.2 System Model
    3. 13.3 Joint Optimization of Tilts and AP Association
    4. References
  17. 14 Complex Networks
    1. 14.1 Evolution Towards Large-Scale Networks
    2. 14.2 Network Characteristics
    3. 14.3 Random Graphs
    4. References
  18. 15 Massive MIMO
    1. 15.1 Linearly Precoded Multicellular Downlink System
    2. 15.2 System Model
    3. 15.3 Optimization for Perfect Channel State Information
    4. 15.4 Robust Designs for WSRM Problem
    5. Appendix A.15
    6. Appendix B.15
    7. References
  19. 16 Network Optimization Theory
    1. 16.1 Introduction
    2. 16.2 Layering as Optimization Decomposition
    3. 16.3 Cross-Layer Optimization
    4. 16.4 Optimization Problem Decomposition Methods
    5. References
  20. 17 Network Information Theory
    1. 17.1 Capacity of Ad Hoc Networks
    2. 17.2 Information Theory and Network Architectures
    3. 17.3 Cooperative Transmission in Wireless Multihop <i xmlns="http://www.w3.org/1999/xhtml" xmlns:epub="http://www.idpf.org/2007/ops" xmlns:m="http://www.w3.org/1998/Math/MathML" xmlns:svg="http://www.w3.org/2000/svg" xmlns:ibooks="http://vocabulary.itunes.apple.com/rdf/ibooks/vocabulary-extensions-1.0">Ad Hoc</i> Networks Networks
    4. References
  21. 18 Stability of Advanced Network Architectures
    1. 18.1 Stability of Cooperative Cognitive Wireless Networks
    2. 18.2 System Model
    3. 18.3 System Optimization
    4. 18.4 Optimal Control Policy
    5. 18.5 Achievable Rates
    6. 18.6 Stabilizing Transmission Policies
    7. References
  22. 19 Multi-Operator Spectrum Sharing
    1. 19.1 Business Models for Spectrum Sharing
    2. 19.2 Spectrum Sharing in Multi-hop Networks
    3. References
  23. 20 Large Scale Networks and Mean Field Theory
    1. 20.1 MFT for Large Heterogeneous Cellular Networks
    2. 20.2 Large Scale Network Model Compression
    3. 20.3 Mean Field Theory Model of Large Scale DTN Networks
    4. 20.4 Mean Field Modeling of Adaptive Infection Recovery in Multicast DTN Networks
    5. 20.5 Mean Field Theory for Scale-Free Random Networks
    6. 20.6 Spectrum Sharing and MFT
    7. 20.7 Modeling Dynamics of Complex System
    8. Appendix A.20 Iterative Algorithm to Solve Systems of Nonlinear ODEs (DiNSE-Algorithm)
    9. Appendix B.20 Infection Rate of Destinations for DNCM
    10. Appendix C.20 Infection Rate for Basic Epidemic Routing
    11. References
  24. 21 mmWave Networks
    1. 21.1 mmWave Technology in Subcellular Architecture
    2. 21.2 Microeconomics of Dynamic mmWave Networks
    3. References
  25. 22 Cloud Computing in Wireless Networks
    1. 22.1 Technology Background
    2. 22.2 System Model
    3. 22.3 System Optimization
    4. 22.4 Dynamic Control Algorithm
    5. 22.5 Achievable Rates
    6. 22.6 Stabilizing Control Policies
    7. References
  26. 23 Wireless Networks and Matching Theory
    1. 23.1 Background Technology: Matching Markets
    2. 23.2 Distributed Stable Matching in Multiple Operator Cellular Network with Traffic Offloading
    3. 23.3 College Admissions Game Model for Cellular Networks with Traffic Offloading
    4. 23.4 Many to Many Matching Games for Caching in Wireless Networks
    5. 23.5 Many to One Matching with Externalities in Cellular Networks with Traffic Offloading
    6. 23.6 Security in Matching of Device to Device Pairs in Cellular Networks
    7. References
  27. 24 Dynamic Wireless Network Infrastructure
    1. 24.1 Infrastructure Sharing in Multi-Operator Cellular Networks
    2. 24.2 User Provided Connectivity
    3. 24.3 Network Virtualization
    4. 24.4 Software Defined Networks
    5. 24.5 SDN Security
    6. References
  28. Index
  29. End User License Agreement