Central Library

Normal view MARC view ISBD view

Fundamentals of 5G mobile networks / edited by Jonathan Rodriguez.

Contributor(s): Rodriguez, Jonathan [editor.] | IEEE Xplore (Online Service) [distributor.] | Wiley [publisher.].
Material type: materialTypeLabelBookPublisher: Chichester, West Sussex, United Kingdom : Wiley, 2015Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2015]Description: 1 PDF (xxxix, 293 pages).Content type: text Media type: electronic Carrier type: online resourceISBN: 9781118867464.Subject(s): Mobile communication systems -- Technological innovations | Wireless communication systems -- StandardsGenre/Form: Electronic books.DDC classification: 621.3845/6 Online resources: Abstract with links to resource Also available in print.
Contents:
-- Contributor Biographies xiii -- Preface xxix -- Acknowledgements xxxi -- Introduction xxxiii -- 1 Drivers for 5G: The 'Pervasive Connected World' 1 -- 1.1 Introduction 1 -- 1.2 Historical Trend of Wireless Communications 2 -- 1.3 Evolution of LTE Technology to Beyond 4G 4 -- 1.4 5G Roadmap 5 -- 1.5 10 Pillars of 5G 6 -- 1.5.1 Evolution of Existing RATs 6 -- 1.5.2 Hyperdense Small?]Cell Deployment 7 -- 1.5.3 Self?]Organising Network 8 -- 1.5.4 Machine Type Communication 8 -- 1.5.5 Developing Millimetre?]Wave RATs 8 -- 1.5.6 Redesigning Backhaul Links 9 -- 1.5.7 Energy Efficiency 9 -- 1.5.8 Allocation of New Spectrum for 5G 10 -- 1.5.9 Spectrum Sharing 10 -- 1.5.10 RAN Virtualisation 10 -- 1.6 5G in Europe 11 -- 1.6.1 Horizon 2020 Framework Programme 11 -- 1.6.2 5G Infrastructure PPP 12 -- 1.6.3 METIS Project 13 -- 1.6.4 5G Innovation Centre 14 -- 1.6.5 Visions of Companies 14 -- 1.7 5G in North America 15 -- 1.7.1 Academy Research 15 -- 1.7.2 Company R&D 15 -- 1.8 5G in Asia 16 -- 1.8.1 5G in China 16 -- 1.8.2 5G in South Korea 19 -- 1.8.3 5G in Japan 21 -- 1.9 5G Architecture 23 -- 1.10 Conclusion 24 -- Acknowledgements 25 -- References 25 -- 2 The 5G Internet 29 -- 2.1 Introduction 29 -- 2.2 Internet of Things and Context?]Awareness 32 -- 2.2.1 Internet of Things 33 -- 2.2.2 Context?]Awareness 34 -- 2.3 Networking Reconfiguration and Virtualisation Support 35 -- 2.3.1 Software Defined Networking 36 -- 2.3.2 Network Function Virtualisation 38 -- 2.4 Mobility 40 -- 2.4.1 An Evolutionary Approach from the Current Internet 40 -- 2.4.2 A Clean?]Slate Approach 45 -- 2.5 Quality of Service Control 47 -- 2.5.1 Network Resource Provisioning 47 -- 2.5.2 Aggregate Resource Provisioning 49 -- 2.6 Emerging Approach for Resource Over?]Provisioning 50 -- 2.6.1 Control Information Repository 53 -- 2.6.2 Service Admission Control Policies 53 -- 2.6.3 Network Resource Provisioning 53 -- 2.6.4 Control Enforcement Functions 54 -- 2.6.5 Network Configurations 54 -- 2.6.6 Network Operations 55.
2.7 Summary 57 -- Acknowledgements 57 -- References 58 -- 3 Small Cells for 5G Mobile Networks 63 -- 3.1 Introduction 63 -- 3.2 What are Small Cells? 64 -- 3.2.1 WiFi and Femtocells as Candidate Small?]Cell Technologies 66 -- 3.2.2 WiFi and Femto Performance / Indoors vs Outdoors 70 -- 3.3 Capacity Limits and Achievable Gains with Densification 73 -- 3.3.1 Gains with Multi?]Antenna Techniques 73 -- 3.3.2 Gains with Small Cells 76 -- 3.4 Mobile Data Demand 81 -- 3.4.1 Approach and Methodology 81 -- 3.5 Demand vs Capacity 81 -- 3.6 Small?]Cell Challenges 93 -- 3.7 Conclusions and Future Directions 97 -- References 99 -- 4 Cooperation for Next Generation Wireless Networks 105 -- 4.1 Introduction 105 -- 4.2 Cooperative Diversity and Relaying Strategies 107 -- 4.2.1 Cooperation and Network Coding 107 -- 4.2.2 Cooperative ARQ MAC Protocols 108 -- 4.3 PHY Layer Impact on MAC Protocol Analysis 110 -- 4.3.1 Impact of Fast Fading and Shadowing on Packet Reception for QoS Guarantee 111 -- 4.3.2 Impact of Shadowing Spatial Correlation 112 -- 4.4 Case Study: NCCARQ 113 -- 4.4.1 NCCARQ Overview 113 -- 4.4.2 PHY Layer Impact 114 -- 4.5 Performance Evaluation 116 -- 4.5.1 Simulation Scenario 116 -- 4.5.2 Simulation Results 117 -- 4.6 Conclusion 122 -- Acknowledgements 122 -- References 122 -- 5 Mobile Clouds: Technology and Services for Future Communication Platforms 125 -- 5.1 Introduction 125 -- 5.2 The Mobile Cloud 127 -- 5.2.1 User Resources 129 -- 5.2.2 Software Resources 130 -- 5.2.3 Hardware Resources 131 -- 5.2.4 Networking Resources 132 -- 5.3 Mobile Cloud Enablers 133 -- 5.3.1 The Mobile User Domain 133 -- 5.3.2 Wireless Technologies 135 -- 5.3.3 Software and Middleware 139 -- 5.4 Network Coding 140 -- 5.5 Summary 145 -- References 145 -- 6 Cognitive Radio for 5G Wireless Networks 149 -- 6.1 Introduction 149 -- 6.2 Overview of Cognitive Radio Technology in 5G Wireless 150 -- 6.3 Spectrum Optimisation using Cognitive Radio 152 -- 6.4 Relevant Spectrum Optimisation Literature in 5G 152.
6.4.1 Dynamic Spectrum Access 152 -- 6.4.2 Spectrum Regulatory Policy 153 -- 6.4.3 Marketing Policy and Model 154 -- 6.5 Cognitive Radio and Carrier Aggregation 154 -- 6.6 Energy?]Efficient Cognitive Radio Technology 155 -- 6.7 Key Requirements and Challenges for 5G Cognitive Terminals 156 -- 6.7.1 5G Devices as Cognitive Radio Terminals 157 -- 6.7.2 5G Cognitive Terminal Challenges 159 -- 6.8 Summary 162 -- References 162 -- 7 The Wireless Spectrum Crunch: White Spaces for 5G? 165 -- 7.1 Introduction 165 -- 7.2 Background 168 -- 7.2.1 Early Spectrum Management 168 -- 7.2.2 History of TV White Spaces 169 -- 7.2.3 History of Radar White Spaces 171 -- 7.3 TV White Space Technology 171 -- 7.3.1 Standards 172 -- 7.3.2 Approaches to White Space 173 -- 7.4 White Space Spectrum Opportunities and Challenges 175 -- 7.5 TV White Space Applications 178 -- 7.5.1 Fixed Wireless Networking 180 -- 7.5.2 Public Safety Applications 181 -- 7.5.3 Mobile Broadband 182 -- 7.6 International Efforts 185 -- 7.7 Role of WS in 5G 186 -- 7.8 Conclusion 186 -- References 187 -- 8 Towards a Unified 5G Broadcast?]Broadband Architecture 191 -- 8.1 Introduction 191 -- 8.2 Background 192 -- 8.3 Challenges to Be Addressed 195 -- 8.3.1 The Spectrum Dimension 195 -- 8.3.2 The Risk of Fragmentation of the Terminal Market 196 -- 8.3.3 The Change in TV Consumer Patterns and the Need for a Flexible Approach 197 -- 8.3.4 Business?]Related Hurdles 198 -- 8.3.5 Societal Requirement: TV Broadcasting as a Public Service Media in Europe 198 -- 8.4 Candidate Network Architectures for a BC?]BB Convergent Solution 199 -- 8.4.1 Solution 1: Cellular Broadcasting in the TV Spectrum 200 -- 8.4.2 Solution 2: Hybrid Network Approach / Using DVB?]T2 FEFs for LTE Transmission 201 -- 8.4.3 Solution 3: Next Generation Common Broadcasting System 201 -- 8.5 The BC?]BB Study: What Needs to Be Done 204 -- 8.5.1 TV and Video Future Consumption Models in Europe 204 -- 8.5.2 BC?]BB Architecture Options 204 -- 8.5.3 Large?]Scale Simulation and Assessment of BC?]BB Convergent Options 204.
8.5.4 Feasibility Study 205 -- 8.6 Conclusion 205 -- References 206 -- 9 Security for 5G Communications 207 -- 9.1 Introduction 207 -- 9.2 Overview of a Potential 5G Communications System Architecture 208 -- 9.3 Security Issues and Challenges in 5G Communications Systems 209 -- 9.3.1 User Equipment 210 -- 9.3.2 Access Networks 212 -- 9.3.3 Mobile Operator's Core Network 216 -- 9.3.4 External IP Networks 217 -- 9.4 Summary 218 -- References 219 -- 10 SON Evolution for 5G Mobile Networks 221 -- 10.1 Introduction 221 -- 10.2 SON in UMTS and LTE 222 -- 10.3 The Need for SON in 5G 231 -- 10.4 Evolution towards Small?]Cell Dominant HetNets 236 -- 10.4.1 Towards a New SON Architecture for 5G 237 -- 10.5 Conclusion 239 -- References 240 -- 11 Green Flexible RF for 5G 241 -- 11.1 Introduction 241 -- 11.2 Radio System Design 242 -- 11.2.1 Antenna Design for 5G 242 -- 11.2.2 Passive Front?]End Design Using SIW for 5G Application 254 -- 11.2.3 RF Power Amplifiers 257 -- 11.3 Nonlinear Crosstalk in MIMO Systems 264 -- 11.4 Summary 269 -- Acknowledgements 269 -- References 270 -- 12 Conclusion and Future Outlook 273 -- 12.1 Design Drivers for Next?]Generation Networks 273 -- 12.2 5G: A Green Inter?]networking Experience 274 -- 12.2.1 Emerging Approaches to Allow Drastic Reduction in the Signalling Overhead 278 -- 12.3 A Vision for 5G Mobile 278 -- 12.3.1 Mobile Small Cells the Way Forward? 279 -- 12.4 Final Remarks 282 -- References 282 -- Index 285.
Summary: Fundamentals of 5G Mobile Networks provides an overview of the key features of the 5th Generation (5G) mobile networks, discussing the motivation for 5G and the main challenges in developing this new technology. This book provides an insight into the key areas of research that will define this new system technology paving the path towards future research and development. The book is multi-disciplinary in nature, and aims to cover a whole host of intertwined subjects that will predominantly influence the 5G landscape, including Future Internet, cloud computing, small cells and self-organizing networks (SONs), cooperative communications, dynamic spectrum management and cognitive radio, Broadcast-Broadband convergence, 5G security challenge, and green RF. The book aims to be the first of its kind towards painting a holistic perspective on 5G Mobile, allowing 5G stakeholders to capture key technology trends on different layering domains and to identify potential inter-disciplinary design aspects that need to be solved in order to deliver a 5G Mobile system that operates seamlessly as a piece of the 5G networking jigsaw. Key features: * Addresses the fundamentals of 5G mobile networks serving as a useful study guide for mobile researchers and system engineers aiming to position their research in this fast evolving arena. * Develops the Small cells story together with next?]generation SON (self-organizing networks) systems as solutions for addressing the unprecedented traffic demand and variations across cells. * Elaborates Mobile Cloud technology and Services for future communication platforms, acting as a source of inspiration for corporations looking for new business models to harness the 5G wave. * Discusses the open issues facing broad?]scale commercial deployment of white space networks, including the potential for applications towards the future 5G standard. * Provides a scientific assessment for broadcast and mobile broadband convergence coupled together with a 'win-win' convergence solution to harmonize the broadcasting and mobile industry. * Describes the key components, trends and challenges, as well as the system requirements for 5G transceivers to support multi?]standard radio, a source of inspiration for RF engineers and vendors to tie down the requirements and potential solutions for next generation handsets.
    average rating: 0.0 (0 votes)
No physical items for this record

Includes bibliographical references and index.

-- Contributor Biographies xiii -- Preface xxix -- Acknowledgements xxxi -- Introduction xxxiii -- 1 Drivers for 5G: The 'Pervasive Connected World' 1 -- 1.1 Introduction 1 -- 1.2 Historical Trend of Wireless Communications 2 -- 1.3 Evolution of LTE Technology to Beyond 4G 4 -- 1.4 5G Roadmap 5 -- 1.5 10 Pillars of 5G 6 -- 1.5.1 Evolution of Existing RATs 6 -- 1.5.2 Hyperdense Small?]Cell Deployment 7 -- 1.5.3 Self?]Organising Network 8 -- 1.5.4 Machine Type Communication 8 -- 1.5.5 Developing Millimetre?]Wave RATs 8 -- 1.5.6 Redesigning Backhaul Links 9 -- 1.5.7 Energy Efficiency 9 -- 1.5.8 Allocation of New Spectrum for 5G 10 -- 1.5.9 Spectrum Sharing 10 -- 1.5.10 RAN Virtualisation 10 -- 1.6 5G in Europe 11 -- 1.6.1 Horizon 2020 Framework Programme 11 -- 1.6.2 5G Infrastructure PPP 12 -- 1.6.3 METIS Project 13 -- 1.6.4 5G Innovation Centre 14 -- 1.6.5 Visions of Companies 14 -- 1.7 5G in North America 15 -- 1.7.1 Academy Research 15 -- 1.7.2 Company R&D 15 -- 1.8 5G in Asia 16 -- 1.8.1 5G in China 16 -- 1.8.2 5G in South Korea 19 -- 1.8.3 5G in Japan 21 -- 1.9 5G Architecture 23 -- 1.10 Conclusion 24 -- Acknowledgements 25 -- References 25 -- 2 The 5G Internet 29 -- 2.1 Introduction 29 -- 2.2 Internet of Things and Context?]Awareness 32 -- 2.2.1 Internet of Things 33 -- 2.2.2 Context?]Awareness 34 -- 2.3 Networking Reconfiguration and Virtualisation Support 35 -- 2.3.1 Software Defined Networking 36 -- 2.3.2 Network Function Virtualisation 38 -- 2.4 Mobility 40 -- 2.4.1 An Evolutionary Approach from the Current Internet 40 -- 2.4.2 A Clean?]Slate Approach 45 -- 2.5 Quality of Service Control 47 -- 2.5.1 Network Resource Provisioning 47 -- 2.5.2 Aggregate Resource Provisioning 49 -- 2.6 Emerging Approach for Resource Over?]Provisioning 50 -- 2.6.1 Control Information Repository 53 -- 2.6.2 Service Admission Control Policies 53 -- 2.6.3 Network Resource Provisioning 53 -- 2.6.4 Control Enforcement Functions 54 -- 2.6.5 Network Configurations 54 -- 2.6.6 Network Operations 55.

2.7 Summary 57 -- Acknowledgements 57 -- References 58 -- 3 Small Cells for 5G Mobile Networks 63 -- 3.1 Introduction 63 -- 3.2 What are Small Cells? 64 -- 3.2.1 WiFi and Femtocells as Candidate Small?]Cell Technologies 66 -- 3.2.2 WiFi and Femto Performance / Indoors vs Outdoors 70 -- 3.3 Capacity Limits and Achievable Gains with Densification 73 -- 3.3.1 Gains with Multi?]Antenna Techniques 73 -- 3.3.2 Gains with Small Cells 76 -- 3.4 Mobile Data Demand 81 -- 3.4.1 Approach and Methodology 81 -- 3.5 Demand vs Capacity 81 -- 3.6 Small?]Cell Challenges 93 -- 3.7 Conclusions and Future Directions 97 -- References 99 -- 4 Cooperation for Next Generation Wireless Networks 105 -- 4.1 Introduction 105 -- 4.2 Cooperative Diversity and Relaying Strategies 107 -- 4.2.1 Cooperation and Network Coding 107 -- 4.2.2 Cooperative ARQ MAC Protocols 108 -- 4.3 PHY Layer Impact on MAC Protocol Analysis 110 -- 4.3.1 Impact of Fast Fading and Shadowing on Packet Reception for QoS Guarantee 111 -- 4.3.2 Impact of Shadowing Spatial Correlation 112 -- 4.4 Case Study: NCCARQ 113 -- 4.4.1 NCCARQ Overview 113 -- 4.4.2 PHY Layer Impact 114 -- 4.5 Performance Evaluation 116 -- 4.5.1 Simulation Scenario 116 -- 4.5.2 Simulation Results 117 -- 4.6 Conclusion 122 -- Acknowledgements 122 -- References 122 -- 5 Mobile Clouds: Technology and Services for Future Communication Platforms 125 -- 5.1 Introduction 125 -- 5.2 The Mobile Cloud 127 -- 5.2.1 User Resources 129 -- 5.2.2 Software Resources 130 -- 5.2.3 Hardware Resources 131 -- 5.2.4 Networking Resources 132 -- 5.3 Mobile Cloud Enablers 133 -- 5.3.1 The Mobile User Domain 133 -- 5.3.2 Wireless Technologies 135 -- 5.3.3 Software and Middleware 139 -- 5.4 Network Coding 140 -- 5.5 Summary 145 -- References 145 -- 6 Cognitive Radio for 5G Wireless Networks 149 -- 6.1 Introduction 149 -- 6.2 Overview of Cognitive Radio Technology in 5G Wireless 150 -- 6.3 Spectrum Optimisation using Cognitive Radio 152 -- 6.4 Relevant Spectrum Optimisation Literature in 5G 152.

6.4.1 Dynamic Spectrum Access 152 -- 6.4.2 Spectrum Regulatory Policy 153 -- 6.4.3 Marketing Policy and Model 154 -- 6.5 Cognitive Radio and Carrier Aggregation 154 -- 6.6 Energy?]Efficient Cognitive Radio Technology 155 -- 6.7 Key Requirements and Challenges for 5G Cognitive Terminals 156 -- 6.7.1 5G Devices as Cognitive Radio Terminals 157 -- 6.7.2 5G Cognitive Terminal Challenges 159 -- 6.8 Summary 162 -- References 162 -- 7 The Wireless Spectrum Crunch: White Spaces for 5G? 165 -- 7.1 Introduction 165 -- 7.2 Background 168 -- 7.2.1 Early Spectrum Management 168 -- 7.2.2 History of TV White Spaces 169 -- 7.2.3 History of Radar White Spaces 171 -- 7.3 TV White Space Technology 171 -- 7.3.1 Standards 172 -- 7.3.2 Approaches to White Space 173 -- 7.4 White Space Spectrum Opportunities and Challenges 175 -- 7.5 TV White Space Applications 178 -- 7.5.1 Fixed Wireless Networking 180 -- 7.5.2 Public Safety Applications 181 -- 7.5.3 Mobile Broadband 182 -- 7.6 International Efforts 185 -- 7.7 Role of WS in 5G 186 -- 7.8 Conclusion 186 -- References 187 -- 8 Towards a Unified 5G Broadcast?]Broadband Architecture 191 -- 8.1 Introduction 191 -- 8.2 Background 192 -- 8.3 Challenges to Be Addressed 195 -- 8.3.1 The Spectrum Dimension 195 -- 8.3.2 The Risk of Fragmentation of the Terminal Market 196 -- 8.3.3 The Change in TV Consumer Patterns and the Need for a Flexible Approach 197 -- 8.3.4 Business?]Related Hurdles 198 -- 8.3.5 Societal Requirement: TV Broadcasting as a Public Service Media in Europe 198 -- 8.4 Candidate Network Architectures for a BC?]BB Convergent Solution 199 -- 8.4.1 Solution 1: Cellular Broadcasting in the TV Spectrum 200 -- 8.4.2 Solution 2: Hybrid Network Approach / Using DVB?]T2 FEFs for LTE Transmission 201 -- 8.4.3 Solution 3: Next Generation Common Broadcasting System 201 -- 8.5 The BC?]BB Study: What Needs to Be Done 204 -- 8.5.1 TV and Video Future Consumption Models in Europe 204 -- 8.5.2 BC?]BB Architecture Options 204 -- 8.5.3 Large?]Scale Simulation and Assessment of BC?]BB Convergent Options 204.

8.5.4 Feasibility Study 205 -- 8.6 Conclusion 205 -- References 206 -- 9 Security for 5G Communications 207 -- 9.1 Introduction 207 -- 9.2 Overview of a Potential 5G Communications System Architecture 208 -- 9.3 Security Issues and Challenges in 5G Communications Systems 209 -- 9.3.1 User Equipment 210 -- 9.3.2 Access Networks 212 -- 9.3.3 Mobile Operator's Core Network 216 -- 9.3.4 External IP Networks 217 -- 9.4 Summary 218 -- References 219 -- 10 SON Evolution for 5G Mobile Networks 221 -- 10.1 Introduction 221 -- 10.2 SON in UMTS and LTE 222 -- 10.3 The Need for SON in 5G 231 -- 10.4 Evolution towards Small?]Cell Dominant HetNets 236 -- 10.4.1 Towards a New SON Architecture for 5G 237 -- 10.5 Conclusion 239 -- References 240 -- 11 Green Flexible RF for 5G 241 -- 11.1 Introduction 241 -- 11.2 Radio System Design 242 -- 11.2.1 Antenna Design for 5G 242 -- 11.2.2 Passive Front?]End Design Using SIW for 5G Application 254 -- 11.2.3 RF Power Amplifiers 257 -- 11.3 Nonlinear Crosstalk in MIMO Systems 264 -- 11.4 Summary 269 -- Acknowledgements 269 -- References 270 -- 12 Conclusion and Future Outlook 273 -- 12.1 Design Drivers for Next?]Generation Networks 273 -- 12.2 5G: A Green Inter?]networking Experience 274 -- 12.2.1 Emerging Approaches to Allow Drastic Reduction in the Signalling Overhead 278 -- 12.3 A Vision for 5G Mobile 278 -- 12.3.1 Mobile Small Cells the Way Forward? 279 -- 12.4 Final Remarks 282 -- References 282 -- Index 285.

Restricted to subscribers or individual electronic text purchasers.

Fundamentals of 5G Mobile Networks provides an overview of the key features of the 5th Generation (5G) mobile networks, discussing the motivation for 5G and the main challenges in developing this new technology. This book provides an insight into the key areas of research that will define this new system technology paving the path towards future research and development. The book is multi-disciplinary in nature, and aims to cover a whole host of intertwined subjects that will predominantly influence the 5G landscape, including Future Internet, cloud computing, small cells and self-organizing networks (SONs), cooperative communications, dynamic spectrum management and cognitive radio, Broadcast-Broadband convergence, 5G security challenge, and green RF. The book aims to be the first of its kind towards painting a holistic perspective on 5G Mobile, allowing 5G stakeholders to capture key technology trends on different layering domains and to identify potential inter-disciplinary design aspects that need to be solved in order to deliver a 5G Mobile system that operates seamlessly as a piece of the 5G networking jigsaw. Key features: * Addresses the fundamentals of 5G mobile networks serving as a useful study guide for mobile researchers and system engineers aiming to position their research in this fast evolving arena. * Develops the Small cells story together with next?]generation SON (self-organizing networks) systems as solutions for addressing the unprecedented traffic demand and variations across cells. * Elaborates Mobile Cloud technology and Services for future communication platforms, acting as a source of inspiration for corporations looking for new business models to harness the 5G wave. * Discusses the open issues facing broad?]scale commercial deployment of white space networks, including the potential for applications towards the future 5G standard. * Provides a scientific assessment for broadcast and mobile broadband convergence coupled together with a 'win-win' convergence solution to harmonize the broadcasting and mobile industry. * Describes the key components, trends and challenges, as well as the system requirements for 5G transceivers to support multi?]standard radio, a source of inspiration for RF engineers and vendors to tie down the requirements and potential solutions for next generation handsets.

Also available in print.

Mode of access: World Wide Web

Description based on PDF viewed 10/24/2017.

There are no comments for this item.

Log in to your account to post a comment.