Towards 5G : applications, requirements & candidate technologies / edited by Rath Vannithamby and Shilpa Talwar.
Contributor(s): Vannithamby, Rath [editor.] | Talwar, Shilpa [editor.] | IEEE Xplore (Online Service) [distributor.] | Wiley [publisher.].
Material type: BookPublisher: Chichester, West Sussex, United Kingdom : John Wiley & Sons Inc., 2017Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2016]Description: 1 PDF (472 pages).Content type: text Media type: electronic Carrier type: online resourceISBN: 9781118979846.Subject(s): Mobile communication systems -- ResearchGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 621.3845/6 Online resources: Abstract with links to resource Also available in print.Includes bibliographical references and index.
-- List of Contributors xv -- List of Acronyms xix -- About the Companion Website xxxi -- Part I Overview of 5G 1 -- 1 Introduction 3 / Shilpa Talwar and Rath Vannithamby -- 1.1 Evolution of Cellular Systems through the Generations 3 -- 1.2 Moving Towards 5G 4 -- 1.3 5G Networks and Devices 5 -- 1.4 Outline of the Book 7 -- References 8 -- 2 5G Requirements 9 / Anass Benjebbour, Yoshihisa Kishiyama, and Takehiro Nakamura -- 2.1 Introduction 9 -- 2.2 Emerging Trends in Mobile Applications and Services 10 -- 2.3 General Requirements 15 -- References 21 -- 3 Collaborative 5G Research within the EU Framework of Funded Research 23 / Michael Faerber -- 3.1 Rationale for 5G Research and the EU's Motivation 23 -- 3.2 EU Research 25 -- References 33 -- 4 5G: Transforming the User Wireless Experience 34 / David Ott, Nageen Himayat, and Shilpa Talwar -- 4.1 Introduction 34 -- 4.2 Intel's Vision of 5G Technologies 34 -- 4.3 Intel Strategic Research Alliance on 5G 40 -- 4.4 ISRA 5G Technical Objectives and Goals 40 -- 4.5 ISRA 5G Project Summaries 42 -- References 50 -- Part II Candidate Technologies / Evolutionary 53 -- 5 Towards Green and Soft 55 / Chih‐Lin I and Shuangfeng Han -- 5.1 Chapter Overview 55 -- 5.2 Efforts on Green and Soft 5G Networks 56 -- 5.3 Rethink Shannon: EE and SE Co‐design for a Green Network 57 -- 5.4 (3z(BNo More Cell(3y(B for a Green and Soft Network 67 -- 5.5 Summary 75 -- Acknowledgments 76 -- References 76 -- 6 Proactive Caching in 5G Small Cell Networks 78 / Ejder Badstu�g, Mehdi Bennis, and M�erouane Debbah -- 6.1 Small Cell Networks: Past, Present and Future Trends 78 -- 6.2 Cache‐enabled Proactive Small Cell Networks 80 -- 6.3 System Model 81 -- 6.4 Proactive Caching at Base Stations 82 -- 6.5 Proactive Caching at User Terminals 85 -- 6.6 Related Work and Research Directions 90 -- 6.7 Conclusions 95 -- Acknowledgments 95 -- References 95 -- 7 Modeling Multi‐Radio Coordination and Integration in Converged Heterogeneous Networks 99 / Olga Galinina, Sergey Andreev, Alexander Pyattaev, Mikhail Gerasimenko, Yevgeni Koucheryavy, Nageen Himayat, Kerstin Johnsson, and Shu‐ping Yeh.
7.1 Enabling Technologies for Multi‐Radio Heterogeneous Networks 99 -- 7.2 Comprehensive Methodology for Space‐Time Network Analysis 105 -- 7.3 Analysis of Random Dynamic HetNets 114 -- 7.4 Quantifying Performance with System‐level Evaluations 121 -- 7.5 Summary and Conclusions 126 -- Acknowledgments 126 -- References 126 -- 8 Distributed Resource Allocation in 5G Cellular Networks 129 / Monowar Hasan and Ekram Hossain -- 8.1 Introduction 129 -- 8.2 Multi‐tier 5G Cellular: Overview and Challenges 132 -- 8.3 System Model 135 -- 8.4 Resource Allocation using Stable Matching 139 -- 8.5 Message‐passing Approach for Resource Allocation 143 -- 8.6 Auction‐based Resource Allocation 151 -- 8.7 Qualitative Comparison of the Resource Allocation Schemes 157 -- 8.8 Summary and Conclusion 157 -- References 159 -- Additional Reading 160 -- 9 Device‐to‐Device Communications 162 -- Andreas F. Molisch, Mingyue Ji, Joongheon Kim, Daoud Burghal, and Arash Saber Tehrani -- 9.1 Introduction and Motivation 162 -- 9.2 Propagation Channels 163 -- 9.3 Neighbor Discovery and Channel Estimation 166 -- 9.4 Mode Selection and Resource Allocation 170 -- 9.5 Scheduling 175 -- 9.6 Multi‐hop D2D 180 -- 9.7 Standardization 183 -- 9.8 Applications 184 -- 9.9 D2D for Video 186 -- 9.10 Conclusions 191 -- Acknowledgments 191 -- References 191 -- 10 Energy‐efficient Wireless OFDMA Networks 199 -- Cong Xiong and Geoffrey Ye Li -- 10.1 Overview 199 -- 10.2 Energy Efficiency and Energy‐efficient Wireless Networks 200 -- 10.3 Energy Efficiency and Spectral Efficiency Tradeoff in OFDMA 201 -- 10.4 Energy Efficiency, Power, and Delay Tradeoff in OFDMA 208 -- 10.5 Energy‐efficient Resource Allocation for Downlink OFDMA 212 -- 10.6 Energy‐efficient Resource Allocation for Uplink OFDMA 217 -- 10.7 Concluding Remarks 219 -- References 220 -- 11 Advanced Multiple‐access and MIMO Techniques 222 -- NOMA sections / Anass Benjebbour, Anxin Li, Kazuaki Takeda, Yoshihisa Kishiyama, and Takehiro Nakamura / SV‐MIMO sections / Yuki Inoue, Yoshihisa Kishiyama, and Takehiro Nakamura.
11.1 Introduction 222 -- 11.2 Non‐orthogonal Multiple Access 225 -- 11.3 Smart Vertical MIMO 238 -- 11.4 Conclusion 247 -- References 248 -- 12 M2M Communications 250 / Rapeepat Ratasuk, Amitava Ghosh, and Benny Vejlgaard -- 12.1 Chapter Overview 250 -- 12.2 M2M Communications 250 -- 12.3 LTE Evolution for M2M 253 -- 12.4 5G for M2M Communications 270 -- 12.5 Conclusion 273 -- References 274 -- 13 Low‐latency Radio‐interface Perspectives for Small‐cell 5G Networks 275 / Toni Levanen, Juho Pirskanen, and Mikko Valkama -- 13.1 Introduction to Low‐latency Radio‐interface Design 275 -- 13.2 Small‐cell Channel Environment Considerations and Expected Traffic 277 -- 13.3 New Radio‐interface Design for Low‐latency 5G Wireless Access 283 -- 13.4 Extending the 5GETLA Reference Design to Millimeter‐Wave Communications 296 -- 13.5 Conclusions and Open Research Topics 299 -- Part III Candidate Technologies / Revolutionary 303 -- 14 New Physical‐layer Waveforms for 5G 305 / Gerhard Wunder, Martin Kasparick, Peter Jung, Thorsten Wild, Frank Schaich, Yejian Chen, Gerhard Fettweis, Ivan Gaspar, Nicola Michailow, Maximilian Matth�e, Luciano Mendes, Dimitri Kt�enas, Jean‐Baptiste Dor�e, Vincent Berg, Nicolas Cassiau, Slawomir Pietrzyk, and Mateusz Buczkowski -- 14.1 Why OFDM Fails 305 -- 14.2 Unified Frame Structure 308 -- 14.3 Waveform Candidates and Multiple‐access Approaches 310 -- 14.4 One‐shot Random Access 328 -- 14.5 Conclusions 339 -- References 339 -- 15 Massive MIMO Communications 342 / Frederick W. Vook, Amitava Ghosh, and Timothy A. Thomas -- 15.1 Introduction 342 -- 15.2 Overview of Multi‐Antenna Techniques in LTE 343 -- 15.3 Moving to 5G Cellular with Large‐scale Antenna Arrays 345 -- 15.4 Antenna‐array Architectures for 5G Cellular 348 -- 15.5 Massive MIMO for Evolved LTE Systems (Below 6 GHz) 349 -- 15.6 Massive MIMO for cmWave and mmWave Systems (Above 6 GHz) 358 -- 15.7 Conclusion 362 -- References 363 -- 16 Full‐duplex Radios 365 / Dinesh Bharadia and Sachin Katti -- 16.1 The Problem 367.
16.2 Our Design 372 -- 16.3 Implementation 381 -- 16.4 Evaluation 383 -- 16.5 Discussion and Conclusion 393 -- References 393 -- 17 Point to Multi‐point, In‐band mmWave Backhaul for 5G Networks 395 / Rakesh Taori and Arun Sridharan -- 17.1 Introduction 395 -- 17.2 Feasibility of In‐band Backhaul 397 -- 17.3 Deployment Assumptions 400 -- 17.4 In‐band Backhaul Design Considerations 402 -- 17.5 TDM‐based Scheduling Scheme for In‐band Backhauling 403 -- 17.6 Concluding Remarks 407 -- Acknowledgments 407 -- References 407 -- 18 Application of NFV and SDN to 5G Infrastructure 408 / Ashok Sunder Rajan and Kannan Babu Ramia -- 18.1 Chapter Overview 408 -- 18.2 Background 408 -- 18.3 NFV and SDN 409 -- 18.4 Network Planning and Engineering 410 -- 18.5 Cellular Wireless Network Infrastructure 414 -- 18.6 Network Workloads and Capacity Factors 417 -- 18.7 Conclusion 419 -- References 420 -- Index 421.
Restricted to subscribers or individual electronic text purchasers.
This book brings together a group of visionaries and technical experts from academia to industry to discuss the applications and technologies that will comprise the next set of cellular advancements (5G). In particular, the authors explore usages for future 5G communications, key metrics for these usages with their target requirements, and network architectures and enabling technologies to meet 5G requirements. The objective is to provide a comprehensive guide on the emerging trends in mobile applications, and the challenges of supporting such applications with 4G technologies.
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.