5G System Design: Architectural and Functional Considerations and Long Term Research

This book provides a comprehensive overview of the latest research and standardization progress towards the 5th generation (5G) of mobile communications technology and beyond. It covers a wide range of topics from 5G use cases and their requirements, to spectrum, 5G end–to–end (E2E) system architecture including core network (CN), transport network (TN) and radio access network (RAN) architecture, network slicing, security and network management. It further dives into the detailed functional design and the evaluation of different 5G concepts, and provides details on planned trials and pre–commercial deployments across the globe. While the book naturally captures the latest agreements in 3 rd Generation Partnership Project (3GPP) New Radio (NR) Release 15, it goes significantly beyond this by describing the likely developments towards the final 5G system that will ultimately utilize a wide range of spectrum bands, address all envisioned 5G use cases, and meet or exceed the International Mobile Telecommunications (IMT) requirements for the year 2020 and beyond (IMT–2020). 5G System Design: Architectural and Functional Considerations and Long Term Research is based on the knowledge and consensus from 158 leading researchers and standardization experts from 54 companies or institutes around the globe, representing key mobile network operators, network vendors, academic institutions and regional bodies for 5G. Different from earlier books on 5G, it does not focus on single 5G technology components, but describes the full 5G system design from E2E architecture to detailed functional design, including details on 5G performance, implementation and roll–out.             INDICE: Contributor List xvii .Foreword 1 xxiii .Foreword 2 xxv .Acknowledgments xxvii .List of Abbreviations xxix .Part 1 Introduction and Basics 1 .1 Introduction and Motivation 3Patrick Marsch, Ömer Bulakc , Olav Queseth and Mauro Boldi .1.1 5th Generation Mobile and Wireless Communications 3 .1.2 Timing of this Book and Global 5G Developments 5 .1.3 Scope of the 5G System Described in this Book 8 .1.4 Approach and Structure of this Book 10 .References 12 .2 Use Cases, Scenarios, and their Impact on the Mobile Network Ecosystem 15Salah Eddine Elayoubi, Micha Maternia, Jose F. Monserrat, Frederic Pujol, Panagiotis Spapis, Valerio Frascolla and Davide Sorbara .2.1 Introduction 15 .2.2 Main Service Types Considered for 5G 16 .2.3 5G Service Requirements 17 .2.4 Use Cases Considered in NGMN and 5G PPP Projects 18 .2.5 Typical Use Cases Considered in this Book 25 .2.6 Envisioned Mobile Network Ecosystem Evolution 28 .2.7 Summary and Outlook 33 .References 34 .3 Spectrum Usage and Management 35Thomas Rosowski, Rauno Ruismaki, Luis M. Campoy, Giovanna D Aria, Du Ho Kang and Adrian Kliks .3.1 Introduction 35 .3.2 Spectrum Authorization and Usage Scenarios 36 .3.3 Spectrum Bandwidth Demand Determination 39 .3.4 Frequency Bands for 5G 41 .3.5 Spectrum Usage Aspects at High Frequencies 44 .3.6 Spectrum Management 49 .3.7 Summary and Outlook 53 .References 54 .4 Channel Modeling 57Shangbin Wu, Sinh L. H. Nguyen and Raffaele D Errico .4.1 Introduction 57 .4.2 Core Features of New Channel Models 59 .4.3 Additional Features of New Channel Models 65 .4.4 Summary and Outlook 74 .References 75 .Part 2 5G System Architecture and E2E Enablers 79 .5 E2E Architecture 81Marco Gramaglia, Alexandros Kaloxylos, Panagiotis Spapis, Xavier Costa, Luis Miguel Contreras, Riccardo Trivisonno, Gerd Zimmermann, Antonio de la Oliva, Peter Rost and Patrick Marsch .5.1 Introduction 81 .5.2 Enablers and Design Principles 82 .5.3 E2E Architecture Overview 88 .5.4 Novel Concepts and Architectural Extensions 97 .5.5 Internetworking, Migration and Network Evolution 104 .5.6 Summary and Outlook 112 .References 112 .6 RAN Architecture 115Patrick Marsch, Navid Nikaein, Mark Doll, Tao Chen and Emmanouil Pateromichelakis .6.1 Introduction 115 .6.2 Related Work 116 .6.3 RAN Architecture Requirements 118 .6.4 Protocol Stack Architecture and Network Functions 119 .6.5 Multi Connectivity 129 .6.6 RAN Function Splits and Resulting Logical Network Entities 133 .6.7 Deployment Scenarios and Related Physical RAN Architectures 141 .6.8 RAN Programmability and Control 144 .6.9 Summary and Outlook 147 .References 148 .7 Transport Network Architecture 151Anna Tzanakaki, Markos Anastasopoulos, Nathan Gomes, Philippos Assimakopoulos, Josep M. Fàbrega, Michela Svaluto Moreolo, Laia Nadal, Jesús Gutiérrez, Vladica Sark, Eckhard Grass, Daniel Camps Mur, Antonio de la Oliva, Nuria Molner, Xavier Costa Perez, Josep Mangues, Ali Yaver, Paris Flegkas, Nikos Makris, Thanasis Korakis and Dimitra Simeonidou .7.1 Introduction 151 .7.2 Architecture Definition 153 .7.3 Technology Options and Protocols 158 .7.4 Self Backhauling 165 .7.5 Technology Integration and Interfacing 168 .7.6 Transport Network Optimization and Performance Evaluation 170 .7.7 Summary 178 .References 178 .8 Network Slicing 181Alexandros Kaloxylos, Christian Mannweiler, Gerd Zimmermann, Marco Di Girolamo, Patrick Marsch, Jakob Belschner, Anna Tzanakaki, Riccardo Trivisonno, Ömer Bulakç , Panagiotis Spapis, Peter Rost, Paul Arnold and Navid Nikaein .8.1 Introduction 181 .8.2 Slice Realization in the Different Network Domains 183 .8.3 Operational Aspects 196 .8.4 Summary and Outlook 202 .References 204 .9 Security 207Carolina Canales Valenzuela, Madalina Baltatu, Luciana Costa, Kai Habel, Volker Jungnickel, Geza Koczian, Felix Ngobigha, Michael C. Parker, Muhammad Shuaib Siddiqui, Eleni Trouva and Stuart D. Walker .9.1 Introduction 207 .9.2 Threat Landscape 208 .9.3 5G Security Requirements 209 .9.4 5G Security Architecture 211 .9.5 Summary 224 .References 224 .10 Network Management and Orchestration 227Luis M. Contreras, Víctor López, Ricard Vilalta, Ramon Casellas, Raúl Muñoz, Wei Jiang, Hans Schotten, Jose Alcaraz Calero, Qi Wang, Balázs Sonkoly and László Toka .10.1 Introduction 227 .10.2 Network Management and Orchestration Through SDN and NFV 228 .10.3 Enablers of Management and Orchestration 233 .10.4 Orchestration in Multi Domain and Multi Technology Scenarios 238 .10.5 Software Defined Networking for 5G 245 .10.6 Network Function Virtualization in 5G Environments 251 .10.7 Autonomic Network Management in 5G 252 .10.8 Summary 258 .References 259 .Part 3 5G Functional Design 263 .11 Antenna, PHY and MAC Design 265Frank Schaich, Catherine Douillard, Charbel Abdel Nour, Malte Schellmann, Tommy Svensson, Hao Lin, Honglei Miao, Hua Wang, Jian Luo, Milos Tesanovic, Nuno Pratas, Sandra Roger and Thorsten Wild .11.1 Introduction 265 .11.2 PHY and MAC Design Criteria and Harmonization 267 .11.3 Waveform Design 269 .11.4 Coding Approaches and HARQ 283 .11.5 Antenna Design, Analog, Digital and Hybrid Beamforming 293 .11.6 PHY/MAC Design for Multi Service Support 300 .11.7 Summary and Outlook 310 .References 311 .12 Traffic Steering and Resource Management 315Ömer Bulakç , Klaus Pedersen, David Gutierrez Estevez, Athul Prasad, Fernando Sanchez Moya, Jan Christoffersson, Yang Yang, Emmanouil Pateromichelakis, Paul Arnold, Tommy Svensson, Tao Chen, Honglei Miao, Martin Kurras, Samer Bazzi, Stavroula Vassaki, Evangelos Kosmatos, Kwang Taik Kim, Giorgio Calochira, Jakob Belschner, Sergio Barberis and Taylan ahin .12.1 Motivation and Role of Resource Management in 5G 315 .12.2 Service Classification: A First Step Towards Efficient RM 317 .12.3 Dynamic Multi Service Scheduling 321 .12.4 Fast Timescale Dynamic Traffic Steering 328 .12.5 Network based Interference Management 335 .12.6 Multi Slice RM 350 .12.7 Energy efficient RAN Moderation 354 .12.8 UE Context Management 359 .12.9 Summary and Outlook 360 .References 361 .13 Initial Access, RRC and Mobility 367Mårten Ericson, Panagiotis Spapis, Mikko Säily, Klaus Pedersen, Yinan Qi, Nicolas Barati, Tommy Svensson, Mehrdad Shariat, Marco Giordani, Marco Mezzavilla, Mark Doll, Honglei Miao and Chan Zhou .13.1 Introduction 367 .13.2 Initial Access 369 .13.3 States and State Handling 381 .13.4 Mobility 391 .13.5 Summary and Outlook 404 .References 404 .14 D2D and V2X Communications 409Shubhranshu Singh, Ji Lianghai, Daniel Calabuig, David Garcia Roger, Nurul H. Mahmood, Nuno Pratas, Tomasz Mach and Maria Carmela De Gennaro .14.1 Introduction 409 .14.2 Technical Status and Standardization Overview 412 .14.3 5G Air Interface Candidate Waveforms for Sidelink Support 418 .14.4 Device Discovery on the Sidelink 424 .14.5 Sidelink Mobility Management 427 .14.6 V2X Communications for Road Safety Applications 430 .14.7 Industrial Implementation of V2X in the Automotive Domain 434 .14.8 Further Evolution of D2D Communications 438 .14.9 Summary and Outlook 445 .References 446 .Part 4 Performance Evaluation and Implementation 451 .15 Performance, Energy Efficiency and Techno Economic Assessment 453Micha Maternia, Jose F. Monserrat, David Martín Sacristán, Yong Wu, Changqing Yang, Mauro Boldi, Yu Bao, Frederic Pujol, Giuseppe Piro, Gennaro Boggia, Alessandro Grassi, Hans Otto Scheck, Ioannis Prodromos Belikaidis, Andreas Georgakopoulos, Katerina Demesticha and Panagiotis Demestichas .15.1 Introduction 453 .15.2 Performance Evaluation Framework 454 .15.3 Network Energy Efficiency 467 .15.4 Techno Economic Evaluation and Analysis of 5G Deployment 473 .15.5 Summary 478 .References 479 .16 Implementation of Hardware and Software Platforms 483Chia Yu Chang, Dario Sabella, David García Roger, Dieter Ferling, Fredrik Tillman, Gian Michele Dell Aera, Leonardo Gomes Baltar, Michael Färber, Miquel Payaró, Navid Nikaein, Pablo Serrano,Raymond Knopp, Sandra Roger, Sylvie Mayrargue and Tapio Rautio .16.1 Introduction 483 .16.2 Solutions for Radio Frontend Implementation 484 .16.3 Solutions for Digital HW Implementation 492 .16.4 Flexible HW/SW Partitioning Solutions for 5G 502 .16.5 Implementation of SW Platforms 504 .16.6 Implementation Example: vRAN/C RAN Architecture in OAI 506 .16.7 Summary 516 .References 517 .17 Standardization, Trials, and Early Commercialization 521Terje Tjelta, Olav Queseth, Didier Bourse, Yves Bellego, Raffaele de Peppe, Hisham Elshaer, Frederic Pujol, Chris Pearson, Chen Xiaobei, Takehiro Nakamura, Akira Matsunaga, Hitoshi Yoshino, Yukihiko Okumura, Dong Ku Kim, Jinhyo Park and Hong Beom Jeon .17.1 Introduction 521 .17.2 Standardization Roadmap 522 .17.3 Early Deployments 526 .17.4 Summary 547 .References 547 .Index 551

• ISBN: 978-1-119-42512-0
• Editorial: Wiley–Blackwell
• Encuadernacion: Cartoné
• Páginas: 608
• Fecha Publicación: 04/05/2018
• Nº Volúmenes: 1
• Idioma: Inglés