Rolling Out 5G
Use Cases, Applications, and Technology Solutions
(Sprache: Englisch)
Examine the challenges of 4G in the light of impending and crucial future communication needs, and review the lessons learned from an implementation and system operation perspective with an eye towards the next generation - 5G. You'll investigate key...
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Produktinformationen zu „Rolling Out 5G “
Klappentext zu „Rolling Out 5G “
Examine the challenges of 4G in the light of impending and crucial future communication needs, and review the lessons learned from an implementation and system operation perspective with an eye towards the next generation - 5G. You'll investigate key changes and additions to 5G in terms of use cases. You'll also learn about the applications for and explorations of the technology. Among all of the technological disruptions, two stand out in particular - mmWave and spectrum sharing technologies. Rolling Out 5G features detailed coverage of these two critical topics, and for the first time among 5G learning resources presents a holistic perspective on key ingredients for mobile communication in a 5G world.
The authors represent highly experienced experts with valuable know-how in the field of wireless communications related research projects defining future technological trends. This unique group of talents will be able to consider the 5G technology evolution fromall angles mentioned: long-term research, standardization and regulation, product design and marketization. This approach allows this much-needed book to capture the views of all key decision making stake-holders involved in the 5G definition process, and to serve readers in their roles connected with wireless communication's next generation of products and services.
What You'll Learn
- See how 5G is expected to overcome 4G insufficiencies and challenges
- Examine expected 5G features, including usage of millimeter wave communication and licensed shared access
- Review key milestones of the next generation wireless communication technology including key standardization and regulation bodies
- Study new technologies and upcoming changes in feature sets and client expectations.
Who This Book Is For
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Engineers of mobile device and infrastructure manufacturing industries, development engineers of semiconductor manufacturing industries, and engineers with a general interest in the field. Mobile network operators, along with students and business professionals in the telecommunications domain will also find the topic of interest.
Engineers of mobile device and infrastructure manufacturing industries, development engineers of semiconductor manufacturing industries, and engineers with a general interest in the field. Mobile network operators, along with students and business professionals in the telecommunications domain will also find the topic of interest.
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Inhaltsverzeichnis zu „Rolling Out 5G “
Foreword(Estimated Pages): 2-3
Chapter Goal: This chapter contents are TBD.
Preface
(Estimated Pages)
Chapter Goal: (Estimated Pages: 2-3)
Chapter Goal: The reader should understand whether to read this book on, and if so, how to use it to cover his/her specific needs.
A. What this book is about
B. Who should read this book
C. Further reading and online resources
Chapter 1: Introduction
(Estimated Pages): 8-10
Chapter Goal: Reader should learn where the key limitations of 4G lie and why 5G is a need in 2020. Also, the reader should get an overview on the wireless communication ecosystem and their stakeholders as well as key mile stones of the next generation wireless communication technology including key standardization / regulation bodies and learn about their current status and work plan.
A. Wireless evolution: A retrospective
1. Evolution to 4G
2. Comparison of wireless generations
3. Demand and applications
4. Network coverage and subscriptions
5. Device evolution: handset vs smartphones
6. Social and economic aspects/impacts
B. Motivation for 4G Evolution:
1. Key idea and drivers
2. Problems and challenges
3. Realization(or better productization?) path of 4G
4. 4G today
C. Key 5G enablers
1. 5G Landscape - key drivers and requirements
2. Enabling technologies
3. Vision of 5G network and devices
D. Standardization and regulation bodies and their activities
1. Challenges
2. 3GPP, ETSI, NGMN, WRC
E. Patent challenges
Chapter 2: 4G: Lessons Learned
(Estimated Pages): 20-30
Chapter Goal: Reader should get a detailed overview on 4G insufficiencies/challenges and how they are expected to be overcome in an evolution towards 5G.
A. Implementation challenges
1. Moor’s law
2. Cellular platform
3. HW, FW, CPP, Baseband, RF
4. Network infrastructure
B. Operational challenges
1. QoS
2. User demands
3. Geographical needs
4. Interference
5. Out-of-band emission
6. Cost (CAPEX, OPEX)
7. Energy efficiency (energy
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per bit)
C. Performance Optimization and Productization
1. Product life cycle
2. Aspects impacting end user experience
3. Call drops, throughput, link adaptation, power control, antenna effects, neighbor cell measurements, handover, field vs lab testing (all with examples)
D. Resource limitation (Markus)
1. Spectrum Policy
2. Management of Heterogeneous Radio Framework
E. Limited target applications (Markus)
1. Mobile Phone Applications
2. Connectivity for computing devices
F. Reputation vs technical capabilities
1. Prime brands vs others
2. China eco system
Chapter 3: 4G Evolution to 5G
(Estimated Pages): 20-30
Chapter Goal: Reader should learn what 5G is about, which additional requirements over 4G need to be met and which will be the main drivers that will make 5G a success.
A. Main Drivers:
1. 2020 Olympic Games, etc. for initial deployment of 5G
B. Requirements
1. 4G requirements remaining in 5G
2. New requirements
C. 5G Definition and Use Cases
1. 1000x capacity
2. 5G Use Cases
D. Evolving 4G features to support 5G use cases
1. Massive MIMO
2. Advanced interference mitigation techniques
3. Small cells / HetNet
4. D2D
Chapter 4: Key 5G Features
(Estimated Pages): 15-20
Chapter Goal: Reader should get an overview on key 5G features.
A. Capacity extension (factor 1000x and more)
B. mmWave Technology
C. User Plane / Data Plane split
D. Device-to-Device Communication and Opportunistic Networks
E. Wireless Backhauling
F. Cloud RAN, Network Function Virtualization, Mobile Edge Computing
G. Heterogeneous Multicomm/multi RAT (simultaneous usage of heterogeneous RATs)
H. Automated network reconfiguration (small cells / macro-cells activation/de-activation depending on traffic needs)
I. Energy efficient networks
Chapter 5: LSA /SAS
(Estimated Pages): 20-25
Chapter Goal: Reader should understand the need for a new spectrum usage/allocation paradigm. The current evolution is detailed with specific focus on European LSA and US SAS.
A. Motivation - Spectrum Scarcity and need for new spectrum usage paradigm
B. Introduction to LSA and relevant incumbents
1. System Design
2. Regulation Framework
3. Incumbents protection
4. Challenges and next steps
C. Introduction to SAS and relevant incumbents
1. System Design
2. Regulation Framework
3. Differences to LSA
4. Challenges and next steps
D. Challenges and next steps - LSA/SAS evolution
Chapter 6: Disruptor millimeter wave communication
(Estimated Pages): 20-25
Chapter Goal: Reader should get an overview on the use of millimeter frequency bands as part of the next generation cellular systems spectrum. Since millimeter wave technology is gaining increased momentum in the industry and academia the chapter will provide state-of-the-art insight in a technology which is being considered as an important component in enabling high capacity small cells.
A. Motivation for millimeter wave usage
1. The spectrum crunch
2. The capacity challenge
B. Standardization and regulation status
1. IEEE 802.11ad and 802.11ay
2. 3GPP
3. ETSI ISG mWT
4. CEPT, FCC
5. ITU-R WP5A and WP5D
C. Channel models
1. Urban areas outdoor
2. Indoor
D. Enabling technologies
1. Antennas
2. Radio frequency frontends
3. Base band
4. Protocols
Chapter 7: Conclusion and schedule and key standardization and regulation bodies and their activities
(Estimated Pages): 10-15
Chapter Goal: Wrap-up and next steps
A. 3GPP, ETSI, NGMN, WRC
B. Conclusion and next steps
Appendix:
(Estimated Pages)
Chapter Goal: This content is TBD
C. Performance Optimization and Productization
1. Product life cycle
2. Aspects impacting end user experience
3. Call drops, throughput, link adaptation, power control, antenna effects, neighbor cell measurements, handover, field vs lab testing (all with examples)
D. Resource limitation (Markus)
1. Spectrum Policy
2. Management of Heterogeneous Radio Framework
E. Limited target applications (Markus)
1. Mobile Phone Applications
2. Connectivity for computing devices
F. Reputation vs technical capabilities
1. Prime brands vs others
2. China eco system
Chapter 3: 4G Evolution to 5G
(Estimated Pages): 20-30
Chapter Goal: Reader should learn what 5G is about, which additional requirements over 4G need to be met and which will be the main drivers that will make 5G a success.
A. Main Drivers:
1. 2020 Olympic Games, etc. for initial deployment of 5G
B. Requirements
1. 4G requirements remaining in 5G
2. New requirements
C. 5G Definition and Use Cases
1. 1000x capacity
2. 5G Use Cases
D. Evolving 4G features to support 5G use cases
1. Massive MIMO
2. Advanced interference mitigation techniques
3. Small cells / HetNet
4. D2D
Chapter 4: Key 5G Features
(Estimated Pages): 15-20
Chapter Goal: Reader should get an overview on key 5G features.
A. Capacity extension (factor 1000x and more)
B. mmWave Technology
C. User Plane / Data Plane split
D. Device-to-Device Communication and Opportunistic Networks
E. Wireless Backhauling
F. Cloud RAN, Network Function Virtualization, Mobile Edge Computing
G. Heterogeneous Multicomm/multi RAT (simultaneous usage of heterogeneous RATs)
H. Automated network reconfiguration (small cells / macro-cells activation/de-activation depending on traffic needs)
I. Energy efficient networks
Chapter 5: LSA /SAS
(Estimated Pages): 20-25
Chapter Goal: Reader should understand the need for a new spectrum usage/allocation paradigm. The current evolution is detailed with specific focus on European LSA and US SAS.
A. Motivation - Spectrum Scarcity and need for new spectrum usage paradigm
B. Introduction to LSA and relevant incumbents
1. System Design
2. Regulation Framework
3. Incumbents protection
4. Challenges and next steps
C. Introduction to SAS and relevant incumbents
1. System Design
2. Regulation Framework
3. Differences to LSA
4. Challenges and next steps
D. Challenges and next steps - LSA/SAS evolution
Chapter 6: Disruptor millimeter wave communication
(Estimated Pages): 20-25
Chapter Goal: Reader should get an overview on the use of millimeter frequency bands as part of the next generation cellular systems spectrum. Since millimeter wave technology is gaining increased momentum in the industry and academia the chapter will provide state-of-the-art insight in a technology which is being considered as an important component in enabling high capacity small cells.
A. Motivation for millimeter wave usage
1. The spectrum crunch
2. The capacity challenge
B. Standardization and regulation status
1. IEEE 802.11ad and 802.11ay
2. 3GPP
3. ETSI ISG mWT
4. CEPT, FCC
5. ITU-R WP5A and WP5D
C. Channel models
1. Urban areas outdoor
2. Indoor
D. Enabling technologies
1. Antennas
2. Radio frequency frontends
3. Base band
4. Protocols
Chapter 7: Conclusion and schedule and key standardization and regulation bodies and their activities
(Estimated Pages): 10-15
Chapter Goal: Wrap-up and next steps
A. 3GPP, ETSI, NGMN, WRC
B. Conclusion and next steps
Appendix:
(Estimated Pages)
Chapter Goal: This content is TBD
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Autoren-Porträt von Biljana Badic, Christian Drewes, Ingolf Karls, Markus Mueck
Dr. Biljana Badic works at Intel in Munich, Germany with the focus on development, architecture evolution and performance optimization of Intel cellular modems. She has been also actively involved in Intel research activities on 4G and 5G systems. Biljana joined Intel in 2010. Prior to joining Intel in 2010, Biljana was a Senior Reseacher at School of Engineering, Swansea University, UK where she worked on design of energy efficient radio access architecture for WWAN and from 2002 to 2006 Biljana was employed as Research and Teaching Assistant at the Institute for Communications and Radio-Frequency Engineering, Vienna University of Technology, Austria where she worked on research of multiple systems and space-time codes. Biljaan received her Dipl.-Ing. Degree in electrical engineering and information technology from the Graz University of Technology, Austria in 1996 and Dr. -Tech. degree from the Vienna University of Technology, Austria. She has published over 50 scientific articles and filed over 20 4G patents. Dr. Christian Drewes works at Intel in Munich, Germany, on system architecture and innovation across the cellular product portfolio. A special focus is on end-user oriented aspects like data throughput and power consumption. Within those activities, Christian and his team contribute to cellular platform productization, grounding knowledge with field experience, and guiding future platform architectures including future 5G cellular platforms. In addition, Christian is teaching as a guest lecturer at the Technische Universität München. Christian grew up in the Munich area and received Dipl.-Ing. and Dr.-Ing. degrees in electrical engineering and information technology from the Technische Universität München, Germany. He started his industry career at Infineon Technologies in 2000, and joined Intel with the acquisition of Infineon's Wireless Group in 2011.
Dr. Ingolf Karls works at Intel Deutschland GmbH in the Communication and Devices
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Group. He got his Master and PhD degree at Technical University Chemnitz. After that he contributed to 2nd, 3rd and 4th generation of mobile communication systems at Siemens AG, Infineon Technologies AG and Intel. He fostered partnerships between wireless ecosystem stakeholders as active member of national and international regulation and standardization bodies like 3GPP, BITKOM, DLNA, ETSI, IEEE, ITU and OMA. He consulted Germany's BMBF, BMWi and European Commission regarding wireless communication technologies. He works currently on 5th generation mobile communication millimeter wave topics like spectrum regulation, channel models, access and front and backhaul techniques as part of next generation network and is program manager for 3GPP standardisation at Intel.
Dr. Markus Mueck oversees Intel's technology development, standardization and partnerships in the field of spectrum sharing. In this capacity, he has contributed to standardization and regulatory efforts on various topics including spectrum sharing within numerous industry standards bodies, including ETSI, 3GPP, IEEE, the Wireless Innovation Forum and CEPT. Dr. Mueck is an adjunct professor of engineering at Macquarie University, Sydney, Australia, he acts as ETSI Board Member supported by INTEL and as general Chairman of ETSI RRS Technical Body (Software Radio and Cognitive Radio Standardization). He has earned engineering degrees from the University of Stuttgart, Germany and the Ecole Nationale Supérieure des Télécommunications (ENST) in Paris, France, as well as a doctorate degree of ENST in Communications. From 1999 to 2008, Dr. Mueck was Senior Staff member and Technical Manager at Motorola Labs, Paris, France. In this role, he contributed actively to various standardization bodies, namely Digital Radio Mondiale, IEEE 802.11n, etc. and lead the creation of the novel standardization group IEEE P1900.4 in the area of Cognitive Radio
Dr. Markus Mueck oversees Intel's technology development, standardization and partnerships in the field of spectrum sharing. In this capacity, he has contributed to standardization and regulatory efforts on various topics including spectrum sharing within numerous industry standards bodies, including ETSI, 3GPP, IEEE, the Wireless Innovation Forum and CEPT. Dr. Mueck is an adjunct professor of engineering at Macquarie University, Sydney, Australia, he acts as ETSI Board Member supported by INTEL and as general Chairman of ETSI RRS Technical Body (Software Radio and Cognitive Radio Standardization). He has earned engineering degrees from the University of Stuttgart, Germany and the Ecole Nationale Supérieure des Télécommunications (ENST) in Paris, France, as well as a doctorate degree of ENST in Communications. From 1999 to 2008, Dr. Mueck was Senior Staff member and Technical Manager at Motorola Labs, Paris, France. In this role, he contributed actively to various standardization bodies, namely Digital Radio Mondiale, IEEE 802.11n, etc. and lead the creation of the novel standardization group IEEE P1900.4 in the area of Cognitive Radio
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Bibliographische Angaben
- Autoren: Biljana Badic , Christian Drewes , Ingolf Karls , Markus Mueck
- 2016, 1st ed., XVII, 136 Seiten, 89 farbige Abbildungen, Masse: 15,5 x 23,5 cm, Kartoniert (TB), Englisch
- Verlag: Springer, Berlin
- ISBN-10: 1484215079
- ISBN-13: 9781484215074
- Erscheinungsdatum: 03.06.2016
Sprache:
Englisch
Pressezitat
"This book discusses both sides of 5G: what we don't know yet and what we do know has to be done. ... Much of this book may be worthwhile both to those with little experience in the area as well as experts." (Computing Reviews, November, 2017)Kommentar zu "Rolling Out 5G"
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