5G Physical Layer
Principles, Models and Technology Components

Authors:

Language: English

97.13 €

In Print (Delivery period: 14 days).

Add to cartAdd to cart
Publication date:
322 p. · 19x23.3 cm · Paperback

5G Physical Layer: Principles, Models and Technology Components explains fundamental physical layer design principles, models and components for the 5G new radio access technology ? 5G New Radio (NR). The physical layer models include radio wave propagation and hardware impairments for the full range of frequencies considered for the 5G NR (up to 100 GHz). The physical layer technologies include flexible multi-carrier waveforms, advanced multi-antenna solutions, and channel coding schemes for a wide range of services, deployments, and frequencies envisioned for 5G and beyond. A MATLAB-based link level simulator is included to explore various design options.

5G Physical Layer is very suitable for wireless system designers and researchers: basic understanding of communication theory and signal processing is assumed, but familiarity with 4G and 5G standards is not required.

With this book the reader will learn:

  • The fundamentals of the 5G NR physical layer (waveform, modulation, numerology, channel codes, and multi-antenna schemes).

  • Why certain PHY technologies have been adopted for the 5G NR.

  • The fundamental physical limitations imposed by radio wave propagation and hardware impairments.

  • How the fundamental 5G NR physical layer functionalities (e.g., parameters/methods/schemes) should be realized.

The content includes:

  • A global view of 5G development ? concept, standardization, spectrum allocation, use cases and requirements, trials, and future commercial deployments.

  • The fundamentals behind the 5G NR physical layer specification in 3GPP.

  • Radio wave propagation and channel modeling for 5G and beyond.

  • Modeling of hardware impairments for future base stations and devices.

  • Flexible multi-carrier waveforms, multi-antenna solutions, and channel coding schemes for 5G and beyond.

  • A simulator including hardware impairments, radio propagation, and various waveforms.

Ali Zaidi is a strategic product manager at Ericsson, Sweden. Fredrik Athley is a senior researcher at Ericsson, Sweden. Jonas Medbo and Ulf Gustavsson are senior specialists at Ericsson, Sweden. Xiaoming Chen is a professor at Xi?an Jiaotong University, China. Giuseppe Durisi is a professor at Chalmers University of Technology, Sweden, and a guest researcher at Ericsson, Sweden.

1. 5G Radio Access 2. NR Physical Layer: Overview 3. Propagation & Channel Modeling 4. Hardware Impairment Modeling 5. Multicarrier Waveforms 6. NR Waveform 7. Multi-antenna Techniques 8. Channel Coding 9. Simulator

Ali Zaidi received MSc and PhD degrees in Telecommunications from KTH Royal Institute of Technology, Sweden, in 2008 and 2013, respectively. He joined Ericsson in 2014, where he is currently a Strategic Product Manager for Internet-of-Things and Mobile Broadband. He has been working with concept development and standardization of radio access technologies (NR and LTE-Advanced Pro) within 3GPP and 5G-PPP. His research focuses on physical layer design for mmWave Communications, Indoor Positioning, Device-to-Device Communications, and Systems for Intelligent Transportation and Networked Control. His technical contributions include 50+ peer-reviewed publications, 15+ filed patents, 2 book chapters, and several 3GPP papers. Zaidi has been serving as a member of Technology Intelligence Group Radio and a member of Young Advisory Board at Ericsson Research. His past affiliations include being Post-doctoral Fellow in the Department of Automatic Control at Chalmers University, Sweden; Visiting Researcher in the Department of Mathematics at Queens University Canada; Intern at ABB Corporate Research, Sweden; and Trainee at Catena Radio Design, the Netherlands.
Fredrik Athley received the M.Sc. and Ph.D. in Electrical Engineering from Chalmers University of Technology, Göteborg, Sweden, in 1993 and 2003, respectively. In 1993 he received the International Diploma of Imperial College, London, UK. Since 1993 he has been working at Ericsson with system-level analysis and design of radar and wireless communication systems and since 2005 he is a Senior Researcher at Ericsson Research. He is currently working with standardization of multi-antenna techniques in the new radio (NR) access technology for 5G.
Jonas Medbo is currently a senior specialist in applied propagation at Ericsson Research, Sweden. He received his Ph.D. degree in particle physics from Uppsala University, Sweden, in 1997. Since 1997 he has been with Ericsson Research focusing on propagation research. He has co

With this book the reader will learn:

  • The fundamentals of the 5G NR physical layer (waveform, modulation, numerology, channel codes, and multi-antenna schemes)
  • Why certain PHY technologies have been adopted for the 5G NR
  • The fundamental physical limitations imposed by radio wave propagation and hardware impairments
  • How the fundamental 5G NR physical layer functionalities (e.g., parameters/methods/schemes) should be realized

The content includes:

  • A global view of 5G development – concept, standardization, spectrum allocation, use cases and requirements, trials, and future commercial deployments
  • The fundamentals behind the 5G NR physical layer specification in 3GPP
  • Radio wave propagation and channel modeling for 5G and beyond
  • Modeling of hardware impairments for future base stations and devices
  • Flexible multi-carrier waveforms, multi-antenna solutions, and channel coding schemes for 5G and beyond
  • A simulator including hardware impairments, radio propagation, and various waveforms