5G and beyond wireless communication networks / Haijian Sun, Rose Qingyang Hu, Yi Qian.

Format:

Book

Author/Creator:

Sun, Haijian, author.

Hu, Rose Qingyang, author.

Qian, Yi, 1962- author.

Contributor:

Wiley InterScience (Online service)

Series:

IEEE Press Series.

IEEE Press Series

Language:

English

Subjects (All):

5G mobile communication systems.

Physical Description:

1 online resource (211 p.).

Other Title:

Fifth generation and beyond wireless communication networks

Place of Publication:

Hoboken, NJ : John Wiley & Sons, Inc., 2024.

Contents:

Cover

Title Page

Copyright

Contents

About the Authors

Preface

Acknowledgments

Chapter 1 Introduction to 5G and Beyond Network

1.1 5G and Beyond System Requirements

1.1.1 Technical Challenges

1.2 Enabling Technologies

1.2.1 5G New Radio

1.2.1.1 Non-orthogonal Multiple Access (NOMA)

1.2.1.2 Channel Codes

1.2.1.3 Massive MIMO

1.2.1.4 Other 5G NR Techniques

1.2.2 Mobile Edge Computing (MEC)

1.2.3 Hybrid and Heterogeneous Communication Architecture for Pervasive IoTs

1.3 Book Outline

Chapter 2 5G Wireless Networks with Underlaid D2D Communications

2.1 Background

2.1.1 MU-MIMO

2.1.2 D2D Communication

2.1.3 MU-MIMO and D2D in 5G

2.2 NOMA-Aided Network with Underlaid D2D

2.3 NOMA with SIC and Problem Formation

2.3.1 NOMA with SIC

2.3.2 Problem Formation

2.4 Precoding and User Grouping Algorithm

2.4.1 Zero-Forcing Beamforming

2.4.1.1 First ZF Precoding

2.4.1.2 Second ZF Precoding

2.4.2 User Grouping and Optimal Power Allocation

2.4.2.1 First ZF Precoding

2.4.2.2 Second ZF Precoding

2.5 Numerical Results

2.6 Summary

Chapter 3 5G NOMA-Enabled Wireless Networks

3.1 Background

3.2 Error Propagation in NOMA

3.3 SIC and Problem Formulation

3.3.1 SIC with Error Propagation

3.3.2 Problem Formation

3.4 Precoding and Power Allocation

3.4.1 Precoding Design

3.4.2 Case Studies for Power Allocation

3.4.2.1 Case I

3.4.2.2 Case II

3.5 Numerical Results

3.6 Summary

Chapter 4 NOMA in Relay and IoT for 5G Wireless Networks

4.1 Outage Probability Study in a NOMA Relay System

4.1.1 Background

4.1.2 System Model

4.1.2.1 NOMA Cooperative Scheme

4.1.2.2 NOMA TDMA Scheme

4.1.3 Outage Probability Analysis

4.1.3.1 Outage Probability in NOMA Cooperative Scheme

4.1.4 Outage Probability in NOMA TDMA Scheme

4.1.5 Outage Probability with Error Propagation in SIC

4.1.5.1 Outage Probability in NOMA Cooperative Scheme with EP

4.1.5.2 Outage Probability in NOMA TDMA Scheme with EP

4.1.6 Numerical Results

4.2 NOMA in a mmWave-Based IoT Wireless System with SWIPT

4.2.1 Introduction

4.2.2 System Model

4.2.2.1 Phase 1 Transmission

4.2.2.2 Phase 2 Transmission

4.2.3 Outage Analysis

4.2.3.1 UE 1 Outage Probability

4.2.3.2 UE 2 Outage Probability

4.2.3.3 Outage at High SNR

4.2.3.4 Diversity Analysis for UE 2

4.2.4 Numerical Results

4.2.5 Summary

Chapter 5 Robust Beamforming in NOMA Cognitive Radio Networks: Bounded CSI

5.1 Background

5.1.1 Related Work and Motivation

5.1.1.1 Linear EH Model

5.1.1.2 Non-linear EH Model

5.1.2 Contributions

5.2 System and Energy Harvesting Models

5.2.1 System Model

5.2.2 Non-linear EH Model

5.2.3 Bounded CSI Error Model

5.2.3.1 NOMA Transmission

5.3 Power Minimization-Based Problem Formulation

5.3.1 Problem Formulation

5.3.2 Matrix Decomposition

Notes:

Description based upon print version of record.

Electronic reproduction. Hoboken, N.J. Available via World Wide Web.

Description based on online resource; title from digital title page (viewed on September 21, 2023).

Other Format:

Print version: Sun, Haijian 5G and Beyond Wireless Communication Networks

ISBN:

9781119089490

1119089492

9781119089506

1119089506

9781119089469

1119089468

Publisher Number:

40032056227

Access Restriction:

Restricted for use by site license.