Deployments of fifth generation (5G) mobile network technologies are taking off globally, with more than one billion connections reached by the end of 2022. This deployment includes 5G trials, licensing, and network deployments. Interest among governments in understanding the implications of this technology is rising as the numbers of base stations, use cases, and 5G subscribers continue to grow. This book provides an overview of the technical capabilities of 5G, discusses how they may impact the information and communication technology (ICT) industry, and explores how 5G can support the Fourth Industrial Revolution (Industry 4.0) and help countries make progress toward the United Nations Sustainable Development Goals (SDGs). The book also guides policy makers to better understand the opportunities, challenges, and risks posed by 5G, as well as steps that can be taken to establish an enabling ecosystem for 5G deployment and adoption.
Authors
- DOI
- https://dx.doi.org/10.1596/978-1-4648-1604-8
- Disclosure Date
- 2024/06/14
- Disclosure Status
- Disclosed
- Doc Name
- The Path to 5G in the Developing World : Planning Ahead for a Smooth Transition
- ISBN
- 978-1-4648-1604-8; 978-1-4648-2051-9
- Product Line
- Advisory Services & Analytics
- Published in
- United States of America
- Rel Proj ID
- 1W-The Path To 5g In The Developing World: Planning Ahead For A Sm -- P171629
- Sector
- ICT Infrastructure
- Series Name
- Sustainable Infrastructure Series;
- TF No/Name
- TF0B1083-5G activity - GFR 1
- Theme
- Business Enabling Environment,ICT Policies,Job Creation,ICT,ICT Solutions,Private Sector Development,Innovation and Technology Policy,Jobs
- Unit Owning
- Brdband,Cybersec.&Digital4Climat (IDD09)
- Version Type
- Final
- Volume No
- 1
Table of Contents
- Front Cover 1
- Contents 9
- Foreword 13
- Acknowledgments 15
- Executive Summary 17
- Abbreviations 25
- Chapter 1 Overview of 5G Technology: Capabilities and Global Adoption Trends 29
- Key Messages 29
- Introduction 30
- 5G Design Principles, Capabilities, and Enabling Technologies 32
- Costs and Investment Challenges 44
- Global 5G Deployment and Adoption Status 45
- 5G and Implications for the Digital Divide 48
- Notes 49
- Bibliography 50
- Chapter 2 5G-Enabled Economic Growth and Potential Applications for Smart Cities, Energy, Transport, and Agriculture 59
- Key Messages 59
- Benefits and Potential Impact of 5G Adoption 60
- 5G and Industry 4.0 62
- 5G and the SDGs 62
- 5G Use Cases in Four Industry Verticals 63
- Conclusion 71
- Bibliography 72
- Chapter 3 Managing the Risks of 5G Networks 79
- Key Messages 79
- Introduction 80
- Cybersecurity Risks 80
- Sustainability Risks: 5G’s Carbon Footprint and Impact on E-Waste 0
- Health Risks 94
- Notes 98
- Bibliography 100
- Chapter 4 Regulatory Imperatives, Policy Challenges, and Recommendations for Action 105
- Key Messages 105
- Introduction 105
- Spectrum Management 107
- Regulatory Frameworks 115
- Institutional Governance and Capacity Building 121
- Conclusion 123
- Notes 124
- Bibliography 126
- Appendixes 135
- Appendix A Selected International Standards for Assessing and Limiting Human Exposure to Radio Frequency Emissions 137
- Appendix B Selection of National Strategies Designed to Facilitate 5G-Enabling Environments 139
- Boxes 37
- Box 1.1 5G frequency ranges, spectrum bands, and usage scenarios 37
- Box 1.2 Will 5G fixed wireless access advance or remain as asupplementary option in broadband markets? 46
- Box 4.1 Facilitating 5G deployment through infrastructure sharing in India 116
- Box 4.2 A roadmap for the path to 5G in developing countries 123
- Figures 40
- Figure 1.1 Active antenna systems and mMIMO 40
- Figure 1.2 GSM Association forecasts for global backhaul connections, 2025 and 2027 43
- Figure 1.3 Disaggregated fronthaul, midhaul, and backhaul links 44
- Figure 2.1 Industry sales enabled by 5G: Forecasts for 2035 61
- Figure 3.1 Summary of the 5G threat surface 84
- Figure 3.2 Mobile network electricity consumption to 2030 92
- Figure 3.3 Radiation across the electromagnetic spectrum 95
- Figure 4.1 Capital spending for 5G, 2020–25 (US$, billions) 106
- Photo 39
- Photo 1.1 5G base station with a 64T64R mMIMO radio antenna array 39
- Tables 33
- Table 1.1 Key target capabilities of 4G and 5G 33
- Table 1.2 Proposed 5G usage scenarios and use case examples 34
- Table 1.3 Frequency bands internationally designated for IMT identification 36
- Table 1.4 Summary of performance variables for 5G spectrum 38
- Table 1.5 Current alternatives for backhaul media 43
- Table 2.1 Potential digital transformation in selected vertical sectors 61
- Table 2.2 Three examples of the beneficial use of 5G in the power industry 66
- Table 2.3 5G and other technologies in the agriculture sector 70
- Table 2.4 Status of 5G-enabled agriculture as of 2020 71
- Table 3.1 5G threat surface, by network segment 85
- Table 3.2 Summary of potential risks for various 5G user groups 87
- Table 3.3 Recommendations for countries without a current 5G implementation process 89
- Table 3.4 Recommendations for countries planning 5G implementations 89
- Table 3.5 Recommendations for countries in the process of implementing 5G 90
- Table 4.1 Authorization regimes for private 5G networks 110
- Table A.1 Overview of selected organizations and standards 137
- Table B.1 Additional examples of national 5G strategy documents in developing countries 143
