Global 5G Infrastructure Market, By Component (Radio Access Network (RAN), Core Network, Backhaul & Transport, FrontHaul, MidHaul), By Type, By Spectrum, By Network Architecture, By Industry Vertical, and By Region - Trends and Forecast Analysis, 2021-2033

Publish Date: 2025-03-01 | Format: PDF | Category: ICT Media | Pages: 298

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The Global 5G Infrastructure Market was valued at USD 25.8 Billion in 2024 and is projected to reach USD 175.2 Billion by 2033 at a CAGR of around 23.7% between 2024 and 2033. The growth of global 5G infrastructure is driven by rising data consumption and increasing IoT adoption. Faster connectivity demand has surged due to smart devices. Industrial automation is also being boosted by 5G networks. However, high deployment costs act as a major restraint. Infrastructure setup requires huge investment, slowing expansion in some regions. Despite this, significant opportunities exist. The healthcare sector is benefiting from 5G-powered remote surgeries and telemedicine. Real-time data transmission has improved patient care in hospitals. Another opportunity is seen in smart cities.

Traffic management and energy grids are being enhanced through 5G technology. Countries like South Korea and the U.S. have advanced their networks for better urban planning. Autonomous vehicles are also leveraging 5G for instant communication. Faster response times have reduced road accidents. In manufacturing, factories are adopting 5G for real-time monitoring of machines. Predictive maintenance has improved productivity. Edge computing is further optimizing performance in cloud-based applications. Retail businesses are enhancing customer experience using AR and VR over 5G. Shopping trends have shifted due to immersive technology. The entertainment industry is also seeing a transformation. Streaming services are delivering high-resolution content with lower latency. The rapid evolution of 5G is shaping a connected digital future.

Driver: Rising Data Demand Fueling 5G Growth

The explosion of data usage has fueled the need for 5G infrastructure. Streaming, gaming, and social media are consuming massive bandwidth. High-definition video calls have become essential for remote work and learning. Traditional networks struggle to handle this surge. 5G offers ultra-fast speeds and low latency to meet these demands. Cloud gaming services are relying on 5G for seamless experiences. Platforms like Xbox Cloud Gaming and GeForce Now are eliminating the need for high-end hardware. Smart home devices are also driving data usage. AI-powered assistants, security cameras, and home automation systems require stable and fast connectivity. E-commerce is transforming with interactive experiences.

Virtual try-ons and AI-driven recommendations are enhancing online shopping. Financial transactions are becoming smoother with instant payments. Mobile banking apps are reducing wait times with real-time processing. Sports broadcasting has seen a shift with 5G-enabled live streaming. Fans are getting 360-degree views and instant replays in stadiums. Drone technology is advancing due to high-speed data transfer. Agriculture, logistics, and surveillance are benefiting from real-time drone monitoring. The demand for high-speed connectivity is only increasing. 5G is playing a crucial role in keeping up with the growing digital ecosystem. The future of connectivity is being shaped by data-driven innovation.

Key Insights:

In the United States, 5G adoption reached 43.1% by Q4 2022.
Ericsson invested over $100 million in a 5G smart factory in Texas to bolster U.S. infrastructure.
China's 5G connections are expected to surpass 1 billion by the end of 2024.
In India, 5G availability improved from 28.1% in Q1 to 52.0% in Q4 2023, marking a 23.9% point increase within the year.
The European Union anticipates an average 5G adoption rate of 44% by 2025, with the UK and Germany leading at 61% and 59%, respectively.
Australia and South Korea have achieved 5G smartphone penetration rates of 82% and 88%, respectively.
The Federal Communications Commission established the 5G Fund for Rural America, allocating up to $9 billion to enhance 5G services in rural areas.

Segment Analysis:

The 5G infrastructure market is evolving across multiple segments, each playing a crucial role in global connectivity. The Radio Access Network (RAN) is being upgraded with advanced antennas to enhance coverage, while the Core Network is integrating cloud-based solutions for better efficiency. Backhaul & Transport, Fronthaul, and Midhaul are improving network stability, ensuring seamless data transfer. Both public and private 5G networks are expanding, with enterprises deploying private 5G for secure and high-speed operations. Sub-6 GHz spectrum is enabling broader coverage, while mmWave is driving ultra-fast speeds in urban areas. Standalone architecture is gaining traction for low-latency applications, while non-standalone remains a transition phase for existing networks.

In industry verticals, residential users are experiencing faster broadband for smart homes. Corporate offices are adopting 5G for enhanced remote collaboration. Smart cities are using 5G sensors for traffic and waste management. Industrial automation is improving with real-time robotics. Energy grids are being optimized through predictive maintenance. Autonomous trucks in logistics rely on 5G for navigation. Emergency response teams use real-time video streaming for disaster management. Hospitals leverage 5G for AI-driven diagnostics. Retail stores are enhancing customer experiences with smart checkout. Farms use 5G drones for precision agriculture, driving efficiency across sectors.5G Infrastructure Market Share Analysis

Regional Analysis:

The 5G revolution is reshaping economies across all major regions. North America is leading with extensive network rollouts, with tech hubs integrating 5G for AI-driven innovations. Autonomous taxis in cities like San Francisco rely on ultra-fast connectivity for real-time navigation. Europe is rapidly deploying 5G in industrial zones, enhancing smart manufacturing. German automotive factories are using 5G-powered robotics for precision assembly. Asia-Pacific is witnessing the fastest adoption, with smart infrastructure projects driving demand. Japan’s bullet trains leverage 5G for predictive maintenance, ensuring smoother operations. Latin America is expanding its 5G footprint, focusing on digital transformation.

Brazilian farms utilize 5G-connected sensors for soil monitoring, boosting agricultural efficiency. The Middle East & Africa are investing in 5G to enhance connectivity in remote areas. In the UAE, smart airports are using 5G for seamless passenger processing with AI-powered security. Across Africa, telecommunication firms are deploying 5G in rural regions to support digital banking and e-learning. The demand for faster, low-latency networks is surging, fostering innovation in healthcare, logistics, and urban planning. As governments and enterprises accelerate deployments, 5G is bridging the digital divide and enabling smarter, more connected societies worldwide.

Competitive Scenario:

The 5G infrastructure landscape is rapidly evolving, with key industry players actively forging strategic partnerships and securing significant contracts to enhance global connectivity. Nokia has entered into a multi-year agreement with AT&T to upgrade voice services and automate 5G networks in the United States, aiming to integrate advanced functionalities such as artificial intelligence and machine learning into their offerings. Ericsson has secured a substantial contract with India's Bharti Airtel to supply 5G equipment, reflecting a resurgence in the Indian market and contributing to Ericsson's revenue growth. Meanwhile, Huawei is collaborating with MTN South Africa and China Telecom to bolster 5G capabilities, cloud services, and artificial intelligence applications, aiming to drive technological advancements across the African continent. Samsung Electronics continues to innovate in 5G technology, focusing on developing advanced network solutions to meet the growing demand for high-speed connectivity.

ZTE Corporation is expanding its global footprint by deploying 5G networks in various regions, enhancing mobile broadband services. NEC Corporation is investing in open RAN technologies to promote interoperability and flexibility in 5G networks. Cisco Systems is enhancing its 5G infrastructure portfolio by integrating security and automation features to support scalable network deployments. Fujitsu is developing energy-efficient 5G base stations to support sustainable network expansion. CommScope and Comba Telecom are providing innovative antenna solutions to improve network coverage and capacity. Altiostar, Airspan Networks, Casa Systems, Hewlett Packard Enterprise, Mavenir, Parallel Wireless, JMA Wireless, Ceragon, and Aviat Networks are contributing to the 5G ecosystem by offering specialized solutions ranging from virtualized RAN to wireless transport services, collectively advancing the global adoption of 5G technology.

5G Infrastructure Market Report Scope

Report Attribute	Details
Market Size Value in 2024	USD 25.8 Billion
Revenue Forecast in 2033	USD 175.2 Billion
Growth Rate	CAGR of 23.7% from 2025 to 2033
Historic Period	2021 - 2024
Forecasted Period	2025 - 2033
Report Coverage	Revenue forecast, company ranking, competitive landscape, growth factors, and trends
Regions Covered	North America; Europe; Asia Pacific; Latin America; Middle East & Africa
Countries Covered	U.S.; Canada; Mexico, UK; Germany; France; Spain; Italy; Russia; China; Japan; India; South Korea; Australia; Southeast Asia; Brazil; Argentina; Saudi Arabia; UAE; South Africa
Key companies profiled	Huawei Technologies Co., Ltd.; Samsung Electronics Co., Ltd.; Nokia Corp.; Telefonaktiebolaget LM Ericsson; ZTE Corp.; NEC Corp.; Cisco Systems, Inc.; Fujitsu Ltd.; CommScope Inc.; Comba Telecom Systems Holdings Ltd.; Altiostar; Airspan Networks; Casa Systems; Hewlett Packard Enterprise Development LP; Mavenir; Parallel Wireless; JMA Wireless; Ceragon; Aviat Networks, Inc.
Customization	Free report customization (equivalent up to 8 analysts working days) with purchase. Addition or alteration to country, regional & segment scope.

The Global 5G Infrastructure Market report is segmented as follows:

By Component,

Radio Access Network (RAN)
Core Network
Backhaul & Transport
FrontHaul
MidHaul

By Type,

Pubic
Private

By Spectrum,

Sub-6 GHz
mmWave

By Network Architecture,

Standalone
Non-standalone

By Industry Vertical,

Residential
Corporate
Smart City
Industrial
Energy & Utility
Transportation & Logistics
Public Safety and Defense
Healthcare Facilities
Retail
Agriculture
Others

By Region,

North America

U.S.
Canada
Mexico

Europe

UK
Germany
France
Spain
Italy
Russia
Rest of Europe

Asia Pacific

China
Japan
India
South Korea
Australia
Southeast Asia
Rest of Asia Pacific

Latin America

Brazil
Argentina
Rest of Latin America

Middle East & Africa

Saudi Arabia
UAE
South Africa
Rest of Middle East & Africa

Key Market Players,

Huawei Technologies Co., Ltd.
Samsung Electronics Co., Ltd.
Nokia Corp.
Telefonaktiebolaget LM Ericsson
ZTE Corp.
NEC Corp.
Cisco Systems, Inc.
Fujitsu Ltd.
CommScope Inc.
Comba Telecom Systems Holdings Ltd.
Altiostar
Airspan Networks
Casa Systems
Hewlett Packard Enterprise Development LP
Mavenir
Parallel Wireless
JMA Wireless
Ceragon
Aviat Networks, Inc.

Frequently Asked Questions

The Global 5G Infrastructure Market was valued at USD 25.8 Billion in 2024 and is projected to reach USD 175.2 Billion by 2033.

The Global 5G Infrastructure Market is expected to grow at a compounded annual growth rate of 23.7% between 2024 and 2033.

The Asia Pacific holds the largest market share in the global 5G Infrastructure Market in 2024.

Key players profiled in the global 5G Infrastructure market are Huawei Technologies Co., Ltd.; Samsung Electronics Co., Ltd.; Nokia Corp.; Telefonaktiebolaget LM Ericsson; ZTE Corp.; NEC Corp.; Cisco Systems, Inc.; Fujitsu Ltd.; CommScope Inc.; Comba Telecom Systems Holdings Ltd.; Altiostar; Airspan Networks; Casa Systems; Hewlett Packard Enterprise Development LP; Mavenir; Parallel Wireless; JMA Wireless; Ceragon; Aviat Networks, Inc..

The growth of global 5G infrastructure is driven by rising data consumption and increasing IoT adoption.

Research Objectives

Proliferation and maturation of trade in the global 5G Infrastructure Market.
The market share of the global 5G Infrastructure Market, supply and demand ratio, growth revenue, supply chain analysis, and business overview.
Current and future market trends that are influencing the growth opportunities and growth rate of the global 5G Infrastructure Market.
Feasibility study, new market insights, company profiles, investment return, market size of the global 5G Infrastructure Market.

Chapter 1 5G Infrastructure Market Executive Summary

1.1 5G Infrastructure Market Research Scope
1.2 5G Infrastructure Market Estimates and Forecast (2021-2033)

1.2.1 Global 5G Infrastructure Market Value and Volume and Growth Rate (2021-2033)
1.2.2 Global 5G Infrastructure Market Price Trend (2021-2033)

1.3 Global 5G Infrastructure Market Value and Volume Comparison, by Component (2021-2033)

1.3.1 Radio Access Network (RAN)
1.3.2 Core Network
1.3.3 Backhaul & Transport
1.3.4 FrontHaul
1.3.5 MidHaul

1.4 Global 5G Infrastructure Market Value and Volume Comparison, by Type (2021-2033)

1.4.1 Pubic
1.4.2 Private

1.5 Global 5G Infrastructure Market Value and Volume Comparison, by Spectrum (2021-2033)

1.5.1 Sub-6 GHz
1.5.2 mmWave

1.6 Global 5G Infrastructure Market Value and Volume Comparison, by Network Architecture (2021-2033)

1.6.1 Standalone
1.6.2 Non-standalone

1.7 Global 5G Infrastructure Market Value and Volume Comparison, by Industry Vertical (2021-2033)

1.7.1 Residential
1.7.2 Corporate
1.7.3 Smart City
1.7.4 Industrial
1.7.5 Energy & Utility
1.7.6 Transportation & Logistics
1.7.7 Public Safety and Defense
1.7.8 Healthcare Facilities
1.7.9 Retail
1.7.10 Agriculture
1.7.11 Others

Chapter 2 Research Methodology

2.1 Introduction
2.2 Data Capture Sources

2.2.1 Primary Sources
2.2.2 Secondary Sources

2.3 Market Size Estimation
2.4 Market Forecast
2.5 Assumptions and Limitations

Chapter 3 Market Dynamics

3.1 Market Trends
3.2 Opportunities and Drivers
3.3 Challenges
3.4 Market Restraints
3.5 Porter's Five Forces Analysis

Chapter 4 Supply Chain Analysis and Marketing Channels

4.1 5G Infrastructure Supply Chain Analysis
4.2 Marketing Channels
4.3 5G Infrastructure Suppliers List
4.4 5G Infrastructure Distributors List
4.5 5G Infrastructure Customers

Chapter 5 COVID-19 & Russia–Ukraine War Impact Analysis

5.1 COVID-19 Impact Analysis on 5G Infrastructure Market
5.2 Russia-Ukraine War Impact Analysis on 5G Infrastructure Market

Chapter 6 5G Infrastructure Market Estimate and Forecast by Region

6.1 Global 5G Infrastructure Market Value by Region: 2021 VS 2023 VS 2033
6.2 Global 5G Infrastructure Market Scenario by Region (2021-2023)

6.2.1 Global 5G Infrastructure Market Value and Volume Share by Region (2021-2023)

6.3 Global 5G Infrastructure Market Forecast by Region (2024-2033)

6.3.1 Global 5G Infrastructure Market Value and Volume Forecast by Region (2024-2033)

6.4 Geographic Market Analysis: Market Facts and Figures

6.4.1 North America 5G Infrastructure Market Estimates and Projections (2021-2033)
6.4.2 Europe 5G Infrastructure Market Estimates and Projections (2021-2033)
6.4.3 Asia Pacific 5G Infrastructure Market Estimates and Projections (2021-2033)
6.4.4 Latin America 5G Infrastructure Market Estimates and Projections (2021-2033)
6.4.5 Middle East & Africa 5G Infrastructure Market Estimates and Projections (2021-2033)

Chapter 7 Global 5G Infrastructure Competition Landscape by Players

7.1 Global Top 5G Infrastructure Players by Value (2021-2023)
7.2 5G Infrastructure Headquarters and Sales Region by Company
7.3 Company Recent Developments, Mergers & Acquisitions, and Expansion Plans

Chapter 8 Global 5G Infrastructure Market, by Component

8.1 Global 5G Infrastructure Market Value and Volume, by Component (2021-2033)

8.1.1 Radio Access Network (RAN)
8.1.2 Core Network
8.1.3 Backhaul & Transport
8.1.4 FrontHaul
8.1.5 MidHaul

Chapter 9 Global 5G Infrastructure Market, by Type

9.1 Global 5G Infrastructure Market Value and Volume, by Type (2021-2033)

9.1.1 Pubic
9.1.2 Private

Chapter 10 Global 5G Infrastructure Market, by Spectrum

10.1 Global 5G Infrastructure Market Value and Volume, by Spectrum (2021-2033)

10.1.1 Sub-6 GHz
10.1.2 mmWave

Chapter 11 Global 5G Infrastructure Market, by Network Architecture

11.1 Global 5G Infrastructure Market Value and Volume, by Network Architecture (2021-2033)

11.1.1 Standalone
11.1.2 Non-standalone

Chapter 12 Global 5G Infrastructure Market, by Industry Vertical

12.1 Global 5G Infrastructure Market Value and Volume, by Industry Vertical (2021-2033)

12.1.1 Residential
12.1.2 Corporate
12.1.3 Smart City
12.1.4 Industrial
12.1.5 Energy & Utility
12.1.6 Transportation & Logistics
12.1.7 Public Safety and Defense
12.1.8 Healthcare Facilities
12.1.9 Retail
12.1.10 Agriculture
12.1.11 Others

Chapter 13 North America 5G Infrastructure Market

13.1 Overview
13.2 North America 5G Infrastructure Market Value and Volume, by Country (2021-2033)

13.2.1 U.S.
13.2.2 Canada
13.2.3 Mexico

13.3 North America 5G Infrastructure Market Value and Volume, by Component (2021-2033)

13.3.1 Radio Access Network (RAN)
13.3.2 Core Network
13.3.3 Backhaul & Transport
13.3.4 FrontHaul
13.3.5 MidHaul

13.4 North America 5G Infrastructure Market Value and Volume, by Type (2021-2033)

13.4.1 Pubic
13.4.2 Private

13.5 North America 5G Infrastructure Market Value and Volume, by Spectrum (2021-2033)

13.5.1 Sub-6 GHz
13.5.2 mmWave

13.6 North America 5G Infrastructure Market Value and Volume, by Network Architecture (2021-2033)

13.6.1 Standalone
13.6.2 Non-standalone

13.7 North America 5G Infrastructure Market Value and Volume, by Industry Vertical (2021-2033)

13.7.1 Residential
13.7.2 Corporate
13.7.3 Smart City
13.7.4 Industrial
13.7.5 Energy & Utility
13.7.6 Transportation & Logistics
13.7.7 Public Safety and Defense
13.7.8 Healthcare Facilities
13.7.9 Retail
13.7.10 Agriculture
13.7.11 Others

Chapter 14 Europe 5G Infrastructure Market

14.1 Overview
14.2 Europe 5G Infrastructure Market Value and Volume, by Country (2021-2033)

14.2.1 UK
14.2.2 Germany
14.2.3 France
14.2.4 Spain
14.2.5 Italy
14.2.6 Russia
14.2.7 Rest of Europe

14.3 Europe 5G Infrastructure Market Value and Volume, by Component (2021-2033)

14.3.1 Radio Access Network (RAN)
14.3.2 Core Network
14.3.3 Backhaul & Transport
14.3.4 FrontHaul
14.3.5 MidHaul

14.4 Europe 5G Infrastructure Market Value and Volume, by Type (2021-2033)

14.4.1 Pubic
14.4.2 Private

14.5 Europe 5G Infrastructure Market Value and Volume, by Spectrum (2021-2033)

14.5.1 Sub-6 GHz
14.5.2 mmWave

14.6 Europe 5G Infrastructure Market Value and Volume, by Network Architecture (2021-2033)

14.6.1 Standalone
14.6.2 Non-standalone

14.7 Europe 5G Infrastructure Market Value and Volume, by Industry Vertical (2021-2033)

14.7.1 Residential
14.7.2 Corporate
14.7.3 Smart City
14.7.4 Industrial
14.7.5 Energy & Utility
14.7.6 Transportation & Logistics
14.7.7 Public Safety and Defense
14.7.8 Healthcare Facilities
14.7.9 Retail
14.7.10 Agriculture
14.7.11 Others

Chapter 15 Asia Pacific 5G Infrastructure Market

15.1 Overview
15.2 Asia Pacific 5G Infrastructure Market Value and Volume, by Country (2021-2033)

15.2.1 China
15.2.2 Japan
15.2.3 India
15.2.4 South Korea
15.2.5 Australia
15.2.6 Southeast Asia
15.2.7 Rest of Asia Pacific

15.3 Asia Pacific 5G Infrastructure Market Value and Volume, by Component (2021-2033)

15.3.1 Radio Access Network (RAN)
15.3.2 Core Network
15.3.3 Backhaul & Transport
15.3.4 FrontHaul
15.3.5 MidHaul

15.4 Asia Pacific 5G Infrastructure Market Value and Volume, by Type (2021-2033)

15.4.1 Pubic
15.4.2 Private

15.5 Asia Pacific 5G Infrastructure Market Value and Volume, by Spectrum (2021-2033)

15.5.1 Sub-6 GHz
15.5.2 mmWave

15.6 Asia Pacific 5G Infrastructure Market Value and Volume, by Network Architecture (2021-2033)

15.6.1 Standalone
15.6.2 Non-standalone

15.7 Asia Pacific 5G Infrastructure Market Value and Volume, by Industry Vertical (2021-2033)

15.7.1 Residential
15.7.2 Corporate
15.7.3 Smart City
15.7.4 Industrial
15.7.5 Energy & Utility
15.7.6 Transportation & Logistics
15.7.7 Public Safety and Defense
15.7.8 Healthcare Facilities
15.7.9 Retail
15.7.10 Agriculture
15.7.11 Others

Chapter 16 Latin America 5G Infrastructure Market

16.1 Overview
16.2 Latin America 5G Infrastructure Market Value and Volume, by Country (2021-2033)

16.2.1 Brazil
16.2.2 Argentina
16.2.3 Rest of Latin America

16.3 Latin America 5G Infrastructure Market Value and Volume, by Component (2021-2033)

16.3.1 Radio Access Network (RAN)
16.3.2 Core Network
16.3.3 Backhaul & Transport
16.3.4 FrontHaul
16.3.5 MidHaul

16.4 Latin America 5G Infrastructure Market Value and Volume, by Type (2021-2033)

16.4.1 Pubic
16.4.2 Private

16.5 Latin America 5G Infrastructure Market Value and Volume, by Spectrum (2021-2033)

16.5.1 Sub-6 GHz
16.5.2 mmWave

16.6 Latin America 5G Infrastructure Market Value and Volume, by Network Architecture (2021-2033)

16.6.1 Standalone
16.6.2 Non-standalone

16.7 Latin America 5G Infrastructure Market Value and Volume, by Industry Vertical (2021-2033)

16.7.1 Residential
16.7.2 Corporate
16.7.3 Smart City
16.7.4 Industrial
16.7.5 Energy & Utility
16.7.6 Transportation & Logistics
16.7.7 Public Safety and Defense
16.7.8 Healthcare Facilities
16.7.9 Retail
16.7.10 Agriculture
16.7.11 Others

Chapter 17 Middle East & Africa 5G Infrastructure Market

17.1 Overview
17.2 Middle East & Africa 5G Infrastructure Market Value and Volume, by Country (2021-2033)

17.2.1 Saudi Arabia
17.2.2 UAE
17.2.3 South Africa
17.2.4 Rest of Middle East & Africa

17.3 Middle East & Africa 5G Infrastructure Market Value and Volume, by Component (2021-2033)

17.3.1 Radio Access Network (RAN)
17.3.2 Core Network
17.3.3 Backhaul & Transport
17.3.4 FrontHaul
17.3.5 MidHaul

17.4 Middle East & Africa 5G Infrastructure Market Value and Volume, by Type (2021-2033)

17.4.1 Pubic
17.4.2 Private

17.5 Middle East & Africa 5G Infrastructure Market Value and Volume, by Spectrum (2021-2033)

17.5.1 Sub-6 GHz
17.5.2 mmWave

17.6 Middle East & Africa 5G Infrastructure Market Value and Volume, by Network Architecture (2021-2033)

17.6.1 Standalone
17.6.2 Non-standalone

17.7 Middle East & Africa 5G Infrastructure Market Value and Volume, by Industry Vertical (2021-2033)

17.7.1 Residential
17.7.2 Corporate
17.7.3 Smart City
17.7.4 Industrial
17.7.5 Energy & Utility
17.7.6 Transportation & Logistics
17.7.7 Public Safety and Defense
17.7.8 Healthcare Facilities
17.7.9 Retail
17.7.10 Agriculture
17.7.11 Others

Chapter 18 Company Profiles and Market Share Analysis: (Business Overview, Market Share Analysis, Products/Services Offered, Recent Developments)

18.1 Huawei Technologies Co., Ltd.
18.2 Samsung Electronics Co., Ltd.
18.3 Nokia Corp.
18.4 Telefonaktiebolaget LM Ericsson
18.5 ZTE Corp.
18.6 NEC Corp.
18.7 Cisco Systems, Inc.
18.8 Fujitsu Ltd.
18.9 CommScope Inc.
18.10 Comba Telecom Systems Holdings Ltd.
18.11 Altiostar
18.12 Airspan Networks
18.13 Casa Systems
18.14 Hewlett Packard Enterprise Development LP
18.15 Mavenir
18.16 Parallel Wireless
18.17 JMA Wireless
18.18 Ceragon
18.19 Aviat Networks, Inc.

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Global 5G Infrastructure Market Size and Share Analysis, 2021 - 2033