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The report is titled as ‘5G Infrastructure Market: Opportunity Analysis and Future Assessment 2020-2028’. An overview of conceptual frameworks, analytical approaches of the 5G infrastructure market is the main objective of the report, which further consists of the market opportunity and insights of the data involved in the making of the respective market. The 5G infrastructure market is expected to grow at a significant rate in the near future.
The global 5G infrastructure market is estimated to reach at a value of US$ 1,335.3 Mn by the end of 2020 and expected to reach at a value of US$ 58,823.2 Mn by 2028 with a significant CAGR of 60.6%
5G infrastructure can be comprehended as the network of macro and small cell base stations consisting of edge computing capabilities that are mandatory for the functional capability of the fifth generation technology standard for cellular networks. Macro cells are the conventional cell towers that carry out their functions and provide services to a widespread area. In 5G networks, the usual network functions that ordinarily operate on hardware turns virtualized, functioning as software.
Majority of the carriers will be utilizing the already existent 4G LTE radio access networks (RANs) augmented with few new antennas, before 5G networks reach their maximum potential and become self-sustained. This enables carriers to transform from 4G networks to 5G networks by providing enhanced services whilst the advanced material infrastructure is reinforced.
In addition, 5G infrastructure also offers low latency coverage for big data streams that power applications like semi-autonomous vehicles, IoT devices, and augmented reality (AR).
5G infrastructure is majorly an amalgam of core network, Radio Access Network (RAN), and transport and backhaul. The transport and backhaul network comprises microwave antennas or fiber optics. The rapid emergence of advanced technologies including artificial intelligence, augmented and virtual reality, the internet of things (IoT), and connected cars, in the present-day world, is majorly boosting the growth of the global 5G network infrastructure market across the world.
In addition, the 5G infrastructure market is estimated to remodel the realm of several different broadband services and is further expected to encourage connectivity across various end-user verticals. Owing to which, the 5G networks are anticipated to witness massive demand in the near future.
Noticeably, the 5G network consists of the macro and small cells, which in turn is expected to cut off the additional costs as it gets rid of the money-exhaustive rooftop systems as well as installation expenses, ultimately estimated to assist in enhancing the battery duration and performance of mobile handsets.
Attributing to which, the global 5G infrastructure market is estimated to observe significant breakthroughs over the forecast period.
Moreover, the increasing requirement for an uninterrupted and seamless telecommunications industry across the globe is also projected to provide numerous lucrative growth opportunities for the global 5G infrastructure market in the forthcoming years.
Other than that, there are plenty of investments made by governments and regulatory authorities across the globe regarding the growth of the 5G technologies, which is further expected to support the growth of the global 5G infrastructure market in the given timeframe.
Furthermore, various new and emerging telecom companies, worldwide, have permeated into the global 5G infrastructure market which has also positively fueled the growth of the global 5G infrastructure market.
However, the huge cost related to substituting the estate infrastructure with 5G infrastructures, along with security and privacy concerns is likely to restrict the growth of the global 5G infrastructure market in the near future.
In addition, the COVID-19 global pandemic has also interrupted the progression of 5G infrastructure in several countries, where the pandemic forced the countries to take up safety measures to curb the spread of the deadly virus, which affected the timing of the 5G infrastructure standard finalization and many countries, resultantly postponed their auction of 5G spectrum.
The global 5G infrastructure market is segmented on the basis of communication infrastructure, core network technology, network architecture, operational frequency, end user, and region.
On the basis of the Communication Infrastructure, the 5G infrastructure market is segmented into Small Cell and Macro Cell. The Core Network 5G infrastructure market segment is divided into Software-Defined Networking (SDN) and Network Function Virtualization (NFV). Furthermore, the Network Architecture 5G infrastructure market segment is divided into 5G NR Non-Standalone (LTE Combined) and 5G Standalone (NR + Core). On the basis of Operational Frequency, the market is segmented into Sub 6 GHz and Above 6 GHz. Lastly, on the basis of end user, the 5G infrastructure market is segmented into Residential, Commercial, Industrial, and Government
The global 5G infrastructure market is dominated by Huawei Technologies Co., Ltd., Samsung Electronics Co., Ltd., Nokia Corporation, Telefonaktiebolaget LM Ericsson, ZTE Corporation, NEC Corporation, Cisco Systems, Inc., Fujitsu Limited, CommScope Inc., Comba Telecom Systems Holdings Ltd., Altiostar, Airspan Networks, Casa Systems, HPE, Mavenir, Parallel Wireless, JMA Wireless, Ceragon, Aviat Networks, Inc., among others.
On the basis of region, the 5G infrastructure market is segmented into six regions namely North America, Latin America, Asia Pacific, Europe, Middle East, and Africa
Europe is anticipated to record a considerable fraction of the global demand in the 5G infrastructure market, owing to the occupancy of large carriers’ and vendors' investment to commence technology in this region.
In addition to that, the joint venture of the European ICT and European Commission industry to offer 5G infrastructure public-private partnership (5G PPP) is projected to deliver advanced architectures, solutions, technologies, and standards for the future generation.
The major goal of this joint venture is to conserve up to 90% of energy per service offered as well as there will also be focus on the mobile communication networks where the domineering energy usage comes from the radio access network.
The non-identical approach of Reports and Insights stands with conceptual methods backed up with the data analysis. The novel market understanding approach makes up the standard of the assessment results that give a better opportunity for the customers to put their effort.
A research report on the 5G infrastructure market by Reports and Insights is an in-depth and extensive study of the market based on the necessary data crunching and statistical analysis. It provides a brief view of the dynamics flowing through the market, which includes the factors that support the market and the factors that are acting as impedance for the growth of the market.
Furthermore, the report includes the various trends and opportunities in the respective market in different regions for a better understanding of readers that helps to analyze the potential of the market.
Various factors that are benchmarked while estimating the market growth includes (but not restricted to):
New product designs and launches
Current product compliance
Reimbursement
Concerns for use of 5G Infrastructure
Advantages of 5G Infrastructure
Actions taken by the manufacturer and respective regulatory authorities also impact the market growth of the segment. These factors are understood at regional level and in major countries globally for providing regional insights of the product segment in the report. This helps our clients to make informed decisions.
A mix of top-down and bottom-up approach is followed to arrive and validate our market value estimations. For a product segment like wherein one/two manufacturer(s) dominates the market, it’s products sales, previous growth rates and market expansion plans are considered to generate market share in the global market.
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1. Global 5G Infrastructure Market Report Overview
1.1. Introduction
1.2. Report Description
1.3. Methodology
2. Global 5G Infrastructure Market Overview
2.1. Introduction
2.1.1. Introduction
2.1.2. Market Taxonomy
2.2. Executive Summary
2.3. Global 5G Infrastructure Market Snapshot
2.4. Global 5G Infrastructure Market Size And Forecast, 2020–2028
2.4.1. Introduction
2.4.2. Market Value Forecast And Annual Growth Rate (AGR) Comparison (2020–2028)
2.5. Global 5G Infrastructure Market Dynamics
2.5.1. Drivers
2.5.2. Restraints
2.5.3. Opportunity
2.5.4. Trends
2.6. Key Regulations
2.7. Porter’s Five Forces Model
3. 5G Infrastructure Assessment and Analysis
3.1. Actions to encourage use of 5G Infrastructure Technology
3.2. 5G Infrastructure Promotional Strategy Recommendation
3.3. Road Map Analysis
3.4. GAP Analysis
3.5. Potential Analysis
4. Covid-19 Impact on 5G Infrastructure Market in 2020
4.1. Impact Analysis of Covid-19 on the global 5G Infrastructure market
4.2. Effect On Value Chain
4.3. Business Impact W.R.T Revenue
4.4. Fluctuation In Production
4.5. Volatility In Price
4.6. Effect On The Overall Trade
4.7. Market Impact Analysis In 2020 (Quarter Wise)
5. Global 5G Infrastructure Market, By Communication Infrastructure
5.1. Introduction
5.1.1. Annual Growth Rate Comparison, By Communication Infrastructure
5.1.2. BPS Analysis, By Communication Infrastructure
5.2. Market Revenue (US$Mn) Forecast, By Communication Infrastructure
5.2.1. Small Cell
5.2.2. Macro Cell
5.3. Global 5G Infrastructure Market Attractiveness Index, By Communication Infrastructure
6. Global 5G Infrastructure Market, By Core Network
6.1. Introduction
6.1.1. Annual Growth Rate Comparison, By Core Network
6.1.2. BPS Analysis, By Core Network
6.2. Market Revenue (US$Mn) Forecast, By Core Network
6.2.1. Software-Defined Networking (SDN)
6.2.2. Network Function Virtualization (NFV)
6.3. Global 5G Infrastructure Market Attractiveness Index, By Core Network
7. Global 5G Infrastructure Market, By Network Architecture
7.1. Introduction
7.1.1. Annual Growth Rate Comparison, By Network Architecture
7.1.2. BPS Analysis, By Network Architecture
7.2. Market Revenue (US$Mn) Forecast, By Network Architecture
7.2.1. 5G NR Non-Standalone (LTE Combined)
7.2.2. 5G Standalone (NR + Core)
7.3. Global 5G Infrastructure Market Attractiveness Index, By Network Architecture
8. Global 5G Infrastructure Market, By Operational Frequency
8.1. Introduction
8.1.1. Annual Growth Rate Comparison, By Operational Frequency
8.1.2. BPS Analysis, By Operational Frequency
8.2. Market Revenue (US$Mn) Forecast, By Operational Frequency
8.2.1. Sub 6 GHz
8.2.2. Above 6 GHz
8.3. Global 5G Infrastructure Market Attractiveness Index, By Operational Frequency
9. Global 5G Infrastructure Market, By End User
9.1. Introduction
9.1.1. Annual Growth Rate Comparison, By End User
9.1.2. BPS Analysis, By End User
9.2. Market Revenue (US$Mn) Forecast, By End User
9.2.1. Residential
9.2.2. Commercial
9.2.3. Industrial
9.2.4. Government
9.3. Global 5G Infrastructure Market Attractiveness Index, By End User
10. Global 5G Infrastructure Market, By Region
10.1. Introduction
10.1.1. Annual Growth Rate Comparison, By Region
10.1.2. BPS Analysis, By Region
10.2. Market Revenue (US$Mn) Forecast, By Region
10.2.1. North America
10.2.2. Latin America
10.2.3. Europe
10.2.4. Asia Pacific
10.2.5. Middle East
10.2.6. Africa
10.3. Global 5G Infrastructure Market Attractiveness Index, By Region
11. North America 5G Infrastructure Market Analysis and Forecast, 2020–2028
11.1. Introduction
11.1.1. Annual Growth Rate Comparison, By Country
11.1.2. BPS Analysis, By Country
11.2. Market Revenue (US$Mn) Forecast, By Country
11.2.1. U.S. 5G Infrastructure Market
11.2.2. Canada 5G Infrastructure Market
11.3. North America 5G Infrastructure Market, By Communication Infrastructure
11.3.1. Small Cell
11.3.2. Macro Cell
11.4. North America 5G Infrastructure Market Revenue (US$Mn) Forecast, By Core Network
11.4.1. Software-Defined Networking (SDN)
11.4.2. Network Function Virtualization (NFV)
11.5. North America 5G Infrastructure Market Revenue (US$Mn) Forecast, By Network Architecture
11.5.1. 5G NR Non-Standalone (LTE Combined)
11.5.2. 5G Standalone (NR + Core)
11.6. North America 5G Infrastructure Market Revenue (US$Mn) Forecast, By Operational Frequency
11.6.1. Sub 6 GHz
11.6.2. Above 6 GHz
11.7. North America 5G Infrastructure Market Revenue (US$Mn) Forecast, By End User
11.7.1. Residential
11.7.2. Commercial
11.7.3. Industrial
11.7.4. Government
11.8. North America 5G Infrastructure Market Attractiveness Index
11.8.1. By Country
11.8.2. By Communication Infrastructure
11.8.3. By Network Architecture
11.8.4. By Operational Frequency
11.8.5. By Core Network
11.8.6. By End User
12. Latin America 5G Infrastructure Market Analysis and Forecast, 2020–2028
12.1. Introduction
12.1.1. Annual Growth Rate Comparison, By Country
12.1.2. BPS Analysis, By Country
12.2. Market (US$Mn) Forecast, By Country
12.2.1. Brazil 5G Infrastructure Market
12.2.2. Mexico 5G Infrastructure Market
12.2.3. Argentina 5G Infrastructure Market
12.2.4. Rest Of Latin America 5G Infrastructure Market
12.3. Latin America 5G Infrastructure Market, By Communication Infrastructure
12.3.1. Small Cell
12.3.2. Macro Cell
12.4. Latin America 5G Infrastructure Market Revenue (US$Mn) Forecast, By Core Network
12.4.1. Software-Defined Networking (SDN)
12.4.2. Network Function Virtualization (NFV)
12.5. Latin America 5G Infrastructure Market Revenue (US$Mn) Forecast, By Network Architecture
12.5.1. 5G NR Non-Standalone (LTE Combined)
12.5.2. 5G Standalone (NR + Core)
12.6. Latin America 5G Infrastructure Market Revenue (US$Mn) Forecast, By Operational Frequency
12.6.1. Sub 6 GHz
12.6.2. Above 6 GHz
12.7. Latin America 5G Infrastructure Market Revenue (US$Mn) Forecast, By End User
12.7.1. Residential
12.7.2. Commercial
12.7.3. Industrial
12.7.4. Government
12.8. Latin America 5G Infrastructure Market Attractiveness Index
12.8.1. By Country
12.8.2. By Communication Infrastructure
12.8.3. By Network Architecture
12.8.4. By Operational Frequency
12.8.5. By Core Network
12.8.6. By End User
13. Europe 5G Infrastructure Market Analysis and Forecast, 2020–2028
13.1. Introduction
13.1.1. Annual Growth Rate Comparison, By Country
13.1.2. BPS Analysis, By Country
13.2. Market (US$Mn) Forecast, By Country
13.2.1. U.K. 5G Infrastructure Market
13.2.2. Germany 5G Infrastructure Market
13.2.3. Italy 5G Infrastructure Market
13.2.4. France 5G Infrastructure Market
13.2.5. Spain 5G Infrastructure Market
13.2.6. Russia 5G Infrastructure Market
13.2.7. Poland 5G Infrastructure Market
13.2.8. BENELUX 5G Infrastructure Market
13.2.9. NORDIC 5G Infrastructure Market
13.2.10. Rest Of Europe 5G Infrastructure Market
13.3. Europe 5G Infrastructure Market, By Communication Infrastructure
13.3.1. Small Cell
13.3.2. Macro Cell
13.4. Europe 5G Infrastructure Market Revenue (US$Mn) Forecast, By Core Network
13.4.1. Software-Defined Networking (SDN)
13.4.2. Network Function Virtualization (NFV)
13.5. Europe 5G Infrastructure Market Revenue (US$Mn) Forecast, By Network Architecture
13.5.1. 5G NR Non-Standalone (LTE Combined)
13.5.2. 5G Standalone (NR + Core)
13.6. Europe 5G Infrastructure Market Revenue (US$Mn) Forecast, By Operational Frequency
13.6.1. Sub 6 GHz
13.6.2. Above 6 GHz
13.7. Europe 5G Infrastructure Market Revenue (US$Mn) Forecast, By End User
13.7.1. Residential
13.7.2. Commercial
13.7.3. Industrial
13.7.4. Government
13.8. Europe 5G Infrastructure Market Attractiveness Index
13.8.1. By Country
13.8.2. By Communication Infrastructure
13.8.3. By Network Architecture
13.8.4. By Operational Frequency
13.8.5. By Core Network
13.8.6. By End User
14. Asia Pacific 5G Infrastructure Market Analysis and Forecast, 2020–2028
14.1. Introduction
14.1.1. Annual Growth Rate Comparison, By Country
14.1.2. BPS Analysis, By Country
14.2. Market (US$Mn) Forecast, By Country
14.2.1. China 5G Infrastructure Market
14.2.2. India 5G Infrastructure Market
14.2.3. Japan 5G Infrastructure Market
14.2.4. Australia and New Zealand 5G Infrastructure Market
14.2.5. South Korea 5G Infrastructure Market
14.2.6. ASEAN 5G Infrastructure Market
14.2.7. Rest of Asia Pacific 5G Infrastructure Market
14.3. Asia Pacific 5G Infrastructure Market, By Communication Infrastructure
14.3.1. Small Cell
14.3.2. Macro Cell
14.4. Asia Pacific 5G Infrastructure Market Revenue (US$Mn) Forecast, By Core Network
14.4.1. Software-Defined Networking (SDN)
14.4.2. Network Function Virtualization (NFV)
14.5. Asia Pacific 5G Infrastructure Market Revenue (US$Mn) Forecast, By Network Architecture
14.5.1. 5G NR Non-Standalone (LTE Combined)
14.5.2. 5G Standalone (NR + Core)
14.6. Asia Pacific 5G Infrastructure Market Revenue (US$Mn) Forecast, By Operational Frequency
14.6.1. Sub 6 GHz
14.6.2. Above 6 GHz
14.7. Asia Pacific 5G Infrastructure Market Revenue (US$Mn) Forecast, By End User
14.7.1. Residential
14.7.2. Commercial
14.7.3. Industrial
14.7.4. Government
14.8. Asia Pacific 5G Infrastructure Market Attractiveness Index
14.8.1. By Country
14.8.2. By Communication Infrastructure
14.8.3. By Network Architecture
14.8.4. By Operational Frequency
14.8.5. By Core Network
14.8.6. By End User
15. Middle East 5G Infrastructure Market, By Region
15.1. Introduction
15.1.1. Annual Growth Rate Comparison, By Country
15.1.2. BPS Analysis, By Country
15.2. Market (US$Mn) Forecast, By Country
15.2.1. GCC Countries 5G Infrastructure Market
15.2.2. Israel 5G Infrastructure Market
15.2.3. Oman 5G Infrastructure Market
15.2.4. Rest Of Middle East 5G Infrastructure Market
15.3. Middle East 5G Infrastructure Market, By Communication Infrastructure
15.3.1. Small Cell
15.3.2. Macro Cell
15.4. Middle East 5G Infrastructure Market Revenue (US$Mn) Forecast, By Core Network
15.4.1. Software-Defined Networking (SDN)
15.4.2. Network Function Virtualization (NFV)
15.5. Middle East 5G Infrastructure Market Revenue (US$Mn) Forecast, By Network Architecture
15.5.1. 5G NR Non-Standalone (LTE Combined)
15.5.2. 5G Standalone (NR + Core)
15.6. Middle East 5G Infrastructure Market Revenue (US$Mn) Forecast, By Operational Frequency
15.6.1. Sub 6 GHz
15.6.2. Above 6 GHz
15.7. Middle East 5G Infrastructure Market Revenue (US$Mn) Forecast, By End User
15.7.1. Residential
15.7.2. Commercial
15.7.3. Industrial
15.7.4. Government
15.8. Middle East 5G Infrastructure Market Attractiveness Index
15.8.1. By Country
15.8.2. By Communication Infrastructure
15.8.3. By Network Architecture
15.8.4. By Operational Frequency
15.8.5. By Core Network
15.8.6. By End User
16. Africa 5G Infrastructure Market, By Region
16.1. Introduction
16.1.1. Annual Growth Rate Comparison, By Country
16.1.2. BPS Analysis, By Country
16.2. Market (US$Mn) Forecast, By Country
16.2.1. South Africa 5G Infrastructure Market
16.2.2. Egypt 5G Infrastructure Market
16.2.3. North Africa 5G Infrastructure Market
16.2.4. Rest Of Africa 5G Infrastructure Market
16.3. Africa 5G Infrastructure Market, By Communication Infrastructure
16.3.1. Small Cell
16.3.2. Macro Cell
16.4. Africa 5G Infrastructure Market Revenue (US$Mn) Forecast, By Core Network
16.4.1. Software-Defined Networking (SDN)
16.4.2. Network Function Virtualization (NFV)
16.5. Africa 5G Infrastructure Market Revenue (US$Mn) Forecast, By Network Architecture
16.5.1. 5G NR Non-Standalone (LTE Combined)
16.5.2. 5G Standalone (NR + Core)
16.6. Africa 5G Infrastructure Market Revenue (US$Mn) Forecast, By Operational Frequency
16.6.1. Sub 6 GHz
16.6.2. Above 6 GHz
16.7. Africa 5G Infrastructure Market Revenue (US$Mn) Forecast, By End User
16.7.1. Residential
16.7.2. Commercial
16.7.3. Industrial
16.7.4. Government
16.8. Africa 5G Infrastructure Market Attractiveness Index
16.8.1. By Country
16.8.2. By Communication Infrastructure
16.8.3. By Network Architecture
16.8.4. By Operational Frequency
16.8.5. By Core Network
16.8.6. By End User
17. Recommendation
17.1. Market Strategy
18. Competitive Landscape
18.1. Competition Dashboard
18.2. List and Company Overview of Global Key Players
18.3. Company Profiles
18.3.1. Huawei Technologies Co., Ltd.
18.3.1.1. Company Overview
18.3.1.2. Financial Overview
18.3.1.3. Product Portfolio
18.3.1.4. SWOT Analysis
18.3.1.5. Key Developments
18.3.1.6. Business Strategies
18.3.2. Samsung Electronics Co., Ltd.
18.3.3. Nokia Corporation
18.3.4. Telefonaktiebolaget LM Ericsson
18.3.5. ZTE Corporation
18.3.6. NEC Corporation
18.3.7. Cisco Systems, Inc.
18.3.8. Fujitsu Limited
18.3.9. CommScope Inc.
18.3.10. Comba Telecom Systems Holdings Ltd.
18.3.11. Altiostar
18.3.12. Airspan Networks
18.3.13. Casa Systems
18.3.14. HPE
18.3.15. Mavenir
18.3.16. Parallel Wireless
18.3.17. JMA Wireless
18.3.18. Ceragon, Aviat Networks, Inc.
19. Acronyms
The global 5G infrastructure market is estimated to reach at a value of US$ 1,335.3 Mn by the end of 2020 and expected to reach at a value of US$ 58,823.2 Mn by 2028 with a significant CAGR of 60.6%
The rapid emergence of advanced technologies including artificial intelligence, augmented and virtual reality, the internet of things (IoT), and connected cars, in the present-day world, is majorly boosting the growth of the global 5G network infrastructure market
The global 5G infrastructure market is segmented on the basis of communication infrastructure, core network technology, network architecture, operational frequency, end user, and region.
The global 5G infrastructure market is dominated by Huawei Technologies Co., Ltd., Samsung Electronics Co., Ltd., Nokia Corporation, Telefonaktiebolaget LM Ericsson, ZTE Corporation, NEC Corporation, Cisco Systems, Inc., Fujitsu Limited, CommScope Inc., Comba Telecom Systems Holdings Ltd., Altiostar, Airspan Networks, Casa Systems, HPE, Mavenir, Parallel Wireless, JMA Wireless, Ceragon, Aviat Networks, Inc., among others.