Global 5G Network Infrastructure Market

The Global 5G Network Infrastructure Market is poised for euphoric growth in the Forecast Period (2021 – 2027) which is expected to grow at a CAGR of 69.4% to reach a Market Size of USD 46,104.16 million by 2027 from a value of USD 1,493.2 Million in 2020.

Rise in government initiatives for building smart cities in Asia-Pacific, Potential Opportunity in Macro Cell segment and Increasing Number of Company Mergers are some of the factors that offer lucrative opportunities in the Global 5G Network Infrastructure Market.

  • Definition / Scope
  • Market Overview
  • Market Risks
  • Top Market Opportunities
  • Market Drivers
  • Market Restraints
  • Industry Challenges
  • Technology Trends
  • Regulatory Trends
  • Post COVID Recovery
  • Market Size and Forecast
  • Market Outlook
  • Technology Roadmap
  • Competitive Landscape
  • Competitive Factors
  • Key Market Players
  • Strategic Conclusion
  • References
  • Further Reading
  • Appendix

Definition / Scope

5G infrastructure refers to as the infrastructure comprising of various small and macro-cell base stations having edge computing capabilities. Traditional cell towers, known as macro cells, are utilized to serve a large area. Network functions that run on hardware are displayed and run as software in a 5G network. Most carriers will use 4G LTE radio access networks (RANs) with some new antennas until 5G networks become self-sufficient and attain their full potential. Customers benefit from unrivalled performance and experience thanks to 5G infrastructure. It outperforms typical wired systems in terms of performance.

Standalone and Non-Standalone 5G Network Infrastructure are the two infrastructure solutions for 5G networks. A non-standalone infrastructure builds on existing 4G LTE infrastructure while also including new technology like 5G new radio (NR). The 5G network that does not rely on the LTE network and has its own cloud-native network core that connects to the NR is referred to as standalone infrastructure. After constructing the physical infrastructure for a 5G network, carriers will be able to provide a 5G-like experience employing an NSA method.

Market Overview

The global 5G infrastructure market generated roughly USD 1,493.2 million in sales in 2020, and is expected to expand at a 69.4% compound annual growth rate (CAGR) to USD 46,104.16 million by 2027.

The 5G infrastructure market is predicted to transform the realm of various broadband services by enabling connectivity across numerous end-user verticals. According to the GSMA, 5G networks have achieved roughly 45 percent urban coverage in early deployment trials. China, India, and other countries want to deploy a 5G network by 2020, which will necessitate significant financial investment in 5G-capable infrastructure.

Small cells are projected to make up the majority of 5G networks. They also help providers save money by removing costly rooftop systems and installation expenses, and they are projected to improve mobile handset performance and battery life.

In addition, businesses are putting money into the development of 5G core services and architecture. For example, ZTE Corporation completed the IMT-2020 third phase of the 5G test for core network performance stability and security function in January 2019, comprehensively proving ZTE’s 5G core network maturity.

Also, the recent announcement by 3GPP to delay the 5G standard updates due to COVID-19 will impact Releases 16 and 17, which had to include critical standards for further developing the technology.

Market Risks

Porter’s Five Forces Analysis is performed to analyze the risks associated in the Global 5G Network Infrastructure Market

Bargaining Power of Suppliers: The number of network slicing service suppliers is moderate, as are the number of established network slicing service providers. As a result, the supplier’s bargaining power is Moderate.

Bargaining Power of Buyer: Because of the numerous players involved in network slicing services, buyers will have enormous bargaining power. Buyers are free to select the services that best suit their needs. As a result, the buyer has a lot of negotiating power.

Threat of New Entrants: Companies entering the network slicing market are adopting technological innovations such as 5G network service delivery, as well as increasing customer demand for quality of service (QoS), data security, energy efficiency, and massive connectivity. As a result, the new entrant’s bargaining power is Moderate.

Threat of Substitutes: A number of companies are racing to develop and introduce similar technology, raising the threat of substitutes. However, such alternatives cannot provide the same level of accessibility and convenience as a network slicing service. Thus, the threat of substitution is low.

Competitive Rivalry in the Market: The market’s competitive rivalry is fierce, particularly between global players Nokia, Huawei, and Parallel Wireless. These companies are launching value-added services in the international market and expanding their global footprint. As a result, the market’s competitive rivalry is high.

Top Market Opportunities

The Major Opportunities for Market Participants in the Global 5G Network Infrastructure Market include

Rise in government initiatives for building smart cities in Asia-Pacific

Smart cities are a next-generation technology breakthrough that is gaining traction around the world. Smart cities are technologically advanced because they are equipped with advanced technologies such as artificial intelligence (AI), the Internet of Things (IoT), augmented reality (AR/VR), and cloud computing, among others. Globally, the development of smart cities is projected to promote efficiency, sustainability, and citizen networking. Citizens increased desire for urbanization is driving demand for smart cities around the world.

5G technology has a big role to play in advancing smart technologies all over the world. Various industries and governments are enacting regulations and launching efforts to support the development of smart cities, particularly in developing regions like Asia-Pacific and Latin America and the Caribbean. Smart city operation and application, for example, involves the use of smart grids, smart infrastructure, smart monitoring systems, and smart devices, among other things, which is particularly advantageous in Asia-Pacific due to the presence of major manufacturing giants such as Hitachi, Fujitsu, Panasonic, and Sony.

Furthermore, China is likely to be the largest market for self-driving cars. As a result, smart technology growth in Asia-Pacific leads to the adoption of 5G networking and technology, which is predicted to create a profitable 5G infrastructure market opportunity internationally.

Potential Opportunity in Macro Cell segment

The macro cell market sector, which will earn $11,350 million in worldwide annual sales by 2023, will present the best chances in the 5G infrastructure equipment market split by communication infrastructure. Network function virtualization (NFV), which will acquire $8,957.5 million in global annual sales by 2023, will be the top opportunity in the 5G infrastructure equipment market classified by network technology.

To seize the opportunities, the business research firm advises 5G infrastructure equipment companies to focus on R&D, invest in network functions virtualization (NFV) technology, adopt fog computing, focus on merger activities, offer competitive pricing, expand in emerging markets, set up authorized distributors and sales representatives, leverage e-commerce to maximize reach and revenues, and partner with technology co-ops.

Increasing Number of Company Mergers will offer Lucrative Opportunities for Market Participants

Several factors have contributed to the overall market’s rise in recent years, according to the report. Because of the rising demand for the product, corporations are pursuing methods such as collaborations and mergers with other companies in the industry in order to develop a strong brand presence. Nokia Network announced in March 2020 that it had partnered with Intel Corporation to develop a new 5G radio and cloud infrastructure. Both companies clearly have a well-established consumer base and brand visibility on a worldwide scale. In terms of competition in the 5G infrastructure arena, this collaboration will be a statement of intent. The growing number of large-scale collaborations is one of the main reasons why this industry is expected to grow at an increasing rate in the future years.

Market Drivers

The Primary Factors driving the growth of the Global 5G Network Infrastructure Market are

Surging Machine-to-Machine/IoT Connections

Emerging applications and business models, together with lower device costs, have aided IoT adoption and, as a result, the number of linked devices – such as connected automobiles, machines, meters, wearables, and consumer electronics – greatly.

According to Ericsson, the 400 million IoT devices with cellular connections in 2016 are expected to grow to 1.5 billion by 2022, up from 400 million in 2016. Increased industrial attention on building a connected ecosystem and the standardization of 3GPP cellular IoT technologies are likely to support this strong growth.

Need for ultra-low latency

Advanced concepts such as the internet of things (IoT), connected gadgets, artificial intelligence, augmented and virtual reality, and others are being implemented at a rapid rate. However, due to the significant latency issue, industries are unable to fully leverage the promise of these technologies. 5G has ultra-low latency capabilities, allowing for a superior user experience. 5G’s reduced latency capabilities are increasing demand in mission-critical applications.

Telemedicine, where hospitals and healthcare providers may obtain real-time data without delay during a life-threatening emergency, could be one of the key applications of low latency. Because of this technology’s minimal latency, remote robotic surgeries are expected to become a reality in the near future. Similarly, 5G can assist firms in scaling up connected robotic workforces in the manufacturing industry. The efficiency of Industrial IoT devices and connected machinery is predicted to improve as a result of this.

With real-time data warnings, 5G is projected to improve assisted driving and transportation services. During aided driving, the system will provide data on traffic conditions as well as ensured safety. Furthermore, in virtual and augmented reality applications, minimal latency might be a game-changer. With its quick data transfer features, the technology is expected to give a very immersive experience to the user. This will almost certainly increase demand for this infrastructure.

Increase in Demand for Mobile Broadband Services in Europe

Mobile broadband subscriptions and services are rising at a rate of more than 20% each year. The increased adoption of broadband services in Europe is attributable to the telecom partners’ inexpensive costs and plans. Fast internet speeds (above 100 Mbps) are expected to be given to the majority of European countries as part of the Europe 2020 strategy. According to the policy, by 2020, roughly half of European households would have access to ultra-fast broadband.

Rising Adoption of 5G-Enabled Devices Driving Market

The 5G network was developed to meet the growing need for data and reliable connectivity. As the use of 5G-enabled smartphones and other devices grows, so does the demand for 5G subscriptions. According to research from Telefonaktiebolaget LM Ericsson, more than 10 million subscriptions are expected worldwide by the end of 2019, and several companies, including ZTE Corporation, are investing in the construction of 5G networks. These reasons suggest that the 5G infrastructure will expand significantly in the future years.

Market Restrain

The Major Factors Restraining the growth of the 5G Network Infrastructure Market are

Increasing Cybersecurity Threats

With the rapid deployment of 5G technology, the likelihood of cybersecurity threats are anticipated to increase. As the number of linked devices and machines grows, so will the number of cyber-attacks. In addition, unlike previous technologies, 5G provides a direct access to the cellular network, increasing the risk of a direct attack. Attackers can take advantage of security flaws to launch sophisticated attacks. As a result, as the adoption of 5G grows, so will the number of possible risks. This is anticipated to limit the expansion of the 5G infrastructure sector.

High cost of Investment

The high investment cost of 5G technology is expected to stifle market growth over the projection period. Massive infrastructure, including a wide range of towers and equipment, is required, resulting in a significant infrastructure cost. Furthermore, the reach of 5G networks in rural and underdeveloped areas is limited due to higher installation costs, which is expected to be one of the main barriers for the 5G technology industry.

Industry Challenges

The Key Challenges affecting the growth of the 5G Network Infrastructure Market include

Geopolitics Tensions

During the projection period, geopolitical tensions are projected to hamper the growth of the market for 5G infrastructure equipment. The recent escalation of tensions between India and China, the US-China trade war, which has been building since the COVID pandemic, and the volatility in UK-China relations have all increased limitations on the 5G infrastructure equipment market. Because of their political disputes with China, the United States and the United Kingdom, for example, have barred Huawei Technologies from increasing its geographical reach in the 5G infrastructure equipment market.

As a result, Huawei, which is the main supplier in the 5G industry, may lose its clout. These cross-border conflicts have an effect on market participants and, as a result, have a detrimental influence on the market.

Spectrum granularity limitations and radio-level resource sharing

Fixed network slices can be grown up by adding more hardware resources, however RAN slicing is difficult to scale up since it quickly runs into a physical constraint owing to spectrum scarcity. Individual slices can be assigned dedicated carriers to bypass this issue. The allotment of some carriers, on the other hand, would limit the network’s ability to reap multiplexing advantages through the scaled-up slice.

Lack of awareness

Companies are not using 5G Network Infrastructure owing to a lack of awareness, which is the main difficulty faced by business operators. Furthermore, 5G Network Infrastructure is used in conjunction with 5G technology, and because 5G networks offer wireless connectivity, RANs must be redesigned to support 5G Network Infrastructure, which is a tough task

Technology Trends

Some of the tectonic trends creating a shift in the 5G Network Infrastructure Market are

5G At the Edge 

It’s all about latency when it comes to 5G and edge computing. 5G promises to drive edge innovation by enabling new use cases, allowing for more data collecting and processing than ever before, while also providing businesses and organizations with a new connectivity choice.

Organizations will be able to outfit devices like smart cameras and sensors with increased data collection capabilities thanks to the combination of 5G and edge computing, resulting in more compute use cases at the edge. According to channel partners, this will result in more opportunities for solution providers to capture data at the edge.

The global edge computing market is expected to reach around $250 billion in 2024, according to research firm IDC, with a compound annual growth rate of 12.5 percent over the next four years. 5G technology is projected to be a driving force behind industry expansion.

5G’s Impact on IoT

Because of the latency and bandwidth enhancements that 5G can provide, IoT will continue to grow. Transportation, manufacturing, agricultural, and smart city use cases are among the IoT prospects that will benefit most from mobile and cellular connectivity. 5G might even make new and developing use cases and applications, such as linked autos, which demand lightning-fast, low-latency technology, a reality for the first time.

Aside from cutting-edge use cases, numerous businesses are in desperate need of extremely dependable low-latency wireless connectivity that can power apps as rapidly as feasible for their current IoT use cases.

5G And Security

The requirement for effective security will become even more crucial as the number of 5G deployments grows. Carriers like AT&T, Verizon, and T-Mobile have been beefing up their next-generation networks with more encryption and defenses at the network’s edge.

However, unlike earlier generations of cellular technology, 5G will be mostly a software-based network, making security a unique challenge. The IoT and smart city apps that will run on top of the 5G network will require additional levels of security to lock down the new devices and connections that will be joining the network.

Regulatory Trends

The Major Regulatory Trends on the 5G Network Infrastructure Market in Major economies across the world are

Regulatory Trends in USA

The FCC does not have any 5G-specific rules and is unlikely to adopt any. Its technical standards regulate power levels, interference, and other difficulties, but they don’t mandate the use of any specific protocol or standard on any commercially available frequency band.

Regulatory Trends in Europe

The Open Internet Regulation adheres to the notion of technological neutrality, and it appears to leave opportunity for 5G technologies like network slicing, 5QI, and Mobile Edge Computing to be implemented.

Because the Open Internet Regulation and the BEREC Guidelines are technologically neutral, they do not represent a prohibition on the use of any 5G technology. NRAs must consider the specific usage of 5G technologies, like any other network technology, on a case-by-case basis.

Regulatory Trends in China

China’s regulatory systems include the MII (Ministry of Information Industry), the Ministry of Science and Technology, the Beijing Municipal Government’s Science and Technology Commission, SARFT (State Administration of Radio, Film, and Television), and SASAC (State Administration of Radio, Film, and Television) (State-owned Assets Supervision and Administration Commission of the state council). When it comes to the fundamental interests of telecommunication infrastructure, the government intervenes in the free market in many countries. This is the only reason why the Chinese government has a robust system in place to monitor and manipulate the industry in all areas, including intellectual property protection, innovation, and asset value management. However, during the 5G launch phase, there was a power shift away from the government as the government has become liberal and supportive of the innovations in the 5G technology implementation in China.

Regulatory Trends in India

While there are no 5G network-specific standards, the Department of Transportation issued spectrum sharing guidelines in 2015 that apply to all bands. The following are the key features of the guidelines:

  • Only access service providers with CMTS, UASL, or UL with permission of Access Service in a service area, where both licensees have spectrum in the same band, are permitted to share spectrum.
  • When two TSPs use spectrum in the same band, spectrum sharing is allowed; however, it is not allowed when both licensees own spectrum in different bands. Spectrum leasing is not permitted.

Post COVID-19 Recovery

Increasing demand for broadband services with the help of mobile networking and rising remote access services in several industries such as IT, telecom, retail, and healthcare are likely to drive the worldwide 5G Network Infrastructure market during the COVID-19 pandemic. Furthermore, in the years 2020 and 2021, the adoption of wireless networking services will have a beneficial impact on the 5G Network Infrastructure market. Due to the limited availability of staff, organizations are largely reliant on net5works to manage the strain of client inquiries. These critical aspects demonstrate that 5G Network Infrastructure is expected to be in high demand during the COVID-19 health emergency.

Several 5G Network Infrastructure service providers, including Affirmed Networks and Telefonaktiebolaget LM Ericsson, are taking proactive steps to assist clients during the COVID-19 scenario. For example, Telefonaktiebolaget LM Ericsson declared in April 2020 that their personnel will work during the pandemic to provide the greatest network service possible because people are completely reliant on the network for jobs, access to important services, and staying socially connected. These major characteristics may have a beneficial impact on the 5G Network Infrastructure market under pandemic conditions and provide lucrative chances in the worldwide marketplace for the 5G Network Infrastructure business.

Market Size and Forecast

The global 5G infrastructure market generated roughly USD 760.5 million in sales in 2019, and is expected to expand at a 69.4% compound annual growth rate (CAGR) to USD 46,104.16 million by 2027.

The pandemic will have a detrimental impact on the market during the COVID era. In the projected years, rising infrastructure investment for 5G technology is expected to stymie the industry. Furthermore, the global 5G infrastructure market is expected to be driven by a rise in mobile data traffic.

Network Functions Virtualization (NFV) segment is expected to grow at fastest pace

As network providers can deploy Network Functions Virtualization (NFV) in different locations and there is no need to acquire dedicated or application-specific hardware devices to provide new services, the Network Functions Virtualization (NFV) segment is predicted to develop at the quickest rate. As a result of the move to software on standard servers, it lowers the overall cost of network equipment.

NFV attained a Market Share of 24% and it is poised to grow at a CAGR of 72% to reach a Market Size of USD 24,597.61 Mn in 2027 from a Market value of USD 182.95 Mn in 2020

Software Defined Networking dominates the Global 5G Network Infrastructure Market with a Market share of 42% and is projected to grow at a CAGR of 54.3% to reach a Market Size of USD 13,147.5 Mn in 2027 from a value of USD 319.4 Mn in 2020

Fog Computing holds a Market Share of 21% and is expected to grow at a CAGR of 62.1% to reach a Market Size of USD 11,065 Mn in 2027 from USD 159.7 Mn in 2020.

 Mobile Edge Computing attained a Market Share of 13% and Market Size of USD 98.8 Mn in 2020 and is anticipated to grow at a CAGR of 69.4% to reach a Market Size of USD 11,112.35 Mn in 2027.

Enterprise / Corporate segment to dominate the market with a revenue share exceeding 20.7%

With a sales share of more than 20.7 percent in 2020, the enterprise/corporate segment led the market. This is due to the rising demand for faster data bandwidth for use cases such as uninterrupted virtual meetings, seamless connectivity during cloud computing, and establishing a smart workplace by connecting IoT devices.

The demand for seamless connectivity for smart home applications, cloud-based Augmented Reality/Virtual Reality (AR/VR) games, and other consumer applications has prompted the building of 5G infrastructure. Over the forecast period, the industrial segment is expected to rise due to rising demand for continuous communication among industrial applications. Collaborative/cloud robotics, automated guided vehicles (AGVs), wireless cameras, and other industrial applications are among the most common.

Because of the urgent requirement to establish speedy contact with first responders during emergencies, the implementation of 5G infrastructure is rising across government and public safety facilities. The demand for next-generation high-speed networks is likely to increase as a result of the ongoing epidemic, particularly for healthcare applications. Even when the pandemic is contained, digital services such as telemedicine and remote patient monitoring will remain popular, assuring continued industry growth.

Due to the increased demand for high-speed internet access across energy generating and distribution applications, the energy and utilities sector is expected to grow dramatically. The increased demand for improved connectivity to ships, containers/vessels, and related infrastructure for effective monitoring from remote places is likely to accelerate the adoption of 5G technology and related infrastructure in the transportation and logistics industry.

SegmentMarket Size in 2020
Residential98.86
Enterprise / Corporate159.7
Smart City53.23
Industrial96.5
Energy & Utility49
Transportation & Logistics75.84
Public Safety and Government89.96
Healthcare Facilities64.38
Retail235.7
Agriculture18.9
Others12.1

Asia-Pacific 5G Network Infrastructure market is the fastest growing

The North American 5G Network Infrastructure market was worth USD 325 million in 2020 and is expected to be worth USD 18,262 million by 2027. The rapid adoption of new technologies, as well as acceptance of industrial IoT, agile networks, and smart connected devices in order to deploy 5G networks platforms for business processes, are driving the extensive growth of the North America 5G Network Infrastructure market. Furthermore, one of the key factors driving the growth of the North American 5G Network Infrastructure market is the strong presence of leading 5G Network Infrastructure solution providers.

Europe held a Market Share of 26% and is poised to reach a Market Size of USD 28373.6 Million in 2027 from a Market Size of USD 197.7 Million in 2020.

The Asia-Pacific 5G Network Infrastructure market is the fastest growing, with revenue expected to reach USD 14,145.3 million by 2027. The region’s rapidly increasing acceptance of cloud-based solutions and emerging technologies such as telecommunications, IoT, big data analytics, and mobility will drive market growth in the Asia-Pacific region. APAC is also one of the largest markets for connected devices. For example, in 2018, ZTE and China Mobile announced a collaboration on their 5G network architecture design concept and network slice system.

The Middle East & Africa registered a Market Share of 6% to reach a Market Size of USD 3746 Million in 2027 from a valuation of USD 39 Million in 2020.

Latin America generated revenues to the tune of USD 28.8 million in 2020 and is expected to reach a Market Size of UD 1511 million in 2026.

Market Outlook

The global 5G infrastructure market generated roughly USD 760.5 million in sales in 2019, and is expected to expand at a 69.4% compound annual growth rate (CAGR) to USD 46,104.16 million by 2027.

Due to the disruptions in future trials and testing required for certifying the stability and processing performance of 5G standalone networks, the emergence of COVID-19 is projected to delay the adoption of the 5G infrastructure. As a result of the ongoing pandemic, telecom regulatory authorities have postponed their plans for a 5G spectrum auction, putting the market’s growth at risk.

The presence of large manufacturers and carriers’ investments has lead to launch technology in this region, Europe is likely to account for a considerable percentage of worldwide demand in the 5G infrastructure market.

The European Commission and the European ICT sector have formed a joint venture to establish a public-private partnership (PPP) for 5G infrastructure, which will deliver solutions, architectures, technologies, and standards for the next generation. The goal is to conserve up to 90% of energy per service supplied, with a particular focus on mobile communication networks, since the radio access network consumes the majority of energy.

Germany and the United Kingdom are putting 5G technology to the test. Vodafone, for example, is testing 5G at the MediaCity UK digital hub in Salford and plans to expand its testing to Birmingham, Glasgow, Liverpool, Bristol, Cardiff, London, and Manchester.

Technology Roadmap

Network slicing is designed to provide service differentiation by definition.

In the 5G era, mobile services can be highly tailored to the level of specific applications and even industrial processes. These may necessitate critical levels of dependability and low latency. Regulations defining best effort mobile broadband may not have anticipated such applications. Operators must be able to define network slices to meet market demands and offer new services without fear of violating regulations.

Distribution Chain Analysis

There are five parts to the total value chain: 1) Devices 2) Network deployment and provisioning 3) Network management and operations 4) Application platform provisioning 5) Applications and monetization. With their function as network developers, CSPs generally occupy network sections 2 and 3 above. Reselling devices, provisioning platforms, providing security, and data monetization – a function we term the “service creator” has the potential to generate 43 % more revenue from the other elements.

Competitive Landscape

The 5G Infrastructure market is fragmented, with new product introductions and demonstrated outcomes for the most recent offerings. As a result, the main industry pioneers have employed a variety of techniques to increase their position in this market, including substantial R&D investments, new product releases, market efforts, agreements, joint ventures, mergers and acquisitions, partnerships, collaborations, and other strategies. Oracle Corporation, Cisco Systems Inc., and Intel Corporation are among the market’s major participants.

Key Market Developments

October 2020: Intel has increased its 5G network infrastructure hardware, software, and solution offerings.

April 2020: Ericsson and Erillisverkot Group have formed a cooperation to supply public-safety communication networks and hardware solutions for 5G core networks.

Competitive Factors

To acquire an early mover’s edge, key players are attempting to form strategic partnerships with service providers in order to create next-generation network infrastructure. For example, to install 5G RAN in China, China Mobile Limited has recently formed relationships with many important infrastructure suppliers, including Huawei Technologies Co., Ltd., ZTE Corporation, and Ericsson. China Mobile Limited awarded Huawei Technologies Co., Ltd. more than 55 percent of the overall contract value to deploy 5G base stations in China. Furthermore, China Mobile Limited plans to build nearly 300,000 5G facilities in China by 2020. In the aftermath of the ongoing pandemic, however, there has been a substantial drop in the deployment of 5G technology and related infrastructure around the world.

Leading infrastructure suppliers are aggressively pursuing key European countries to deploy their next-generation networks, with a particular emphasis on providing increased bandwidth capacity for public safety applications. For example, Ericsson and Erillisverkot Group, a Finland-based state government entity responsible for providing public-safety communication networks in the country, announced a cooperation in April 2020 to supply 5G core network hardware solutions for mission-critical applications. By the middle of 2021, this next-generation network should be up and running.

Key Market Players

Some of the key players operating in the 5G Network Infrastructure market are Telefonaktiebolaget LM Ericsson, Huawei Technologies Co. Ltd., Nokia Corporation, Intel Corporation, ZTE Corporation, Cisco Systems Inc., Samsung Electronics Co. Ltd., SK Telecom Co. Ltd., NTT DOCOMO Inc., Deutsche Telekom AG, and Telefonica SA.

Telefonaktiebolaget LM Ericsson (Ericsson) is a company that provides infrastructure, services, and software to the telecommunications and other industries. Networks, IT & Cloud, and Media are the business segments of the company. Networks is divided into two business units: Network Products and Network Services. The overall focus is on evolving and managing access networks, including the development of radio access and transport network hardware and software. The IT & Cloud business is divided into two divisions: IT & Cloud Products and IT & Cloud Services.

Huawei Technologies is a telecommunications solutions provider that provides infrastructure application software and devices based on wireline, wireless, and IP technologies. Products and solutions from the company have been deployed in over 100 countries, serving 45 of the world’s top 50 telecom operators as well as one-third of the world’s population. In the United States, Huawei Technologies is divided into three divisions: enterprise (IP networking and routers, wireless, storage, and data center security), carrier, and consumer devices (smartphones and tablets).

Nokia Oyj is a Finnish company that specializes in network and Internet protocol (IP) infrastructure, software, and related services. Nokia Networks and Nokia Technologies are two of the company’s businesses. Ultra-Broadband Networks, IP Networks and Applications, and Nokia Technologies are the company’s segments. The Ultra Broadband Networks segment includes the operating segments Mobile Networks and Fixed Networks. The IP Networks and Applications segment includes the operating segments IP/Optical Networks and Applications & Analytics.

Intel Corporation is a company that creates and manufactures products and technologies. Data Center Group (DCG), Internet of Things Group (IOTG), Mobileye, Non-Volatile Memory Solutions Group (NSG), and Programmable Solutions Group are the company’s segments (PSG). Data Center Group (DCG), Internet of Things Group (IOTG), Mobileye, Non-Volatile Memory Solutions Group (NSG), and Programmable Solutions Group are the company’s segments (PSG). DCG is a division that creates workload-optimization platforms for compute, storage, and network functions. The IOTG segment creates high-performance computer platforms that address technology and business use cases that can scale across vertical industries and embedded market. Mobileye segment provides driving assistance and self-driving solutions.

ZTE Corp is a Chinese company that primarily designs, develops, manufactures, distributes, and instals a variety of Information and Communication Technology (ICT)-related systems, equipment, and terminals. The Company primarily conducts business in three segments. The Network segment of Carriers primarily offers wireless network, wired network, core network, and telecommunication software systems and services, as well as other technologies and product solutions.

Cisco Systems, Inc. develops and sells a wide range of networking, security, collaboration, applications, and cloud technologies. It operates in three regions: the Americas, Europe, the Middle East, and Africa, and Asia Pacific, Japan, and China. Infrastructure platforms, applications, security, and other products are among its products and technologies. Infrastructure Platforms are the core networking technologies of switching, routing, data center products, and wireless that work together to deliver networking capabilities and transport and store data. The application product category consists primarily of software-related offerings that perform their functions on core networking and data center platforms.

Samsung Electronics Co Ltd is a Korean company that primarily manufactures and distributes electronic products. The Company’s operations are divided into four segments. Computers, handheld phones (HHPs), network systems, digital cameras, and other products are manufactured by the Information Technology & Mobile Communications (IM) segment.

SK Telecom Co Ltd is a Korean company that primarily provides wireless communication services. The business is divided into five segments by the company. Mobile phones, wireless data, and information communication services are offered by the Wireless Communication Business segment. Telephones, high-speed Internet, data, and network rental services are all available through the Wireline Communication Business segment.

Deutsche Telekom AG is a German firm that offers information technology (IT) and telecommunications services. Germany, which consists of fixed-network and mobile activities in Germany; the United States, which consists of mobile activities in the United States market; and Europe, which consists of fixed-network and mobile operations of national companies in various European countries such as Greece, Romania, Hungary, Poland, the Czech Republic, Croatia, Slovakia, Austria, and Albania. Systems Solutions, which operates information and communication technology (ICT) systems for multinational corporations and public sector institutions; Group Development, which includes T-Mobile Netherlands and Deutsche Funkturm (DFMG), as well as its equity investment in Stroeer SE & Co. KGaA; and Group Headquarters & Group Services, which includes service headquarters.

Telefonica, S.A. is a multinational telecommunications company with operations in Europe and Latin America. Mobile business, Fixed-line telephony business, and Digital services are among the services and products provided by the company. It provides a variety of mobile and related services and products to both personal and business customers. It provides traditional fixed telecommunications services, as well as Internet and broadband multimedia services, as well as data and business-solutions services. It provides a variety of digital services, including Internet of Things (IoT).

Strategic Conclusion

As the world moves toward the next generation of communication networks, new technology solutions, architectures, and standards are in high demand. This evolution of communication networks is expected to enable many compelling business and consumer use cases while also accelerating massive investment in network infrastructure, applications, and devices.

5G networks, the most recent next generation of wireless technologies, promise an era of ubiquitous, secure, and high-capacity radio networks. With extremely low latency levels, high energy efficiency, and a massive Gbps capacity, 5G technology’s applications extend far beyond traditional telecommunications. Self-driving cars, VR/AR, smart manufacturing, telehealth services, smart cities, and many other exciting 5G applications are on the horizon. To summarize, 5G Network Infrastructure offers operators the potential to fully differentiate themselves and seize new opportunities.

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  9. https://www.anritsu.com/en-in/test-measurement/news/news-releases/2021/2021-06-22-in01
  10. https://www.nokia.com/networks/insights/network-slicing-game-changer-for-operators-deploying-5g/
  11. https://blogs.cisco.com/tag/network-slicing
  12. https://www-file.huawei.com/-/media/corporate/pdf/news/5g-network-slicing-self-management-white-paper.pdf?la=en-ch
  13. https://www.mpirical.com/courses/5g-network-slicing
  14. https://www.fibocom.com/en/Whitepaper/5g-network-slicing-empowering-vertical-industries.html?id=2471
  15. https://www.telenor.com/media/public-policy/capturing-the-societal-benefits-of-5g/network-slicing-realising-the-benefits-of-5g-by-tailored-use-of-network-capabilities/
  16. https://www.juniper.net/content/dam/www/assets/executive-briefs/us/en/5g-network-slicing-how-to-secure-the-opportunity.pdf
  17. https://en.wikipedia.org/wiki/5G_network_slicing#Guaranteeing_QoS
  18. https://hsc.com/Resources/Blog/5G-Networks-The-evolution-and-trends-today
  19. https://www.ericsson.com/en/blog/2021/5/network-slicing-a-usd-200-billion-opportunity-for-csps
  20. https://www.verdict.co.uk/5g-technology-trends/
  21. https://www.sdxcentral.com/5g/definitions/5g-network-slicing/
  22. https://www.linkedin.com/pulse/5g-network-slicing-potential-vulnerability-alessandro-civati?trk=read_related_article-card_title
  23. https://cms.law/en/int/expert-guides/cms-expert-guide-to-5g-regulation-and-law/india
  24. https://cms.law/en/int/expert-guides/cms-expert-guide-to-5g-regulation-and-law/india#:~:text=While%20there%20are%20no%205G,spectrum%20sharing%20in%20all%20bands.&text=Spectrum%20sharing%20is%20permitted%20between,hold%20spectrum%20in%20different%20bands.
  25. https://www.hindawi.com/journals/misy/2017/2358618/
  26. https://cms.law/en/int/expert-guides/cms-expert-guide-to-5g-regulation-and-law/china
  27. https://berec.europa.eu/eng/open_internet/5g/
  28. https://transition.fcc.gov/bureaus/oet/tac/tacdocs/reports/2018/5G-Network-Slicing-Whitepaper-Finalv80.pdf
  29. https://research.aimultiple.com/iot-stats/

Further Reading

  1. https://www.gartner.com/en/newsroom/press-releases/2021-08-04-gartner-forecasts-worldwide-5g-network-infrastrucutre-revenue-to-grow-39pc-in-2021
  2. https://www.rohde-schwarz.com/in/solutions/test-and-measurement/wireless-communication/mobile-network-infrastructure-testing/mobile-network-infrastructure-testing_253912.html?cid=010_com_sea_140_google_21-10_i_5g-testing-generic_5g_search_text-ad_in___

Appendix

  1. SDN – Software-Defined Networking
  2. NFV – Network Functions Virtualization
  3. OPEX – Operating Expenses
  4. CAPEX – Capital Expenditures
  5. QoS – Quality of Service
  6. AR – Augmented Reality
  7. VR – Virtual Reality
  8. AI – Artificial Intelligence
  9. FCC – Federal Communication Commission
  10. VNO – Virtual Network Operators
  11. IoT – Internet of Things

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