5th generation wireless systems, abbreviated 5G, are improved wireless network technologies deploying in 2018 and later. The primary technologies include: Millimeter wave bands (26, 28, 38, and 60 GHz) offer performance as high as 20 gigabits per second; Massive MIMO (Multiple Input Multiple Output - 64-256 antennas) offers performance "up to ten times current 4G networks;" "Low-band 5G" and "Mid-band 5G" use frequencies from 600 MHz to 6 GHz, especially 3.5-4.2 GHz.
E2E network slicing is a foundation to support diversified 5G services and is key to 5G network architecture evolution. Based on NFV and SDN, physical infrastructure of the future network architecture consists of sites and three-layer DCs. Sites support multiple modes (such as 5G, LTE, and Wi-Fi) in the form of macro, micro, and pico base stations to implement the RAN real time function. These functions have high requirements for computing capability and real time performance and require the inclusion of specific dedicated hardware. Threelayer cloud DC consists of computing and storage resources. The bottom layer is the central office DC, which is closest in relative proximity to the base station side. The second layer is the local DC, and the upper layer is the regional DC, with each layer of arranged DCs connected through transport networks.
According to diversified service requirements, networks generate corresponding network topologies and a series of network function sets (network slices) for each corresponding service type using NFV on a unified physical infrastructure. Each network slice is derived from a unified physical network infrastructure, which greatly reduces subsequent operators' network construction costs. Network slices feature a logical arrangement and are separated as individual structures, which allows for heavily customizable service functions and independent O&M.
Scope of the Report:The Wireless Infrastructure market is currently in a phase of transition as mobile operators seek to address increasing mobile traffic demands amidst economic uncertainties. This paradigm shift is bringing new challenges and opportunities to 5G infrastructure vendors.
The growth of the 5G infrastructure market in North America is likely to be propelled by the growing demand for 5G-enabled consumer electronic devices such as smartphones, AR and VR devices, and tablets. Faster connectivity is the most critical requirement for these devices. In North America, the industry segment adopted the high-level automation with the implementation of advanced technologies such as machine-to-machine communication (M2M), Internet of Things (IoT), and robotics. For these technologies, high-speed data transfer rate is required to carry out the assigned tasks. In such cases, 5G-enabled data network will serve the purpose. However, companies face major technological design challenges such as power dissipation in massive multiple input and multiple output (MIMO) and inter-cell interference.
The global 5G Infrastructure market is valued at xx million USD in 2018 and is expected to reach xx million USD by the end of 2026, growing at a CAGR of xx% between 2020 and 2026.
The Asia-Pacific will occupy for more market share in following years, especially in China, also fast growing India and Southeast Asia regions.
North America, especially The United States, will still play an important role which cannot be ignored. Any changes from United States might affect the development trend of 5G Infrastructure.
Europe also play important roles in global market, with market size of xx million USD in 2020 and will be xx million USD in 2026, with a CAGR of xx%.
This report studies the 5G Infrastructure market status and outlook of Global and major regions, from angles of players, countries, product types and end industries; this report analyzes the top players in global market, and splits the 5G Infrastructure market by product type and applications/end industries.
Market Segment by Companies, this report covers Qualcomm (US)
Intel (US)
Ericsson (SE)
Samsung (KR)
NEC (JP)
Mediatek (TW)
Cisco (US)
Cavium (US)
Qorvo (US)
Huawei (CN)
Market Segment by Regions, regional analysis covers North America (United States, Canada and Mexico)
Europe (Germany, France, UK, Russia and Italy)
Asia-Pacific (China, Japan, Korea, India and Southeast Asia)
South America (Brazil, Argentina, Colombia)
Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)
Market Segment by Type, covers Femtocell
Pico Cell
Micro Cell
Macro Cell
Market Segment by Applications, can be divided into Smart Home
Autonomous Driving
Smart Cities
Industrial IoT
Smart Farming
Healthcare and Mission Critical Applications
Logistics and Shipping
Security and Surveilance
Frequently Asked Questions
The base year for the study has been considered 2019, historic year 2014 and 2018, the forecast period considered is from 2020 to 2027. The regions analyzed for the market include North America, Europe, South America, Asia Pacific, and Middle East and Africa. These regions are further analyzed at the country-level. The study also includes attractiveness analysis of type, application and regions which are benchmarked based on their market size, growth rate and attractiveness in terms of present and future opportunity for understanding the future growth of the market.
Market is segmented on the basis:
- By Type
- By Application
- By Region
- By Country
- By Manufacturer
The report offers in-depth analysis of driving factors, opportunities, restraints, and challenges for gaining the key insight of the market. The report emphasizes on all the key trends that play a vital role in the enlargement of the market from 2019 to 2026.
The report provides company profile of the key players operating in the market and a comparative analysis based on their business overviews industry offering, segment market share, regional presence, business strategies, innovations, mergers & acquisitions, recent developments, joint venture, collaborations, partnerships, SWOT analysis, and key financial information.