23rd October 2023: SNS Telecom & IT's latest research report indicates that annual spending on 5G NR and LTE-based small cell RAN (Radio Access Network) equipment operating in shared and unlicensed spectrum will account for nearly $3 Billion by the end of 2026.

As the 5G era advances, the cellular communications industry is undergoing a revolutionary paradigm shift, driven by technological innovations, liberal regulatory policies and disruptive business models. One important aspect of this radical transformation is the growing adoption of shared and unlicensed spectrum – frequencies that are not exclusively licensed to a single mobile operator. 

Telecommunications regulatory authorities across the globe have either launched or are in the process of releasing innovative frameworks to facilitate the coordinated sharing of licensed spectrum. Examples include but are not limited to the three-tiered CBRS (Citizens Broadband Radio Service) spectrum sharing scheme in the United States, Germany's 3.7-3.8 GHz and 28 GHz licenses for 5G campus networks, United Kingdom's shared and local access licensing model, France's vertical spectrum and sub-letting arrangements, Netherlands' geographically restricted mid-band spectrum assignments, Switzerland's 3.4 – 3.5 GHz band for NPNs (Non-Public Networks), Finland's 2.3 GHz and 26 GHz licenses for local 4G/5G networks, Sweden's 3.7 GHz and 26 GHz permits, Norway's regulation of local networks in the 3.8-4.2 GHz band, Poland's spectrum assignment for local government units and enterprises, Bahrain's private 5G network licenses, Japan's 4.6-4.9 GHz and 28 GHz local 5G network licenses, South Korea's e-Um 5G allocations in the 4.7 GHz and 28 GHz bands, Taiwan's provision of 4.8-4.9 GHz spectrum for private 5G networks, Hong Kong's LWBS (Localized Wireless Broadband System) licenses, Australia's apparatus licensing approach, Canada's planned NCL (Non-Competitive Local) licensing framework and Brazil's SLP (Private Limited Service) licenses.

Another important development is the growing accessibility of independent cellular networks that operate solely in unlicensed spectrum by leveraging nationally designated license-exempt frequencies such as the GAA (General Authorized Access) tier of the 3.5 GHz CBRS band in the United States and Japan's 1.9 GHz sXGP (Shared Extended Global Platform) band. In addition, vast swaths of globally and regionally harmonized license-exempt spectrum – most notably, the 600 MHz TVWS (TV White Space), 5 GHz, 6 GHz and 60 GHz bands – are also available worldwide, which can be used for the operation of unlicensed LTE and 5G NR-U (NR in Unlicensed Spectrum) equipment subject to domestic regulations.

Collectively, ground-breaking spectrum liberalization initiatives are catalyzing the rollout of shared and unlicensed spectrum-enabled LTE and 5G NR networks for a diverse array of use cases – ranging from mobile network densification, FWA (Fixed Wireless Access) in rural communities and MVNO (Mobile Virtual Network Operator) offload to neutral host infrastructure and private cellular networks for enterprises and vertical industries such as agriculture, education, healthcare, manufacturing, military, mining, oil and gas, public sector, retail and hospitality, sports, transportation and utilities.  

SNS Telecom & IT estimates that global investments in 5G NR and LTE-based RAN infrastructure operating in shared and unlicensed spectrum will account for more than $1.4 Billion by the end of 2023. The market is expected to continue its upward trajectory beyond 2023, growing at a CAGR of approximately 27% between 2023 and 2026 to reach nearly $3 Billion in annual spending by 2026.

The “Shared & Unlicensed Spectrum LTE/5G Network Ecosystem: 2023 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents a detailed assessment of the shared and unlicensed spectrum LTE/5G network ecosystem, including the value chain, market drivers, barriers to uptake, enabling technologies, key trends, future roadmap, business models, use cases, application scenarios, standardization, spectrum availability and allocation, regulatory landscape, case studies, ecosystem player profiles and strategies. The report also provides global and regional forecasts for shared and unlicensed spectrum LTE/5G RAN infrastructure from 2023 to 2030. The forecasts cover two air interface technologies, two cell type categories, two spectrum licensing models, 15 frequency bands, seven use cases and five regional markets.   

The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report.

The report will be of value to current and future potential investors into the shared and unlicensed spectrum LTE/5G network market, as well as LTE/5G equipment suppliers, system integrators, mobile operators, MVNOs, fixed-line service providers, neutral hosts, private network operators, vertical domain specialists and other ecosystem players who wish to broaden their knowledge of the ecosystem.

The report has the following key findings:

• SNS Telecom & IT estimates that global investments in LTE and 5G NR-based RAN infrastructure operating in shared and unlicensed spectrum will account for more than $1.4 Billion by the end of 2023. The market is expected to continue its upward trajectory beyond 2023, growing at a CAGR of approximately 27% between 2023 and 2026 to reach nearly $3 Billion in annual spending by 2026.

• Breaking away from traditional practices of spectrum assignment for mobile services that predominantly focused on exclusive-use national licenses, telecommunications regulatory authorities across the globe have either launched or are in the process of releasing innovative frameworks to facilitate the coordinated sharing of licensed spectrum. Examples include but are not limited to:

  • • The three-tiered CBRS spectrum sharing scheme in the United States

    • Germany's 3.7-3.8 GHz and 28 GHz licenses for 5G campus networks

    • United Kingdom's shared and local access licensing model

    • France's vertical spectrum and sub-letting arrangements

    • Netherlands' geographically restricted mid-band spectrum assignments

    • Switzerland's 3.4 – 3.5 GHz band for NPNs (Non-Public Networks)

    • Finland's 2.3 GHz and 26 GHz licenses for local 4G/5G networks

    • Sweden's 3.7 GHz and 26 GHz permits, Norway's regulation of local networks in the 3.8-4.2 GHz band

    • Poland's spectrum assignment for local government units and enterprises

    • Bahrain's private 5G network licenses

    • Japan's 4.6-4.9 GHz and 28 GHz local 5G network licenses

    • South Korea's e-Um 5G allocations in the 4.7 GHz and 28 GHz bands

    • Taiwan's provision of 4.8-4.9 GHz spectrum for private 5G networks

    • Hong Kong's LWBS (Localized Wireless Broadband System) licenses

    • Australia's apparatus licensing approach

    • Canada's planned NCL (Non-Competitive Local) licensing framework

    • Brazil's SLP (Private Limited Service) licenses

• Another important development is the growing accessibility of independent cellular networks that operate solely in unlicensed spectrum by leveraging nationally designated license-exempt frequencies such as the GAA tier of the 3.5 GHz CBRS band in the United States and Japan's 1.9 GHz sXGP band. In addition, vast swaths of globally and regionally harmonized license-exempt spectrum – most notably, the 600 MHz TVWS, 5 GHz, 6 GHz and 60 GHz bands – are also available worldwide, which can be used for the operation of unlicensed LTE and 5G NR-U (NR in Unlicensed Spectrum) equipment subject to domestic regulations.

• Collectively, ground-breaking spectrum liberalization initiatives are catalyzing the rollout of shared and unlicensed spectrum-enabled LTE and 5G NR networks for a diverse array of use cases – ranging from mobile network densification, FWA in rural communities and MVNO offload to neutral host infrastructure and private cellular networks for enterprises and vertical industries such as agriculture, education, healthcare, manufacturing, military, mining, oil and gas, public sector, retail and hospitality, sports, transportation and utilities.  

• In particular, private LTE and 5G networks operating in shared spectrum are becoming an increasingly common theme. Hundreds of local and priority access licenses – predominantly in mid-band spectrum – have been issued in the United States, Germany, United Kingdom, France, Finland, Sweden, Japan, South Korea, Taiwan and other pioneering markets to facilitate the operation of purpose-built wireless networks based on 3GPP standards.

• Airbus, ArcelorMittal, Bayer, BBC (British Broadcasting Corporation), BMW, Bosch, Dow, EDF, Ferrovial, Groupe ADP, Holmen Iggesund, Hoban Construction, Hsinchu City Fire Department, Inventec, John Deere, KEPCO (Korea Electric Power Corporation), Lufthansa, Mercedes-Benz, Mitsubishi, NAVER, NFL (National Football League), Osaka Gas, Ricoh, SDG&E (San Diego Gas & Electric), Siemens, SVT (Sveriges Television), Tesla, Toyota, Volkswagen, X Shore and the U.S. military are just a few of the many end user organizations investing in shared spectrum-enabled private cellular networks.

• In some national markets, neutral host solutions based on shared spectrum small cells are being employed as a cost-effective means of coverage enhancement inside office spaces, public venues and other indoor environments. One prominent example is social media and technology giant Meta's in-building wireless network that uses small cells operating in the GAA tier of CBRS spectrum and MOCN (Multi-Operator Core Network) technology to provide multi-operator cellular coverage at its properties in the United States.

• Although the uptake of 5G NR equipment operating in high-band mmWave (Millimeter Wave) frequencies has been slower than initially anticipated, practical cases of 5G networks based on locally licensed 26/28 GHz spectrum are steadily piling up in multiple national markets – examples range from private 5G installations at HKIA (Hong Kong International Airport), SMC (Samsung Medical Center) and various manufacturing facilities to Japanese cable TV operator-led deployments of 28 GHz local 5G networks.

• The very first deployments of 5G NR-U technology are also beginning to emerge. For example, the SGCC (State Grid Corporation of China) has deployed a private NR-U network – operating in license-exempt Band n46 (5.8 GHz) spectrum – to support video surveillance, mobile inspection robots and other 5G-connected applications at its Lanzhou East and Mogao substations in China's Gansu province. In the coming years, with the technology's commercial maturity, we also anticipate seeing NR-U deployments in Band n96 (6 GHz) and Band n263 (60 GHz) for both licensed assisted and standalone modes of operation.

For further information concerning the SNS Telecom & IT publication “The Shared & Unlicensed Spectrum LTE/5G Network Ecosystem: 2023 – 2030 – Opportunities, Challenges, Strategies & Forecasts” please visit: https://www.snstelecom.com/shared-spectrum

For a sample please contact: info@snstelecom.com

Notes for Editors

If you are interested in a more detailed overview of this report, please send an e-mail to info@snstelecom.com

About SNS Telecom & IT

Part of the SNS Worldwide group, SNS Telecom & IT is a global market intelligence and consulting firm with a primary focus on the telecommunications and information technology industries. Developed by in-house subject matter experts, our market intelligence and research reports provide unique insights on both established and emerging technologies. Our areas of coverage include but are not limited to 5G, LTE, Open RAN, private cellular networks, IoT (Internet of Things), critical communications, big data, smart cities, smart homes, consumer electronics, wearable technologies, and vertical applications.