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LTE & 5G NR-Based CBRS Networks: 2024 - 2030 Opportunities, Challenges, Strategies & Forecasts

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    Report

  • 557 Pages
  • November 2024
  • Region: Global
  • SNS Telecom & IT
  • ID: 5205066
UP TO OFF until Dec 31st 2024

After many years of regulatory, standardization and technical implementation activities, the United States' dynamic, three-tiered, hierarchical framework for coordinated shared use of 150 MHz of spectrum in the 3.5 GHz CBRS (Citizens Broadband Radio Service) band is experiencing a renewed wave of enthusiasm. This reinvigoration of interest follows a recent relaxation of rules and guidelines - collectively referred to as CBRS 2.0 - which extends uninterrupted commercial operations in the CBRS band from 78% to 97% of the country's total landmass, among other refinements.

Complementing these initiatives are new FCC (Federal Communications Commission) proposals aimed at fostering innovation and continued growth of CBRS networks through additional changes to the spectrum sharing framework, ranging from higher transmit power levels to interference protection for critical private network users in indoor facilities.

Although the shared spectrum arrangement is access technology neutral, the 3GPP cellular wireless ecosystem is at the forefront of CBRS adoption, with close to half of the more than 400,000 active CBSDs (Citizens Broadband Radio Service Devices) based on LTE and 5G NR air interface technologies. The rest of the market comprises fixed wireless broadband networks built using non-3GPP equipment supplied by the likes of Cambium Networks and Tarana Wireless.

LTE-based CBRS deployments encompass hundreds of networks - operating in both GAA (General Authorized Access) and PAL (Priority Access License) spectrum tiers - to support use cases as diverse as mobile network densification, FWA (Fixed Wireless Access) in rural communities, MVNO (Mobile Virtual Network Operator) offload and private cellular networks in support of IIoT (Industrial IoT), distance learning and smart city initiatives.

Additionally, there has been a surge in the adoption of CBRS small cells as a cost-effective alternative to DAS (Distributed Antenna Systems) for delivering neutral host public cellular coverage in carpeted enterprise spaces, public venues, hospitals, hotels, higher education campuses and schools. Some examples of LTE-based CBRS networks supporting neutral host connectivity to one or more national mobile operators include Meta's corporate offices, City of Hope Hospital, Stanford Health Care, Sound Hotel, Gale South Beach Hotel, Nobu Hotel, Arizona State University, Cal Poly, University of Virginia, Duke University and Parkside Elementary School.

Also well underway are commercial rollouts of 5G NR network equipment operating in the CBRS band, which are laying the foundation for advanced application scenarios with more demanding performance requirements in terms of throughput, latency, reliability, availability and connection density - for example, Industry 4.0 applications such as connected production machinery, mobile robotics, AGVs (Automated Guided Vehicles) and AR (Augmented Reality)-assisted troubleshooting. 5G NR-based CBRS network installations range from private 5G projects at the manufacturing and logistics facilities of Tesla, Toyota Material Handling, BMW Group, John Deere, LG Electronics and Walmart to Comcast's and Charter's ongoing 5G RAN (Radio Access Network) buildouts based on strand-mounted CBRS radios.

The analyst estimates that annual investments in LTE and 5G NR-based CBRS RAN, mobile core and transport network infrastructure will grow at a CAGR of approximately 15% between 2024 and 2027 to surpass $1.3 Billion by the end of 2027. Much of this growth will be driven by private cellular, neutral host and fixed wireless broadband network deployments, followed by a slow but steady expansion of investments in 5G buildouts aimed at improving the economics of cable operators' MVNO services. Complemented by an ever expanding selection of 3GPP Band 48/n48-compatible terminal equipment, the market size for end user devices is even bigger, with unit shipments of IIoT and FWA devices projected to account for $2.4 Billion in annual sales by 2027.

The “LTE & 5G NR-Based CBRS Networks: 2024 - 2030 - Opportunities, Challenges, Strategies & Forecasts” report presents a detailed assessment of the market for LTE and 5G NR in CBRS spectrum, including the value chain, market drivers, barriers to uptake, enabling technologies, key trends, future roadmap, business models, use cases, application scenarios, standardization, regulatory landscape, case studies, ecosystem player profiles and strategies.

The report also provides forecasts for LTE and 5G NR-based CBRS network infrastructure and terminal equipment from 2024 to 2030. The forecasts cover three infrastructure submarkets, two air interface technologies, two cell type categories, five device form factors, seven use cases and 11 vertical industries.

The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report, as well as a database of over 1,000 LTE/5G NR-based CBRS network engagements - as of Q4’2024.

Key Findings:

  • The analyst estimates that annual investments in LTE and 5G NR-based CBRS RAN, mobile core and transport network infrastructure will grow at a CAGR of approximately 15% between 2024 and 2027 to surpass $1.3 Billion by the end of 2027.
  • Complemented by an ever expanding selection of 3GPP Band 48/n48-compatible terminal equipment, the market size for end user devices is even bigger, with unit shipments of IIoT and FWA devices projected to account for $2.4 Billion in annual sales by 2027.
  • LTE-based CBRS deployments encompass hundreds of networks supporting use cases as diverse as mobile network densification, fixed wireless broadband in rural communities, MVNO offload and private cellular networks for vertical industries and enterprises.
  • Additionally, there has been a surge in the adoption of CBRS small cells as a cost-effective alternative to DAS for delivering neutral host public cellular coverage in carpeted enterprise spaces, public venues, hospitals, hotels, higher education campuses and schools.
  • Some examples of LTE-based CBRS networks supporting neutral host connectivity include Meta's corporate offices, City of Hope Hospital, Stanford Health Care, Sound Hotel, Gale South Beach Hotel, Nobu Hotel, Arizona State University, Cal Poly, University of Virginia, Duke University and Parkside Elementary School.
  • Also well underway are commercial rollouts of 5G NR network equipment operating in the CBRS band, which are laying the foundation for advanced application scenarios with more demanding performance requirements in terms of throughput, latency, reliability, availability and connection density.
  • 5G NR-based CBRS network installations range from private 5G projects at the manufacturing and logistics facilities of Tesla, Toyota Material Handling, BMW Group, John Deere, LG Electronics and Walmart to Comcast's and Charter's ongoing 5G RAN buildouts based on strand-mounted CBRS radios.
  • By eliminating the entry barriers associated with exclusive-use licensed spectrum, CBRS has spurred the entry of many new players in the cellular industry - particularly neutral host and private 4G/5G solution specialists such as Ataya, Ballast Networks, Bloxtel, Celona, GXC, Highway9 Networks, InfiniG, Kajeet, MosoLabs and Pente Networks.

Summary of CBRS Network Deployments

Summarized below is a review of LTE and 5G NR-based CBRS network across the United States and its territories:

  • Mobile Network Densification: Verizon has rolled out CBRS spectrum across thousands of cell sites in select markets, although these investments have been dwarfed by its more extensive C-band 5G buildout. Claro Puerto Rico and several other mobile operators are also using CBRS to expand the capacity of their networks in high-traffic density environments.
  • Fixed Wireless Broadband Services: Frontier Communications, local2u, Mediacom, Midco, Nextlink Internet, Mercury Broadband, Surf Internet, Cal.net, IGL TeleConnect, OhioTT and MetaLINK are some of the many WISPs that have deployed 3GPP-based CBRS networks for fixed wireless broadband services in rural and underserved markets with limited high-speed internet options.
  • Mobile Networks for New Entrants: Comcast and Charter Communications are leveraging their licensed CBRS spectrum holdings to install 5G RAN infrastructure for targeted wireless coverage in strategic locations where subscriber density and data consumption is highest. The slow but steady CBRS network buildouts are aimed at improving the economics of the cable operators' MVNO services by offloading a larger proportion of mobile data traffic from host networks.
  • Neutral Host Networks: Among other examples, Meta's corporate offices, City of Hope Hospital, Stanford Health Care, Sound Hotel, Gale South Beach Hotel, Nobu Hotel, Arizona State University, Cal Poly, University of Virginia, Duke University and Parkside Elementary School are using CBRS small cells and MOCN (Multi-Operator Core Network) technology for neutral host connectivity to one or more national mobile operators.
  • Private Cellular Networks: The availability of CBRS spectrum is accelerating private LTE and 5G network deployments across a multitude of vertical industries and application scenarios, extending from localized wireless systems for geographically limited coverage in factories, warehouses, airports, rail yards, maritime terminals, medical facilities, office buildings, sports venues, military bases and university campuses to municipal networks for community broadband, distance learning and smart city initiatives. Some notable examples of recent and ongoing deployments are listed below:
    • Education: Higher education institutes are at the forefront of hosting on-premise LTE and 5G networks in campus environments. Texas A&M University, Johns Hopkins University, Ohio State University, Duke University, Purdue University, Virginia Tech, University of Nebraska-Lincoln, University of Wisconsin-Milwaukee, University of New Mexico, Howard University, West Chester University and Stanislaus State are among the many universities that have deployed cellular networks for experimental research or smart campus-related applications. Another prevalent theme in the education sector is the growing number of private LTE networks aimed at eliminating the digital divide for remote learning in school districts throughout the United States.
    • Governments & Municipalities: The City of Brownsville, Texas, has recently awarded a multi-year, $4 Million contract to NTT DATA to install, manage and operate a private 5G network for smart city applications, such as public safety monitoring in city parks. Local authorities in Las Vegas, Nevada; Tucson and Glendale, Arizona; Santa Maria, California; Longmont, Colorado; Shreveport, Louisiana; Montgomery, Alabama; Dublin, Ohio; and several other municipalities have also deployed their own private wireless networks using CBRS spectrum.
    • Healthcare: During the height of the COVID-19 pandemic, regional healthcare provider Geisinger took advantage of CBRS spectrum to deploy a private LTE network for telemedicine services in rural Pennsylvania, while Memorial Health System utilized a temporary CBRS network to provide wireless connectivity for frontline staff and medical equipment in COVID-19 triage tents and testing facilities at its Springfield, Illinois, hospital. Since then, Stanford Health Care, VA Puget Sound Health Care System and other healthcare providers have begun investing in CBRS-enabled private wireless networks on a more permanent basis to facilitate secure and reliable communications for critical care, patient monitoring and back office systems in hospital campuses and other medical settings.
    • Manufacturing: Toyota Material Handling has implemented a private 5G network for Industry 4.0 applications at its Columbus production complex in Indiana. Similarly, German automotive giant BMW has deployed an industrial-grade 5G network to support autonomous logistics at its Spartanburg plant in South Carolina. Rival automaker Tesla is also migrating PROFINET/PROFIsafe-based AGV communications from Wi-Fi to private 5G networks at its factories. Agricultural equipment manufacturer John Deere has installed private cellular infrastructure at 12 of its production facilities, while CPChem (Chevron Phillips Chemical) has implemented LTE and 5G-ready private networks for eight Texas sites. Dow, another prominent name in the U.S. manufacturing sector, has adopted a private LTE network to modernize plant maintenance at its Freeport chemical complex in Texas. LyondellBasell, Hyster-Yale, LG Electronics, FII (Foxconn Industrial Internet), Del Conca USA, Standard Steel, Logan Aluminum, OCI Global, Schneider Electric, Bosch Rexroth, CommScope, Ericsson, Hitachi and many other manufacturers are also integrating private 4G/5G connectivity into their production operations.
    • Military: All branches of the U.S. military are actively investing in private cellular networks. Examples extend from JMA Wireless' Open RAN-compliant nomadic 5G network solution for deployable frontline operations to the U.S. Navy's standalone private 5G networks at NAS (Naval Air Station) Whidbey Island in Island County, Washington, and JBPHH (Joint Base Pearl Harbor-Hickam), Hawaii. Operating in DISH Network's licensed 600 MHz and CBRS spectrum, the Whidbey Island network delivers wireless coverage across a geographic footprint of several acres to support a wide array of applications for advanced base operations, equipment maintenance and flight line management. The smaller network in Hawaii is a self-contained and transportable 5G system for tactical communications.
    • Mining: Compass Minerals, Albemarle, Newmont and a number of other companies have deployed 3GPP-based private wireless networks for the digitization and automation of their mining operations. Pronto's off-road AHS (Autonomous Haulage System) integrates private cellular technology to support the operation of driverless trucks in remote mining environments that lack coverage from traditional mobile operators.
    • Oil & Gas: Having acquired 26 licenses in 21 counties in the CBRS PAL auction, Chevron is deploying private cellular infrastructure to enhance connectivity at its remote exploration and production operations, in addition to the implementation of private LTE/5G-ready networks at its affiliate CPChem's plants, as noted earlier. Up to 60% of the oil's giant's operational areas have no coverage from public mobile operators. Cameron LNG, EOG Resources, Pioneer Natural Resources and Oxy (Occidental Petroleum Corporation) are also engaged in efforts to integrate LTE and 5G NR-based CBRS network equipment into their private communications systems.
    • Retail & Hospitality: Private cellular networks have been installed to enhance guest connectivity and internal operations in a host of hotels and resorts, including the Sound Hotel in Seattle, Washington; Nobu Hotel in Las Vegas, Nevada; and Gale South Beach Hotel, Gale Hotel & Residences, Faena Hotel and Caribe Royale Resort in Florida. The American Dream retail and entertainment complex in East Rutherford, New Jersey; regional shopping mall Southlands in Aurora, Colorado; and Miracle Mile Shops in Las Vegas, Nevada, are notable examples of early adopters in the retail segment.
    • Sports: Sports leagues such as the NFL (National Football League), PGA Tour, Disc Golf Pro Tour, ARA (American Rally Association) and Formula DRIFT are utilizing CBRS spectrum and private wireless technology for live broadcasting, enhanced fan engagement and gameplay operations. ASM Global, HSG (Haslam Sports Group), SS&E (Spurs Sports & Entertainment) and other venue owners have also installed 3GPP-based private wireless infrastructure at stadiums, arenas and other sports facilities for applications such as mobile ticket scanning, automated turnstiles, POS (Point-of-Sale) systems, digital signage, immersive experiences, video surveillance, crowd management and smart parking.
    • Transportation: Private cellular networks have been deployed or are being trialed at some of the busiest international and domestic airports, including Chicago O'Hare, Newark Liberty, DFW (Dallas Fort Worth), Dallas Love Field, MIA (Miami International Airport) and MSP (Minneapolis-St. Paul), as well as inland and maritime ports. Other examples in the transportation segment range from on-premise 4G/5G networks at Walmart’s and Amazon's distribution and fulfilment centers to freight railroad operator Norfolk Southern’s private LTE network for rail yard workers at its outdoor rail switching facilities.
    • Utilities: Major utility companies spent nearly $200 Million in the CBRS PAL auction to acquire licenses within their service territories. Southern Linc, SDG&E (San Diego Gas & Electric), SCE (Southern California Edison) and Hawaiian Electric are using their licensed spectrum holdings to deploy 3GPP-based FANs (Field Area Networks) in support of grid modernization programs while Duke Energy has installed a private LTE network operating in the unlicensed GAA tier of CBRS spectrum. Among other examples, Enel has deployed a CBRS network for business-critical applications at a remote solar power plant.
    • Other Verticals: LTE and 5G NR-ready CBRS networks have also been deployed in other vertical sectors, including agriculture, arts and culture, construction and forestry. In addition, CBRS networks for indoor wireless coverage enhancement and smart building applications are also starting to be implemented in office environments, corporate campuses and residential buildings. Prominent examples include the Cabana Happy Valley residential complex in Phoenix (Arizona) and Rudin Management Company's 345 Park Avenue multi-tenant commercial office building in New York City.

Topics Covered:

  • Introduction to LTE and 5G NR-based CBRS networks
  • Value chain and ecosystem structure
  • Market drivers and challenges
  • Technical aspects, including CBRS spectrum sharing rules, system architecture, functional elements, core network integration and security
  • Key trends such as the growing prevalence of private cellular networks in industrial and enterprise settings, neutral host small cells, 3GPP-based fixed wireless broadband rollouts, MVNO offload and mobile network densification
  • Business models, use cases and application scenarios
  • Future roadmap of LTE and 5G NR in CBRS spectrum
  • Standardization, regulatory and collaborative initiatives
  • 50 case studies of LTE and 5G NR-based CBRS network deployments
  • Database tracking more than 1,000 CBRS network engagements
  • Profiles and strategies of over 300 ecosystem players
  • Strategic recommendations for LTE and 5G NR equipment suppliers, system integrators, service providers, enterprises and vertical industries
  • Market analysis and forecasts from 2024 to 2030

Forecast Segmentation

Market forecasts are provided for each of the submarkets and their subcategories:

  • CBRS Network Infrastructure
    • Infrastructure Submarkets
      • RAN (Radio Access Network)
      • Mobile Core
      • Transport Network
  • Air Interface Technologies
    • LTE
    • 5G NR
  • Cell Types
    • Indoor Small Cells
    • Outdoor Small Cells
  • Use Cases
    • Mobile Network Densification
    • FWA (Fixed Wireless Access)
    • Cable Operators & New Entrants
    • Neutral Hosts
    • Private Cellular Networks
      • Offices, Buildings & Corporate Campuses
      • Vertical Industries
  • Vertical Industries for Private Cellular Networks
    • Education
    • Governments & Municipalities
    • Healthcare
    • Manufacturing
    • Military
    • Mining
    • Oil & Gas
    • Retail & Hospitality
    • Sports
    • Transportation
    • Utilities
    • Other Verticals
  • CBRS Terminal Equipment
    • Air Interface Technologies
      • LTE
      • 5G NR
  • Form Factors
    • Smartphones & Handheld Terminals
    • Mobile & Vehicular Routers
    • Fixed CPEs (Customer Premises Equipment)
    • Tablets & Notebook PCs
    • IoT Modules, Dongles & Others

Key Questions Answered

  • The report provides answers to the following key questions:
  • How big is the opportunity for LTE and 5G NR-based CBRS networks?
  • What trends, drivers and challenges are influencing its growth?
  • What will the market size be in 2027, and at what rate will it grow?
  • Which submarkets and verticals will see the highest percentage of growth?
  • What are the business models, use cases and application scenarios for CBRS networks?
  • How does CBRS spectrum improve the economics of cable operators' MVNO services?
  • How are WISPs (Wireless Internet Service Providers) leveraging CBRS for fixed wireless broadband rollouts in rural and underserved communities?
  • What opportunities exist for cable operators, neutral hosts, niche service providers and other new entrants?
  • How is CBRS accelerating the uptake of private cellular networks for vertical industries and enterprises?
  • How is the commercial availability of 5G NR-based CBRS network equipment setting the stage for Industry 4.0 and advanced applications?
  • What are the prospects of non-3GPP technologies in CBRS spectrum?
  • Who are the key ecosystem players, and what are their strategies?
  • What strategies should CBRS equipment suppliers, system integrators, service providers and other stakeholders adopt to remain competitive?

Table of Contents

Chapter 1: Introduction
1.1 Executive Summary
1.2 Topics Covered
1.3 Forecast Segmentation
1.4 Key Questions Answered
1.5 Key Findings
1.6 Summary of CBRS Network Deployments
1.7 Methodology
1.8 Target Audience
Chapter 2: An Overview of LTE & 5G NR-Based CBRS Networks
2.1 Spectrum: The Lifeblood of the Wireless Communications Industry
2.1.1 Traditional Exclusive-Use Licensed Spectrum
2.1.2 CBRS Shared Spectrum
2.2 How CBRS Spectrum Differs From Traditional Licensed Frequencies
2.2.1 Exclusive vs. Shared Use
2.2.2 License Fees & Validity
2.2.3 Network Buildout & Service Obligations
2.2.4 Power Limits & Other Restrictions
2.3 Why Utilize CBRS Spectrum for LTE & 5G NR Networks?
2.3.1 Alleviating Capacity Constraints on Mobile Operator Spectrum
2.3.2 New Business Models: Neutral Host, Enterprise & Private Cellular Networks
2.3.3 Resurgence of FWA (Fixed Wireless Access) Services
2.4 The Value Chain of LTE & 5G NR-Based CBRS Networks
2.4.1 Semiconductor & Enabling Technology Specialists
2.4.2 Terminal OEMs (Original Equipment Manufacturers)
2.4.3 RAN, Core & Transport Infrastructure Suppliers
2.4.4 Service Providers
2.4.4.1 Public Mobile Operators
2.4.4.2 MVNOs (Mobile Virtual Network Operators)
2.4.4.3 Fixed-Line Service Providers
2.4.4.4 Neutral Hosts
2.4.4.5 Private 4G/5G Network Operators
2.4.4.6 Towercos (Tower Companies)
2.4.4.7 Cloud & Edge Platform Providers
2.4.5 End Users
2.4.5.1 Consumers
2.4.5.2 Enterprises & Vertical Industries
2.4.6 Other Ecosystem Players
2.5 Market Drivers
2.5.1 Mobile Coverage for In-Building & High-Traffic Density Locations
2.5.2 New Revenue Streams: FWA, IoT & Vertical-Focused Services
2.5.3 Private & Neutral Host Network Deployments
2.5.4 CBRS Shared Spectrum Availability
2.5.5 Lower Cost Network Equipment & Installation
2.5.6 Expanding Ecosystem of Compatible Devices
2.6 Market Barriers
2.6.1 Cell Site & Network Deployment Challenges
2.6.2 Restricted Coverage Due to Transmit Power Limits
2.6.3 Interference & Congestion Concerns for GAA (General Authorized Access)
2.6.4 Competition From Non-3GPP Technologies
2.6.5 Economic & Supply Chain-Related Factors
Chapter 3: Technical Aspects of CBRS Networks
3.1 Dynamic Three-Tiered Sharing
3.2 Air Interface Technologies for CBRS
3.2.1 LTE & 5G NR
3.2.2 Other Technologies
3.3 CBRS Spectrum
3.3.1 3.5 GHz (3,550-3,700 MHz) CBRS Band
3.3.2 Technical Rules for Shared Commercial Use
3.3.3 3GPP-Defined Bands to Support LTE & 5G NR-Based CBRS Networks
3.3.3.1 Band 48 - LTE-TDD CBRS Deployments
3.3.3.2 Band 49 - LAA (Licensed Assisted Access) Operation
3.3.3.3 Band n48 - 5G NR-Based CBRS Systems
3.4 Tiers of Authorization
3.4.1 Tier 1 - Incumbent Access
3.4.2 Tier 2 - PALs (Priority Access Licenses)
3.4.3 Tier 3 - GAA (General Authorized Access)
3.5 CBRS System Architecture & Functional Elements
3.5.1 EUDs (End User Devices)
3.5.2 CBSDs (Citizens Broadband Radio Service Devices)
3.5.2.1 BTS-CBSD (Base Transceiver Station-CBSD)
3.5.2.2 CPE-CBSD (Customer Premises Equipment-CBSD)
3.5.2.3 Category A CBSD (Lower Power)
3.5.2.4 Category B CBSD (Higher Power)
3.5.3 Domain Proxy
3.5.4 SAS (Spectrum Access System)
3.5.5 ESC (Environment Sensing Capability)
3.6 Other Technical Aspects
3.6.1 Functional Requirements & Protocols
3.6.2 Equipment Certification
3.6.3 CBRS Security
3.6.4 Core Network Integration
3.6.4.1 Service Provider Hosted Core
3.6.4.2 MOCN (Multi-Operator Core Network)
3.6.4.3 NHN (Neutral Host Network)
3.6.4.4 Private Network
3.6.4.5 Hybrid Network
3.6.5 Shared HNI (Home Network Identity)
3.6.6 Designated Protection Zones
3.6.6.1 DPAs (Dynamic Protection Areas) for Military Radar Systems
3.6.6.2 FSS (Fixed Satellite Service) Earth Station Exclusion & Protection Zones
3.6.6.3 Temporary GWPZs (Grandfathered Wireless Protection Zones)
3.6.6.4 Quiet Zones
3.6.6.5 Border Areas
3.6.7 PAL Protection & Opportunistic GAA Operation
3.6.8 Secondary Market for PAL Licenses
3.6.8.1 Partitioning
3.6.8.2 Disaggregation
3.6.8.3 Spectrum Leasing
Chapter 4: Business Models, Use Cases & Applications
4.1 Business Models & Use Cases
4.1.1 Service Provider Networks
4.1.1.1 Mobile Network Densification & Buildouts
4.1.1.2 FWA (Fixed Wireless Access) Broadband
4.1.1.3 Mobile Networks for Cable Operators & New Entrants
4.1.2 Neutral Host Networks
4.1.2.1 Indoor Spaces
4.1.2.2 Large Public Venues
4.1.2.3 Transport Hubs & Corridors
4.1.2.4 High-Density Urban Settings
4.1.2.5 Remote & Rural Coverage
4.1.3 Private Cellular Networks
4.1.3.1 Offices, Buildings & Corporate Campuses
4.1.3.2 Vertical Industries
4.1.3.2.1 Education
4.1.3.2.2 Governments & Municipalities
4.1.3.2.3 Healthcare
4.1.3.2.4 Manufacturing
4.1.3.2.5 Military
4.1.3.2.6 Mining
4.1.3.2.7 Oil & Gas
4.1.3.2.8 Retail & Hospitality
4.1.3.2.9 Sports
4.1.3.2.10 Transportation
4.1.3.2.11 Utilities
4.1.3.2.12 Other Verticals
4.2 Applications
4.2.1 Mobile Broadband
4.2.2 Home & Business Broadband
4.2.3 Voice & Messaging Services
4.2.4 High-Definition Video Transmission
4.2.5 Telepresence & Video Conferencing
4.2.6 Multimedia Broadcasting & Multicasting
4.2.7 IoT (Internet of Things) Networking
4.2.8 Wireless Connectivity for Wearables
4.2.9 Untethered AR/VR/MR (Augmented, Virtual & Mixed Reality)
4.2.10 Real-Time Holographic Projections
4.2.11 Tactile Internet & Haptic Feedback
4.2.12 High-Precision Positioning & Tracking
4.2.13 Industrial Automation
4.2.14 Remote Control of Machines
4.2.15 Connected Mobile Robotics
4.2.16 Unmanned & Autonomous Vehicles
4.2.17 BVLOS (Beyond Visual Line-of-Sight) Operation of Drones
4.2.18 Data-Driven Analytics & Insights
4.2.19 Sensor-Equipped Digital Twins
4.2.20 Predictive Maintenance of Equipment
Chapter 5: Standardization, Regulatory & Collaborative Initiatives
5.1 3GPP (Third Generation Partnership Project)
5.1.1 Release 14: Introduction of LTE Band 48 for CBRS
5.1.2 Release 15: LAA/eLAA (Enhanced LAA) Operation in CBRS Spectrum
5.1.3 Release 16: Support for 5G NR Band n48 & NPNs (Non-Public Networks)
5.1.4 Release 17: NPN Enhancements & Expansion of IIoT (Industrial IoT) Features
5.1.5 Release 18: 5G-Advanced, Additional NPN Refinements & Intelligent Automation
5.2 ATIS (Alliance for Telecommunications Industry Solutions)
5.2.1 IMSI Assignment & Management for CBRS Networks
5.2.2 Additional CBRS-Related Efforts
5.3 OnGo Alliance
5.3.1 Promoting 4G & 5G OnGo Wireless Network Technology
5.3.2 Technical Specifications & Guidelines for 4G/5G-Based CBRS Networks
5.3.3 Certification Program Supporting Multi-Vendor Interoperability
5.4 CTIA
5.4.1 Involvement in OnGo Alliance's CBRS Product Certification Program
5.5 DSA (Dynamic Spectrum Alliance)
5.5.1 Advocacy Efforts for Unlicensed & Dynamic Access to Spectrum
5.6 ONF (Open Networking Foundation)
5.6.1 CBRS Support in the Aether Private 5G Connected Edge Platform
5.7 U.S. FCC (Federal Communications Commission)
5.7.1 Regulation of CBRS Spectrum
5.8 U.S. NTIA (National Telecommunications and Information Administration)
5.8.1 CBRS-Related Spectrum Management Work
5.9 WInnForum (Wireless Innovation Forum)
5.9.1 CBRS Standards for the Implementation of FCC Rulemaking
5.9.2 Optional Feature Enhancements to CBRS Baseline Standards
5.9.3 Administration of Root Certificate Authority, Professional Installer Training & CBSD Certification Programs
5.10 Others
Chapter 6: Case Studies of CBRS Network Deployments
6.1 AccessParks: CBRS-Enabled Wireless Access in National & State Parks
6.1.1 Spectrum Type
6.1.2 Integrators & Suppliers
6.1.3 Deployment Summary
6.2 BMW Group: 5G NR-Based CBRS Network for Autonomous Logistics in Spartanburg Plant
6.2.1 Spectrum Type
6.2.2 Integrators & Suppliers
6.2.3 Deployment Summary
6.3 Cal Poly (California Polytechnic State University): Converged Public-Private 5G Network
6.3.1 Spectrum Type
6.3.2 Integrators & Suppliers
6.3.3 Deployment Summary
6.4 Cal.net: LTE-Based CBRS Network for Bridging the Digital Divide in Rural California
6.4.1 Spectrum Type
6.4.2 Integrators & Suppliers
6.4.3 Deployment Summary
6.5 Cameron LNG: CBRS Network for Field Wireless Data Communications
6.5.1 Spectrum Type
6.5.2 Integrators & Suppliers
6.5.3 Deployment Summary
6.6 Charter Communications: Transforming MVNO & FWA Service Offerings With CBRS Shared Spectrum
6.6.1 Spectrum Type
6.6.2 Integrators & Suppliers
6.6.3 Deployment Summary
6.7 City of Brownsville: Municipal Private 5G Network for Residents, Businesses & Public Services
6.7.1 Spectrum Type
6.7.2 Integrators & Suppliers
6.7.3 Deployment Summary
6.8 DART (Dallas Area Rapid Transit): CBRS-Powered Smart Media & Communications Platform
6.8.1 Spectrum Type
6.8.2 Integrators & Suppliers
6.8.3 Deployment Summary
6.9 Del Conca USA: Automating & Streamlining Production Processes With Private Wireless Network
6.9.1 Spectrum Type
6.9.2 Integrators & Suppliers
6.9.3 Deployment Summary
6.10 DFW (Dallas Fort Worth) International Airport: Private 5G Network for IoT & Digitization Use Cases
6.10.1 Spectrum Type
6.10.2 Integrators & Suppliers
6.10.3 Deployment Summary
6.11 Dow: Modernizing Chemical Plant Maintenance With Private Cellular Networks
6.11.1 Spectrum Type
6.11.2 Integrators & Suppliers
6.11.3 Deployment Summary
6.12 Faena Hotel & Forum: Private LTE Network for Improving Mobile Connectivity
6.12.1 Spectrum Type
6.12.2 Integrators & Suppliers
6.12.3 Deployment Summary
6.13 FII (Foxconn Industrial Internet): Powering Smart Manufacturing Through CBRS Network
6.13.1 Spectrum Type
6.13.2 Integrators & Suppliers
6.13.3 Deployment Summary
6.14 FOX Sports: Private Wireless Network for Live Broadcast Operations
6.14.1 Spectrum Type
6.14.2 Integrators & Suppliers
6.14.3 Deployment Summary
6.15 Frontier Communications: Leveraging CBRS Shared Spectrum for Rural Broadband
6.15.1 Spectrum Type
6.15.2 Integrators & Suppliers
6.15.3 Deployment Summary
6.16 Gale South Beach Hotel: CBRS Network for Guest Engagement & Hotel Operations
6.16.1 Spectrum Type
6.16.2 Integrators & Suppliers
6.16.3 Deployment Summary
6.17 Geisinger (Kaiser Permanente): Private LTE Network for Telemedicine in Rural Pennsylvania
6.17.1 Spectrum Type
6.17.2 Integrators & Suppliers
6.17.3 Deployment Summary
6.18 Guident: Private 5G Testbed for Autonomous Vehicles & Smart City Use Cases
6.18.1 Spectrum Type
6.18.2 Integrators & Suppliers
6.18.3 Deployment Summary
6.19 Howard University: Delivering Secure & Enhanced Campus Connectivity With CBRS Network
6.19.1 Spectrum Type
6.19.2 Integrators & Suppliers
6.19.3 Deployment Summary
6.20 HSG (Haslam Sports Group): 3GPP-Based Private Wireless Infrastructure for Stadium Operations
6.20.1 Spectrum Type
6.20.2 Integrators & Suppliers
6.20.3 Deployment Summary
6.21 JBG SMITH Properties: National Landing Private 5G Infrastructure Platform
6.21.1 Spectrum Type
6.21.2 Integrators & Suppliers
6.21.3 Deployment Summary
6.22 John Deere: Employing Private 5G Networks to Unshackle Industrial Facilities From Cables
6.22.1 Spectrum Type
6.22.2 Integrators & Suppliers
6.22.3 Deployment Summary
6.23 local2u: Private Cellular Network for Hybrid Fixed Wireless & Mobility Service
6.23.1 Spectrum Type
6.23.2 Integrators & Suppliers
6.23.3 Deployment Summary
6.24 Logan Aluminum: Enhancing Plant Safety & Efficiency Using Private Broadband Network
6.24.1 Spectrum Type
6.24.2 Integrators & Suppliers
6.24.3 Deployment Summary
6.25 Mediacom Communications: Harnessing CBRS Spectrum for FWA Services in Rural America
6.25.1 Spectrum Type
6.25.2 Integrators & Suppliers
6.25.3 Deployment Summary
6.26 Memorial Health System: Temporary Private Cellular Network to Support COVID-19 Response Efforts
6.26.1 Spectrum Type
6.26.2 Integrators & Suppliers
6.26.3 Deployment Summary
6.27 Mercury Broadband: CBRS Network for Broadband Expansion in the Midwestern United States
6.27.1 Spectrum Type
6.27.2 Integrators & Suppliers
6.27.3 Deployment Summary
6.28 Meta: CBRS-Powered Neutral Host Wireless Network for Indoor Coverage in Office Buildings
6.28.1 Spectrum Type
6.28.2 Integrators & Suppliers
6.28.3 Deployment Summary
6.29 Murray City School District: LTE-Based Private CBRS Network for K-12 Education
6.29.1 Spectrum Type
6.29.2 Integrators & Suppliers
6.29.3 Deployment Summary
6.30 NFL (National Football League): Private Wireless Technology for Coach-to-Coach & Sideline Communications
6.30.1 Spectrum Type
6.30.2 Integrators & Suppliers
6.30.3 Deployment Summary
6.31 Norfolk Southern Corporation: Private LTE Network for Rail Yard Staff
6.31.1 Spectrum Type
6.31.2 Integrators & Suppliers
6.31.3 Deployment Summary
6.32 NYPL (New York Public Library): Shrinking the Digital Divide With CBRS Technology
6.32.1 Spectrum Type
6.32.2 Integrators & Suppliers
6.32.3 Deployment Summary
6.33 OhioTT (Ohio Transparent Telecom): CBRS-Enabled Fixed Wireless Network for Rural Ohio
6.33.1 Spectrum Type
6.33.2 Integrators & Suppliers
6.33.3 Deployment Summary
6.34 Port Authority of New York and New Jersey: Private LTE Network for Newark Liberty International Airport
6.34.1 Spectrum Type
6.34.2 Integrators & Suppliers
6.34.3 Deployment Summary
6.35 Pronto: Private Cellular-Enabled Driverless Trucks for Autonomous Haulage in Remote Mining Sites
6.35.1 Spectrum Type
6.35.2 Integrators & Suppliers
6.35.3 Deployment Summary
6.36 Purdue University: Private Wireless Networks for Smart City & Aviation Applications
6.36.1 Spectrum Type
6.36.2 Integrators & Suppliers
6.36.3 Deployment Summary
6.37 RCI (Rural Cloud Initiative): Building the Farm of the Future With CBRS Shared Spectrum
6.37.1 Spectrum Type
6.37.2 Integrators & Suppliers
6.37.3 Deployment Summary
6.38 Rudin Management Company: Neutral Host CBRS Network for Multi-Tenant Office Building
6.38.1 Spectrum Type
6.38.2 Integrators & Suppliers
6.38.3 Deployment Summary
6.39 SDG&E (San Diego Gas & Electric): pLTE (Private LTE) Network for Advanced Safety & Protection Technologies
6.39.1 Spectrum Type
6.39.2 Integrators & Suppliers
6.39.3 Deployment Summary
6.40 Southern Linc: Expanding LTE Network Capacity for Utility Communications With CBRS Shared Spectrum
6.40.1 Spectrum Type
6.40.2 Integrators & Suppliers
6.40.3 Deployment Summary
6.41 SSA Marine (Carrix): 3GPP-Based Private Wireless Network for Port of Seattle's Terminal 5
6.41.1 Spectrum Type
6.41.2 Integrators & Suppliers
6.41.3 Deployment Summary
6.42 St. Vrain Valley School District: Private LTE Network for Connecting Low-Income Students
6.42.1 Spectrum Type
6.42.2 Integrators & Suppliers
6.42.3 Deployment Summary
6.43 Teltech Group: Private 4G/5G-Enabled Warehouse Automation & Industry 4.0 Capabilities
6.43.1 Spectrum Type
6.43.2 Integrators & Suppliers
6.43.3 Deployment Summary
6.44 The Sound Hotel: Enhancing Guest Experience & Internal Operations With Private Wireless Technology
6.44.1 Spectrum Type
6.44.2 Integrators & Suppliers
6.44.3 Deployment Summary
6.45 TOUA (Tohono O'odham Utility Authority): Bringing Advanced Broadband Connectivity to Tribal Residents
6.45.1 Spectrum Type
6.45.2 Integrators & Suppliers
6.45.3 Deployment Summary
6.46 Toyota Material Handling: Private 5G Network for Columbus Production Complex
6.46.1 Spectrum Type
6.46.2 Integrators & Suppliers
6.46.3 Deployment Summary
6.47 U.S. Navy: Standalone Private 5G Infrastructure for Naval Bases & Air Stations
6.47.1 Spectrum Type
6.47.2 Integrators & Suppliers
6.47.3 Deployment Summary
6.48 UIPA (Utah Inland Port Authority): CBRS-Enabled ICN (Intelligent Crossroads Network) for Utah's Supply Chain
6.48.1 Spectrum Type
6.48.2 Integrators & Suppliers
6.48.3 Deployment Summary
6.49 WCU (West Chester University): Outdoor CBRS Network for Public Safety Surveillance & IoT Use Cases
6.49.1 Spectrum Type
6.49.2 Integrators & Suppliers
6.49.3 Deployment Summary
6.50 Wells Fargo Center: Improving Critical Operations & Fan Experience With Private 4G/5G Connectivity
6.50.1 Spectrum Type
6.50.2 Integrators & Suppliers
6.50.3 Deployment Summary
Chapter 7: Market Sizing & Forecasts
7.1 Future Outlook for LTE & 5G NR-Based CBRS Networks in the United States
7.1.1 RAN, Mobile & Transport Network Infrastructure Investments
7.1.2 CBRS-Supported Terminal Equipment Sales
7.2 CBRS Network Infrastructure
7.2.1 Infrastructure Submarkets
7.2.1.1 RAN
7.2.1.2 Small Cell RUs (Radio Units)
7.2.1.3 DUs/CUs (Distributed & Centralized Baseband Units)
7.2.1.4 Mobile Core
7.2.1.5 Transport Network
7.2.2 Segmentation by Air Interface Technology
7.2.2.1 LTE
7.2.2.2 LTE RAN
7.2.2.3 LTE EPC (Evolved Packet Core)
7.2.2.4 LTE Transport
7.2.2.5 5G NR
7.2.2.6 5G RAN
7.2.2.7 5GC (5G Core)
7.2.2.8 5G Transport
7.2.3 Segmentation by Cell Type
7.2.3.1 Indoor Small Cells
7.2.3.2 Outdoor Small Cells
7.2.4 Segmentation by Use Case
7.2.4.1 Mobile Network Densification
7.2.4.2 FWA (Fixed Wireless Access)
7.2.4.3 Cable Operators & New Entrants
7.2.4.4 Neutral Hosts
7.2.4.5 Private Cellular Networks
7.2.4.5.1 Offices, Buildings & Corporate Campuses
7.2.4.5.2 Vertical Industries
7.2.5 Segmentation by Vertical Industry
7.2.5.1 Education
7.2.5.2 Governments & Municipalities
7.2.5.3 Healthcare
7.2.5.4 Manufacturing
7.2.5.5 Military
7.2.5.6 Mining
7.2.5.7 Oil & Gas
7.2.5.8 Retail & Hospitality
7.2.5.9 Sports
7.2.5.10 Transportation
7.2.5.11 Utilities
7.2.5.12 Other Verticals
7.3 CBRS Terminal Equipment
7.3.1 Segmentation by Air Interface Technology
7.3.1.1 LTE
7.3.1.2 5G NR
7.3.2 Segmentation by Form Factor
7.3.2.1 Smartphones & Handheld Terminals
7.3.2.2 Mobile & Vehicular Routers
7.3.2.3 Fixed CPEs (Customer Premises Equipment)
7.3.2.4 Tablets & Notebook PCs
7.3.2.5 IoT Modules, Dongles & Others
Chapter 8: Key Ecosystem Players
8.1 4RF (Aviat Networks)
8.2 ABiT Corporation
8.3 Accelleran
8.4 Accuver (InnoWireless)
8.5 ADRF (Advanced RF Technologies)
8.6 Airgain
8.7 Airspan Networks
8.8 Airtower Networks
8.9 Airwavz Solutions
8.10 Akoustis Technologies
8.11 Alef (Alef Edge)
8.12 Allen Vanguard Wireless
8.13 Alpha Wireless
8.14 Amazon/AWS (Amazon Web Services)
8.15 Amdocs
8.16 American Tower Corporation
8.17 AMIT Wireless
8.18 Anritsu
8.19 ANS - Advanced Network Services (Charge Enterprises)
8.20 Antenna Company
8.21 Anterix
8.22 Apple
8.23 Aquila (Suzhou Aquila Solutions)
8.24 Arctic Semiconductor (Formerly SiTune Corporation)
8.25 Artemis Networks
8.26 Askey Computer Corporation (ASUS - ASUSTeK Computer)
8.27 ASOCS
8.28 ASUS (ASUSTeK Computer)
8.29 Ataya
8.30 ATDI
8.31 ATEL (Asiatelco Technologies)
8.32 ATN International
8.33 AttoCore
8.34 Aviat Networks
8.35 Axyom.Core (Formerly Casa Systems)
8.36 Azcom Technology
8.37 Baicells
8.38 Ballast Networks
8.39 BBK Electronics
8.40 BearCom
8.41 BEC Technologies (Billion Electric)
8.42 Benetel
8.43 Betacom
8.44 Black Box
8.45 Blackned
8.46 BLiNQ Networks (CCI - Communication Components Inc.)
8.47 Bloxtel
8.48 Blue Arcus Technologies
8.49 Boingo Wireless (DigitalBridge Group)
8.50 Boldyn Networks (Formerly BAI Communications)
8.51 Branch Communications
8.52 BTI Wireless
8.53 Bureau Veritas/7Layers
8.54 BVSystems (Berkeley Varitronics Systems)
8.55 C3Spectra
8.56 CableFree (Wireless Excellence)
8.57 CableLabs
8.58 Cambium Networks
8.59 Cambridge Consultants (Capgemini Invent)
8.60 Capgemini Engineering
8.61 CCI (Communication Components Inc.)
8.62 CCN (Cirrus Core Networks)
8.63 CellAntenna Corporation
8.64 cellXica
8.65 Celona
8.66 Centerline Communications
8.67 Cisco Systems
8.68 Codium Networks
8.69 Comba Telecom
8.70 CommAgility (E-Space)
8.71 Commnet Wireless (ATN International)
8.72 CommScope
8.73 Compal Electronics
8.74 COMSovereign
8.75 Connectivity Wireless Solutions (M/C Partners)
8.76 Contela
8.77 Corning
8.78 Council Rock
8.79 Cradlepoint (Ericsson)
8.80 Crown Castle International Corporation
8.81 CTL
8.82 CTS (Communication Technology Services)
8.83 dbSpectra
8.84 DeepSig
8.85 Dejero Labs
8.86 DEKRA
8.87 Dell Technologies
8.88 Dense Air (SIP - Sidewalk Infrastructure Partners)
8.89 DGS (Digital Global Systems)
8.90 Digi International
8.91 Digicert
8.92 DKK (Denki Kogyo)
8.93 Doodle Labs
8.94 Druid Software
8.95 EDX Wireless
8.96 EION Wireless
8.97 Element Materials Technology
8.98 Encore Networks
8.99 Ericsson
8.100 EUCAST
8.101 Evolve Cellular
8.102 EXFO
8.103 ExteNet Systems (DigitalBridge Group)
8.104 Fairspectrum
8.105 Federated Wireless
8.106 Fenix Group
8.107 Fibocom
8.108 Fibrolan
8.109 Fortress Solutions
8.110 Foxconn (Hon Hai Technology Group)
8.111 FreedomFi
8.112 FRTek
8.113 Fujitsu
8.114 Future Technologies Venture
8.115 G REIGNS (HTC Corporation)
8.116 G+D (Giesecke+Devrient)
8.117 GCT Semiconductor
8.118 GE (General Electric)
8.119 Gemtek Technology
8.120 Getac Technology Corporation
8.121 GigSky
8.122 Global Telecom
8.123 Globalgig
8.124 Globalstar
8.125 Goodman Telecom Services
8.126 Google (Alphabet)
8.127 Granite Telecommunications
8.128 Green Packet
8.129 GS Lab (Great Software Laboratory)
8.130 GXC (Formerly GenXComm)
8.131 HCLTech (HCL Technologies)
8.132 HFR Networks
8.133 Hitachi
8.134 Horizon Powered
8.135 HP
8.136 HPE (Hewlett Packard Enterprise)
8.137 HSC (Hughes Systique Corporation)
8.138 HTC Corporation
8.139 HUBER+SUHNER
8.140 Hughes Network Systems (EchoStar Corporation)
8.141 iBwave Solutions
8.142 InfiniG
8.143 Infinite Electronics
8.144 Infomark Corporation
8.145 Infosys
8.146 Infovista
8.147 Inseego Corporation
8.148 Insta Group
8.149 Intel Corporation
8.150 Intelsat
8.151 Intenna Systems
8.152 InterDigital
8.153 IoT4Net
8.154 IPLOOK Networks
8.155 iPosi
8.156 Itron
8.157 JACS Solutions
8.158 JATONTEC (Jaton Technology)
8.159 JCI (Japan Communications Inc.)
8.160 JIT (JI Technology)
8.161 JMA Wireless
8.162 JRC (Japan Radio Company)
8.163 Juniper Networks (HPE - Hewlett Packard Enterprise)
8.164 Kajeet
8.165 Key Bridge Wireless
8.166 Keysight Technologies
8.167 Kisan Telecom
8.168 KLA Laboratories
8.169 Kleos
8.170 KMW
8.171 KORE Wireless
8.172 Kumu Networks
8.173 Kyndryl
8.174 Kyocera Corporation
8.175 Kyrio (CableLabs)
8.176 Landmark Dividend (DigitalBridge Group)
8.177 Lekha Wireless Solutions
8.178 Lemko Corporation
8.179 Lenovo
8.180 Lime Microsystems
8.181 Lindsay Broadband
8.182 Linx Technologies
8.183 LIONS Technology
8.184 LS telcom
8.185 MatSing
8.186 Maven Wireless
8.187 Mavenir
8.188 Meta
8.189 MiCOM Labs
8.190 Microlab (RF Industries)
8.191 Microsoft Corporation
8.192 MitraStar Technology (Unizyx Holding Corporation)
8.193 Mobile Mark
8.194 MobileComm Professionals (UST)
8.195 Monogoto
8.196 MosoLabs (Sercomm Corporation)
8.197 Motorola Mobility (Lenovo)
8.198 Motorola Solutions
8.199 MRT Technology (Suzhou)
8.200 MSB (M S Benbow & Associates)
8.201 MTI (Microelectronics Technology, Inc.)
8.202 MTI Wireless Edge
8.203 Multi-Tech Systems
8.204 NEC Corporation
8.205 Nemko
8.206 Netgear
8.207 Neutroon Technologies
8.208 NewEdge Signal Solutions
8.209 Nextivity
8.210 Node-H
8.211 Nokia
8.212 Nsight
8.213 NTT Group
8.214 NuRAN Wireless
8.215 Oceus Networks
8.216 Octasic
8.217 OneLayer
8.218 Oracle Communications
8.219 Panasonic Connect
8.220 Panorama Antennas
8.221 Parallel Wireless
8.222 Parsec Technologies
8.223 Pavlov Media
8.224 PBE Axell (Formerly Axell Wireless)
8.225 PCTEL
8.226 PCTEST Lab (PCTEST Engineering Laboratory)
8.227 Pente Networks
8.228 Picocom
8.229 Pierson Wireless
8.230 Pivot Technology Services
8.231 Pivotal Commware
8.232 Polaris Networks (Motorola Solutions)
8.233 Pollen Mobile
8.234 QCT (Quanta Cloud Technology)
8.235 QuadGen Wireless Solutions
8.236 Qualcomm
8.237 Quantum Wireless
8.238 Qucell Networks (InnoWireless)
8.239 Quectel Wireless Solutions
8.240 Qulsar (VIAVI Solutions)
8.241 Radisys (Reliance Industries)
8.242 Rakuten Symphony
8.243 Ranplan Wireless
8.244 Raycap
8.245 RED Technologies
8.246 RF Connect
8.247 RFS (Radio Frequency Systems)
8.248 RKTPL (RK Telesystem Private Limited)
8.249 Rohde & Schwarz
8.250 RugGear
8.251 RuggON Corporation
8.252 Saankhya Labs (Tejas Networks)
8.253 SAC Wireless (Nokia)
8.254 Samsung
8.255 Sanjole
8.256 SBA Communications
8.257 Select Spectrum
8.258 Semtech Corporation
8.259 Seowon Intech
8.260 Sequans Communications
8.261 Sercomm Corporation
8.262 SGS
8.263 Shared Access
8.264 Sharp Corporation (Foxconn - Hon Hai Technology Group)
8.265 Siemens
8.266 Silicom Connectivity Solutions
8.267 Sinclair Technologies (Norsat International/Hytera Communications)
8.268 Skyworks Solutions
8.269 SMAWave (Shanghai SMAWave Technology)
8.270 Socionext
8.271 SOLiD
8.272 Sonim Technologies
8.273 Sony Group Corporation
8.274 Spectrum Effect
8.275 Spirent Communications
8.276 Sporton International
8.277 SQUAN
8.278 SSC (Shared Spectrum Company)
8.279 Star Solutions
8.280 STEP CG
8.281 Sunwave Communications
8.282 Supermicro (Super Micro Computer)
8.283 SureSite Consulting Group
8.284 SynaXG Technologies
8.285 Syniverse
8.286 System Innovation Group
8.287 T&W (Shenzhen Gongjin Electronics)
8.288 Tait Communications
8.289 Tango Networks
8.290 Taoglas
8.291 Tarana Wireless
8.292 TE Connectivity
8.293 Teal Communications
8.294 Tecore Networks
8.295 Televate
8.296 Telewave
8.297 TeleWorld Solutions (Samsung)
8.298 Telit Cinterion
8.299 Telrad Networks
8.300 Telsasoft
8.301 TESSCO Technologies/Ventev
8.302 ThinkRF
8.303 Tillman Global Holdings
8.304 Tilson
8.305 TIL-TEK Antennae
8.306 Titan.ium Platform
8.307 TLC Solutions
8.308 TÜV SÜD
8.309 Ubicquia
8.310 Ubiik
8.311 UL
8.312 Valid8
8.313 Vapor IO
8.314 Vertical Bridge (DigitalBridge Group)
8.315 Verveba Telecom
8.316 Viasat
8.317 VIAVI Solutions
8.318 VMware (Broadcom)
8.319 VVDN Technologies
8.320 Wave Electronics (Korea)
8.321 Wavesight
8.322 Westell Technologies
8.323 Widelity
8.324 WiFrost
8.325 Wilson Electronics
8.326 Wilus
8.327 WIN Connectivity (Wireless Information Networks)
8.328 Winncom Technologies
8.329 WNC (Wistron NeWeb Corporation)
8.330 WorldCell Solutions
8.331 Wytec International
8.332 Zebra Technologies
8.333 Zinwave (Wilson Electronics)
8.334 Zmtel (Shanghai Zhongmi Communication Technology)
8.335 Zyxel (Unizyx Holding Corporation)
Chapter 9: Conclusion & Strategic Recommendations
9.1 Why is the Market Poised to Grow?
9.2 Future Roadmap: 2024 - 2030
9.2.1 2024 - 2026: Continued Investments in LTE & 5G NR-Based CBRS Network Deployments
9.2.2 2027 - 2029: Widespread Adoption of Standalone 5G Implementations in CBRS Spectrum
9.2.3 2030 & Beyond: Ubiquity of CBRS Across Private, Neutral Host & Service Provider Networks
9.3 Which Use Cases Will Dominate the CBRS Market?
9.4 CBRS 2.0: Extending Uninterrupted Commercial Operations
9.5 FCC Proposals Aimed at Continued Growth of CBRS Networks
9.6 Fostering Innovation Through Spectrum Sharing
9.7 Spurring the Entry of New Players in the Cellular Industry
9.8 Densification of Public Mobile Operator Networks in the 5G Era
9.9 Accelerating Fixed Wireless Broadband Rollouts in Rural & Underserved Markets
9.10 Expanding In-Building Access to Mobile Coverage Using Neutral Host Small Cells
9.11 Private Cellular Networks for IIoT, Enterprise Connectivity, Distance Learning & Smart Cities
9.12 Laying the Foundation for Industry 4.0 & Advanced Applications With 5G NR-Based CBRS Networks
9.13 The Secondary Market for Leasing & Monetizing Under-Utilized PAL Spectrum
9.14 COVID-19 Pandemic: Impact on CBRS Shared Spectrum Deployments
9.15 Prospects of Non-3GPP Technologies in CBRS Spectrum
9.16 Strategic Recommendations
9.16.1 LTE/5G Equipment Suppliers & System Integrators
9.16.2 Mobile Operators & Other Service Providers
9.16.3 Enterprises & Vertical Industries

Samples

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Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

  • 360 Communications
  • 3GPP (Third Generation Partnership Project)
  • 4RF
  • 5G4U
  • 7Layers
  • 8G Wireless
  • ABiT Corporation
  • Accelleran
  • AccessParks
  • Accu-Tech
  • Accuver
  • Acorn Wireless
  • Acromove
  • Actility
  • ADRF (Advanced RF Technologies)
  • Adtran
  • ADVA
  • AEG
  • Aegex Technologies
  • Aeris Wireless Corporation
  • AeroFarms
  • AeroNet (Puerto Rico)
  • Aervivo
  • Affirmed Networks
  • Agri-Valley Communications
  • Airbus
  • Airgain
  • Airspan Networks
  • Airtower Networks
  • Airwaive
  • Airwave Developers
  • Airwavz Solutions
  • Akoustis Technologies
  • Alabama Power Company
  • Alaska Communications
  • Albemarle Corporation
  • Alef (Alef Edge)
  • Allen Vanguard Wireless
  • Alpha Wireless
  • Alphabet
  • altafiber (Cincinnati Bell)
  • Amazon
  • Amdocs
  • Ameren
  • American Dream
  • American Tower Corporation
  • AMIT Wireless
  • Amplex Internet
  • Andrew's Hay
  • Anotiva
  • Anritsu
  • ANS (Advanced Network Services)
  • Antenna Company
  • Anterix
  • Antevia
  • Apex Technology Group
  • Apple
  • Aquila (Suzhou Aquila Solutions)
  • ARA (American Rally Association)
  • Arctic Semiconductor (Formerly SiTune Corporation)
  • Aristotle Unified Communications
  • Arlen Specter US Squash Center
  • Arlington County
  • Arm
  • Artemis Networks
  • Aruba
  • Arvig
  • Askey Computer Corporation
  • ASM Global
  • ASOCS
  • Aspire Technology Partners
  • ASU (Arizona State University)
  • ASUS (ASUSTeK Computer)
  • AT&T
  • Ataya
  • ATDI
  • ATEL (Asiatelco Technologies)
  • Athonet
  • ATIS (Alliance for Telecommunications Industry Solutions)
  • AtLink Services
  • ATN International
  • Atos
  • Attabotics
  • AttoCore
  • Avanade
  • Avangrid
  • Aventiv Technologies
  • Aviat Networks
  • Avista Edge
  • AWS (Amazon Web Services)
  • Axyom.Core (Formerly Casa Systems)
  • Azcom Technology
  • Baicells
  • Ballast Networks
  • Baltic Networks
  • Baptist Health South Florida
  • Barich
  • BBK Electronics
  • BC Live Productions
  • Beam Wireless
  • Beamlink
  • BearCom
  • BEC Technologies
  • Belpre City Schools
  • Benetel
  • Betacom
  • Bexar County
  • Billion Electric
  • Binghamton Police Department
  • Black & Veatch
  • Black Box
  • Blackned
  • BLiNQ Networks
  • Bloxtel
  • Blue Arcus Technologies
  • Blue Danube Systems
  • Blue White Robotics
  • Bluepeak (Clarity Telecom)
  • Bluesky Communications (AST Telecom)
  • BMW Group
  • Bobcat Miner
  • Boingo Wireless
  • Boldyn Networks (Formerly BAI Communications)
  • Booz Allen Hamilton
  • Bosch Rexroth
  • Boston Dynamics
  • Boston Red Sox
  • Branch Communications
  • Bridge The Divide Foundation
  • BTI Wireless
  • Bureau Veritas
  • Burns & McDonnell
  • BVSD (Boulder Valley School District)
  • BVSystems (Berkeley Varitronics Systems)
  • C3Spectra
  • CableFree (Wireless Excellence)
  • CableLabs
  • Caesars Entertainment
  • Cal Poly (California Polytechnic State University)
  • Cal.net
  • CalChip Connect
  • California National Guard
  • California State University, Stanislaus
  • Cambium Networks
  • Cambridge Consultants
  • Cameron LNG
  • Campbell Union School District
  • Capgemini
  • Capgemini Engineering
  • Capgemini Invent
  • Caribe Royale Orlando
  • Carnegie Mellon University
  • Carolina Panthers
  • Castleberry ISD (Independent School District)
  • CCI (Communication Components Inc.)
  • CCN (Cirrus Core Networks)
  • CDA (Chicago Department of Aviation)
  • CDE Lightband
  • CDOT (Colorado Department of Transportation)
  • CellAntenna Corporation
  • Cellcom (Nsight)
  • CELLocity (RF Connect)
  • cellXica
  • Celona
  • Centerline Communications
  • Charge Enterprises
  • Charter Communications
  • Chat Mobility
  • Chevron Corporation
  • Chicago Police Department
  • Choice NTUA Wireless
  • Ciena Corporation
  • CircleGx
  • Cisco Systems
  • City and County of San Francisco
  • City of Binghamton
  • City of Brownsville
  • City of Chicago
  • City of Dublin (Ohio)
  • City of Euless
  • City of Geneva
  • City of Glendale
  • City of Las Vegas
  • City of Longmont
  • City of McAllen
  • City of Montgomery
  • City of Peachtree Corners
  • City of Santa Maria
  • City of Shreveport
  • City of Tucson
  • Clair Global
  • Clark County Department of Aviation
  • Claro Puerto Rico
  • ClearBlade
  • ClearLink Communications
  • ClearSky Technologies
  • Clinical Mobility (Intellicom)
  • CloudWyze
  • Clovity
  • CNI Sales
  • Codium Networks
  • Cognizant
  • Colusa County Office of Education
  • Comba Telecom
  • Comcast Business
  • Comcast Corporation
  • CommAgility
  • Commnet Wireless
  • CommScope
  • Compal Electronics
  • Compass Minerals
  • COMSovereign
  • Con Edison (Consolidated Edison)
  • Connected Devices
  • Connectivity Wireless Solutions
  • Consolidated Communications
  • Contela
  • Contour Networks
  • Coranet
  • coreNOC
  • Corning
  • COTA (Circuit of The Americas)
  • Cotton Holdings
  • Council Rock
  • Cox Communications
  • Cox Private Networks
  • CP Communications
  • CPChem (Chevron Phillips Chemical)
  • Cradlepoint
  • Crown Castle International Corporation
  • Cruise
  • CSI (Communications Systems, Inc.)
  • CTIA
  • CTL
  • CTPA (Central Texas Purchasing Alliance) 
  • CTS (Communication Technology Services)
  • CUSD (Collinsville Community Unit School District) 10
  • Dakota ICP (Innovation Corridor Project)
  • Dallas ISD (Independent School District)
  • Dallas Love Field Airport
  • DART (Dallas Area Rapid Transit)
  • Datagear
  • Dayton Art Institute
  • dbSpectra
  • DDR.Live
  • DeepSig
  • Dejero Labs
  • DEKRA
  • Del Conca USA
  • Dell Technologies
  • Dense Air
  • Detroit Lions
  • DFW (Dallas Fort Worth) International Airport
  • DGS (Digital Global Systems)
  • Diamond Communications
  • Digi International
  • Digicert
  • DigitalBridge Group
  • DigitalC
  • Disc Golf Network
  • Disc Golf Pro Tour
  • DISH Network Corporation
  • DKK (Denki Kogyo)
  • Doodle Labs
  • Dow
  • DPOL (Dos Palos Oro Loma) Joint Unified School District
  • DRIVE (Pennsylvania)
  • Druid Software
  • DSA (Dynamic Spectrum Alliance)
  • Duke Energy
  • Duke University
  • DXC Technology
  • Dynabook
  • E8 (Element8)
  • EASYMETERING
  • EchoStar Corporation
  • Edge Networks
  • Ednetics
  • EDX Wireless
  • EION Wireless

Methodology

The contents of the reports are accumulated by combining information attained from a range of primary and secondary research sources.

In addition to analyzing official corporate announcements, policy documents, media reports, and industry statements, the publisher seeks opinions from leading industry players within each sector to derive an unbiased, accurate and objective mix of market trends, forecasts and the future prospects of the industry.

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