Public Safety LTE & 5G Market: 2025 – 2030 – Opportunities, Challenges, Strategies & Forecasts
Description
With the commercial availability of 3GPP standards-compliant MCX (Mission-Critical PTT, Video & Data), QPP (QoS, Priority & Preemption), HPUE (High-Power User Equipment), IOPS (Isolated Operation for Public Safety), and other critical communications features, LTE and 5G NR (New Radio) networks have gained recognition as an all-inclusive public safety communications platform for the delivery of real-time video, high-resolution imagery, multimedia messaging, mobile office/field data applications, location services and mapping, situational awareness, unmanned asset control, and other broadband capabilities, as well as MCPTT (Mission-Critical PTT) voice and narrowband data services provided by traditional LMR (Land Mobile Radio) systems. 3GPP networks are nearing the point where they can fully replace legacy LMR systems with a future-proof transition path, supplemented by additional 5G features, such as 5G MBS/5MBS (5G Multicast-Broadcast Services) for MCX services in high-density environments, 5G NR sidelink for off-network communications, VMRs (Vehicle-Mounted Relays), MWAB (Mobile gNB With Wireless Access Backhauling), NTN (Non-Terrestrial Network) integration, and support for lower 5G NR bandwidths in PPDR (Public Protection & Disaster Relief) frequency bands.
Western and Northern European countries, including the United Kingdom, France, Finland, and Sweden, are already moving ahead with plans to migrate all PPDR users from TETRA and Tetrapol systems to nationwide mission-critical 3GPP networks between 2028 and 2031. South Korea is an outlier, having carried out its transition much earlier due to the previous lack of a national-scale digital LMR network. The narrowband-to-broadband transition timeline is expected to be longer in some national markets. For example, Romania’s TETRA network will continue to operate in parallel with the country’s new 3GPP-based PPDR broadband network until 2035. In the United States, many APCO P25 systems are not expected to be decommissioned until the late 2030s, although some agencies – particularly those whose LMR networks are reaching end-of-life or have poor coverage – are beginning to fully transition to MCPTT services over broadband networks. Authorities in New Zealand have chosen to deploy a new digital LMR network, which is complemented by priority access over public cellular networks.
Transitions aside, a myriad of fully dedicated, hybrid government-commercial, and secure MVNO/MOCN-based public safety LTE and 5G networks are operational or in the process of being rolled out throughout the globe. One of the largest projects that emerged from secrecy in 2025 is Saudi Arabia’s $8.7 billion mission-critical broadband network for the Kingdom’s defense, law enforcement, and intelligence agencies. Other national-level public safety broadband network programs extend from high-profile national initiatives such as the United States’ FirstNet (First Responder Network), South Korea’s Safe-Net (National Disaster Safety Communications Network), Great Britain’s ESN (Emergency Services Network), France’s RRF (Radio Network of the Future), SWEN (Swedish Emergency Network), and Finland's VIRVE 2 broadband service for PPDR users to New Zealand’s PSN (Public Safety Network), Royal Thai Police's Band 26/n26 (800 MHz) LTE network, Japan’s PSMS (Public Safety Mobile System), Ireland’s new mission-critical communications system, Italian Ministry of Interior's public safety LTE/5G service, Spain's SIRDEE (State Emergency Digital Radiocommunications System) mission-critical broadband network, Hungary's EDR 2.0/3.0 5G-ready PPDR broadband network, Turkish National Police’s KETUM (Encrypted Critical Communications System), Romania’s hybrid PPDR broadband network, Qatar MOI's (Ministry of Interior) LTE network, Oman’s Band 20/n20 (800 MHz) public safety broadband network, Jordan’s hybrid TETRA-LTE communications system, Egypt’s NAS (Unified National Emergency & Public Safety Network), and Brazilian Federal Government’s private network project.
The Hong Kong Police Force’s $250 million 5G-based NGCS (Next-Generation Communications System) project, which follows a very different approach from mainland China, is comparable to national programs in smaller countries. Nationwide initiatives in the pre-operational stage include Norway's Nytt Nødnett, Germany’s BOS broadband network, Belgium’s NextGenCom (Next-Generation Mobile Communication), Dutch Ministry of Justice and Security’s VMX (Mission-Critical Communications Renewal), Switzerland’s MSK (Secure Mobile Broadband Communications) system, India’s BB-PPDR (Broadband PPDR) network, Sri Lanka Police’s new crime and emergency services communications system, Nigerian federal government’s NPSCS (National Public Security Communication System), Australia's PSMB (Public Safety Mobile Broadband) program, and Canada's national PSBN (Public Safety Broadband Network) initiative.
3GPP-compliant MCX services are a foundational component of nationwide public safety broadband networks, and multiple procurement contracts have recently been awarded for both gateway-enabled interoperability solutions and 3GPP standards-based IWF (Interworking Function) technology, which enables system-level interworking between LMR and MCX systems during concurrent operation. The integration of NG911 (Next-Generation 911) systems, live video feeds from body-worn cameras, drones, and vehicles, 3D geolocation services, AI (Artificial Intelligence) analytics, and situational awareness platforms is increasingly gaining significance in national public safety broadband programs, as is the inclusion of rapidly deployable network assets, direct-to-device connectivity from satellites, and in-building coverage for emergency communications. FirstNet’s macro coverage layer is complemented by a growing number of indoor small cells – currently at 14,000 units – supporting operation in Band 14/n14 (700 MHz) spectrum. Britain’s ESN, Sweden’s SWEN, and Finland's VIRVE 2 programs will also involve large-scale rollouts of in-building coverage solutions.
Beyond state-funded national programs, public mobile operators in some countries are pitching network slicing over their recently launched standalone 5G cores as an alternative to dedicated networks. Independent small-to-medium scale private 5G networks are also being deployed to address specific operational needs. For instance, Mexico City Police is using a standalone private 5G network to enable low-latency streaming of visual content to wireless VR headsets as part of an immersive training system, while Abu Dhabi Police has recently procured a private 5G solution, with an initial focus on high-definition video surveillance. The police force’s broader video surveillance systems are supplemented by over 150 AI models for real-time detection of traffic violations, suspect identification, and predictive analytics for crime prevention. In Spain, Madrid City Council and UME (Emergency Military Unit) have adopted tactical bubble solutions – based on transportable private 5G cell sites and network slicing over commercial 5G networks – for enhanced emergency preparedness and forest firefighting operations. Among other examples, the southern French city of Istres has deployed a private 5G network to reduce video surveillance camera installation costs by up to 80% by eliminating infrastructure-related overheads typically associated with fiber-based connections.
In the United States, both Verizon and T-Mobile have launched first responder network slices to rival the AT&T-operated FirstNet national public safety broadband network. In addition to other Band 48/n48 (3.5 GHz) CBRS spectrum-enabled private 5G networks for smart city applications, GDC (Georgia Department of Corrections) is deploying a private 5G network to provide indoor and outdoor coverage for physically isolated and secure communications at a new state prison campus. There has also been an uptick in both procurement efforts and field trials of private 5G network equipment operating in Band n79 (4.4-5 GHz) federal spectrum and Globalstar’s Band 53/n53 (2.4 GHz) spectrum. In addition, 50 MHz of public safety spectrum in the 4,940-4,990 MHz frequency range is being standardized as Band n114 (4.9 GHz) in 3GPP Release 20 specifications.
Other operational deployments range from the Halton-Peel region PSBN in Canada's Ontario province, Polkomtel’s Band 87/n87 (410 MHz) MCX network in Poland, China's city and district-wide Band 45 (1.4 GHz) LTE networks for police forces, portable 5G systems and sliced virtual private 5G networks in both China and Taiwan, provincial-level Band 26/n26 (800 MHz) safe city networks in Pakistan, Nedaa's mission-critical broadband network in Dubai, Kenyan Police Service’s custom-built LTE network, Zambia's 400 MHz broadband trunking system, Mauritania's public safety LTE network for urban security in Nouakchott, Madagascar’s private LTE network for safe city applications in Antananarivo, Uruguayan Ministry of Interior's private LTE for border surveillance reinforcement in the Rivera Department, Brazil's state-wide LTE networks for public security secretariats, penitentiary administrations, and military police forces, and the Guyanese government's 3GPP-based critical communications network to local and regional-level public safety broadband networks in markets as diverse as Singapore, Malaysia, Indonesia, the Philippines, Laos, Iraq, Kuwait, Bahrain, Lebanon, Ghana, Cote D'Ivoire, Cameroon, Mali, Mauritius, Canary Islands, Trinidad & Tobago, Colombia, Venezuela, Ecuador, Bolivia, Argentina, Serbia, Ukraine, and Russia, as well as multi-domain critical communications broadband networks such as Southern Linc's mission-critical LTE network for first responders and utilities in the southeastern United States, and secure MVNO platforms in Mexico and several European countries.
SNS Telecom & IT estimates that annual investments in public safety LTE/5G infrastructure and devices reached $5 billion in 2025, driven by both new projects and the expansion of existing dedicated, hybrid government-commercial, and secure MVNO/MOCN networks. Complemented by an expanding ecosystem of public safety-grade LTE/5G devices, the market will further grow at a CAGR of approximately 8% over the next three years, eventually accounting for more than $6.3 billion by the end of 2028. The positive outlook of the market coincides with meaningful progress in addressing the remaining challenge of direct mode or D2D (Device-to-Device) communications, which is often cited as the last major hurdle in the transition from LMR systems to 3GPP broadband technology. 5G NR sidelink-equipped prototype terminals for D2D communications and multi-hop relay networking are being made available for field trials by defense and public safety agencies between 2026 and 2027, with the commercial availability of chipsets expected before the end of the decade. In parallel, some national program administrators are adopting interim solutions, including LMR-based RSMs (Remote Speaker Microphones) and hybrid LMR-broadband devices.
The “Public Safety LTE & 5G Market: 2025 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents an in-depth assessment of the public safety LTE and 5G market, including the value chain, market drivers, barriers to uptake, enabling technologies, operational models, application scenarios, key trends, future roadmap, standardization, spectrum availability/allocation, regulatory landscape, case studies, ecosystem player profiles and strategies. The report also presents global and regional market size forecasts from 2025 to 2030, covering public safety LTE/5G infrastructure, terminal equipment, applications, systems integration and management solutions, as well as subscriptions and service revenue.
The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report, as well as a list and associated details of over 1,900 global public safety LTE/5G engagements – as of Q1 2026.
Western and Northern European countries, including the United Kingdom, France, Finland, and Sweden, are already moving ahead with plans to migrate all PPDR users from TETRA and Tetrapol systems to nationwide mission-critical 3GPP networks between 2028 and 2031. South Korea is an outlier, having carried out its transition much earlier due to the previous lack of a national-scale digital LMR network. The narrowband-to-broadband transition timeline is expected to be longer in some national markets. For example, Romania’s TETRA network will continue to operate in parallel with the country’s new 3GPP-based PPDR broadband network until 2035. In the United States, many APCO P25 systems are not expected to be decommissioned until the late 2030s, although some agencies – particularly those whose LMR networks are reaching end-of-life or have poor coverage – are beginning to fully transition to MCPTT services over broadband networks. Authorities in New Zealand have chosen to deploy a new digital LMR network, which is complemented by priority access over public cellular networks.
Transitions aside, a myriad of fully dedicated, hybrid government-commercial, and secure MVNO/MOCN-based public safety LTE and 5G networks are operational or in the process of being rolled out throughout the globe. One of the largest projects that emerged from secrecy in 2025 is Saudi Arabia’s $8.7 billion mission-critical broadband network for the Kingdom’s defense, law enforcement, and intelligence agencies. Other national-level public safety broadband network programs extend from high-profile national initiatives such as the United States’ FirstNet (First Responder Network), South Korea’s Safe-Net (National Disaster Safety Communications Network), Great Britain’s ESN (Emergency Services Network), France’s RRF (Radio Network of the Future), SWEN (Swedish Emergency Network), and Finland's VIRVE 2 broadband service for PPDR users to New Zealand’s PSN (Public Safety Network), Royal Thai Police's Band 26/n26 (800 MHz) LTE network, Japan’s PSMS (Public Safety Mobile System), Ireland’s new mission-critical communications system, Italian Ministry of Interior's public safety LTE/5G service, Spain's SIRDEE (State Emergency Digital Radiocommunications System) mission-critical broadband network, Hungary's EDR 2.0/3.0 5G-ready PPDR broadband network, Turkish National Police’s KETUM (Encrypted Critical Communications System), Romania’s hybrid PPDR broadband network, Qatar MOI's (Ministry of Interior) LTE network, Oman’s Band 20/n20 (800 MHz) public safety broadband network, Jordan’s hybrid TETRA-LTE communications system, Egypt’s NAS (Unified National Emergency & Public Safety Network), and Brazilian Federal Government’s private network project.
The Hong Kong Police Force’s $250 million 5G-based NGCS (Next-Generation Communications System) project, which follows a very different approach from mainland China, is comparable to national programs in smaller countries. Nationwide initiatives in the pre-operational stage include Norway's Nytt Nødnett, Germany’s BOS broadband network, Belgium’s NextGenCom (Next-Generation Mobile Communication), Dutch Ministry of Justice and Security’s VMX (Mission-Critical Communications Renewal), Switzerland’s MSK (Secure Mobile Broadband Communications) system, India’s BB-PPDR (Broadband PPDR) network, Sri Lanka Police’s new crime and emergency services communications system, Nigerian federal government’s NPSCS (National Public Security Communication System), Australia's PSMB (Public Safety Mobile Broadband) program, and Canada's national PSBN (Public Safety Broadband Network) initiative.
3GPP-compliant MCX services are a foundational component of nationwide public safety broadband networks, and multiple procurement contracts have recently been awarded for both gateway-enabled interoperability solutions and 3GPP standards-based IWF (Interworking Function) technology, which enables system-level interworking between LMR and MCX systems during concurrent operation. The integration of NG911 (Next-Generation 911) systems, live video feeds from body-worn cameras, drones, and vehicles, 3D geolocation services, AI (Artificial Intelligence) analytics, and situational awareness platforms is increasingly gaining significance in national public safety broadband programs, as is the inclusion of rapidly deployable network assets, direct-to-device connectivity from satellites, and in-building coverage for emergency communications. FirstNet’s macro coverage layer is complemented by a growing number of indoor small cells – currently at 14,000 units – supporting operation in Band 14/n14 (700 MHz) spectrum. Britain’s ESN, Sweden’s SWEN, and Finland's VIRVE 2 programs will also involve large-scale rollouts of in-building coverage solutions.
Beyond state-funded national programs, public mobile operators in some countries are pitching network slicing over their recently launched standalone 5G cores as an alternative to dedicated networks. Independent small-to-medium scale private 5G networks are also being deployed to address specific operational needs. For instance, Mexico City Police is using a standalone private 5G network to enable low-latency streaming of visual content to wireless VR headsets as part of an immersive training system, while Abu Dhabi Police has recently procured a private 5G solution, with an initial focus on high-definition video surveillance. The police force’s broader video surveillance systems are supplemented by over 150 AI models for real-time detection of traffic violations, suspect identification, and predictive analytics for crime prevention. In Spain, Madrid City Council and UME (Emergency Military Unit) have adopted tactical bubble solutions – based on transportable private 5G cell sites and network slicing over commercial 5G networks – for enhanced emergency preparedness and forest firefighting operations. Among other examples, the southern French city of Istres has deployed a private 5G network to reduce video surveillance camera installation costs by up to 80% by eliminating infrastructure-related overheads typically associated with fiber-based connections.
In the United States, both Verizon and T-Mobile have launched first responder network slices to rival the AT&T-operated FirstNet national public safety broadband network. In addition to other Band 48/n48 (3.5 GHz) CBRS spectrum-enabled private 5G networks for smart city applications, GDC (Georgia Department of Corrections) is deploying a private 5G network to provide indoor and outdoor coverage for physically isolated and secure communications at a new state prison campus. There has also been an uptick in both procurement efforts and field trials of private 5G network equipment operating in Band n79 (4.4-5 GHz) federal spectrum and Globalstar’s Band 53/n53 (2.4 GHz) spectrum. In addition, 50 MHz of public safety spectrum in the 4,940-4,990 MHz frequency range is being standardized as Band n114 (4.9 GHz) in 3GPP Release 20 specifications.
Other operational deployments range from the Halton-Peel region PSBN in Canada's Ontario province, Polkomtel’s Band 87/n87 (410 MHz) MCX network in Poland, China's city and district-wide Band 45 (1.4 GHz) LTE networks for police forces, portable 5G systems and sliced virtual private 5G networks in both China and Taiwan, provincial-level Band 26/n26 (800 MHz) safe city networks in Pakistan, Nedaa's mission-critical broadband network in Dubai, Kenyan Police Service’s custom-built LTE network, Zambia's 400 MHz broadband trunking system, Mauritania's public safety LTE network for urban security in Nouakchott, Madagascar’s private LTE network for safe city applications in Antananarivo, Uruguayan Ministry of Interior's private LTE for border surveillance reinforcement in the Rivera Department, Brazil's state-wide LTE networks for public security secretariats, penitentiary administrations, and military police forces, and the Guyanese government's 3GPP-based critical communications network to local and regional-level public safety broadband networks in markets as diverse as Singapore, Malaysia, Indonesia, the Philippines, Laos, Iraq, Kuwait, Bahrain, Lebanon, Ghana, Cote D'Ivoire, Cameroon, Mali, Mauritius, Canary Islands, Trinidad & Tobago, Colombia, Venezuela, Ecuador, Bolivia, Argentina, Serbia, Ukraine, and Russia, as well as multi-domain critical communications broadband networks such as Southern Linc's mission-critical LTE network for first responders and utilities in the southeastern United States, and secure MVNO platforms in Mexico and several European countries.
SNS Telecom & IT estimates that annual investments in public safety LTE/5G infrastructure and devices reached $5 billion in 2025, driven by both new projects and the expansion of existing dedicated, hybrid government-commercial, and secure MVNO/MOCN networks. Complemented by an expanding ecosystem of public safety-grade LTE/5G devices, the market will further grow at a CAGR of approximately 8% over the next three years, eventually accounting for more than $6.3 billion by the end of 2028. The positive outlook of the market coincides with meaningful progress in addressing the remaining challenge of direct mode or D2D (Device-to-Device) communications, which is often cited as the last major hurdle in the transition from LMR systems to 3GPP broadband technology. 5G NR sidelink-equipped prototype terminals for D2D communications and multi-hop relay networking are being made available for field trials by defense and public safety agencies between 2026 and 2027, with the commercial availability of chipsets expected before the end of the decade. In parallel, some national program administrators are adopting interim solutions, including LMR-based RSMs (Remote Speaker Microphones) and hybrid LMR-broadband devices.
The “Public Safety LTE & 5G Market: 2025 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents an in-depth assessment of the public safety LTE and 5G market, including the value chain, market drivers, barriers to uptake, enabling technologies, operational models, application scenarios, key trends, future roadmap, standardization, spectrum availability/allocation, regulatory landscape, case studies, ecosystem player profiles and strategies. The report also presents global and regional market size forecasts from 2025 to 2030, covering public safety LTE/5G infrastructure, terminal equipment, applications, systems integration and management solutions, as well as subscriptions and service revenue.
The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report, as well as a list and associated details of over 1,900 global public safety LTE/5G engagements – as of Q1 2026.
Table of Contents
2378 Pages
- 1 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 Recent Market Developments
- 1.7 Methodology
- 1.8 Target Audience
- 2 Chapter 2: An Overview of the Public Safety LTE & 5G Market
- 2.1 Narrowband LMR (Land Mobile Radio) Systems in the Public Safety Sector
- 2.1.1 LMR Market Size
- 2.1.1.1 Analog LMR
- 2.1.1.2 DMR
- 2.1.1.3 dPMR, NXDN & PDT
- 2.1.1.4 P25
- 2.1.1.5 TETRA
- 2.1.1.6 Tetrapol
- 2.1.1.7 Other LMR Technologies
- 2.1.2 Data Service Limitations in Digital LMR Systems
- 2.2 Adoption of Commercial Mobile Broadband Technologies
- 2.2.1 Why Use Commercial Technologies?
- 2.2.2 Role of Mobile Broadband in Public Safety Communications
- 2.2.3 Can Mission-Critical 3GPP Networks Fully Replace LMR Systems?
- 2.3 An Introduction to the 3GPP-Defined LTE & 5G Standards
- 2.3.1 LTE: The First Global Standard for Cellular Communications
- 2.3.2 LTE-Advanced: Delivering the Promise of True 4G Performance
- 2.3.3 LTE-Advanced Pro: Laying the Foundation for the 5G Era
- 2.3.4 Public Safety Communications Support in LTE-Advanced Pro
- 2.3.5 5G: Accelerating 3GPP Expansion in Vertical Industries
- 2.3.5.1 5G Service Profiles
- 2.3.5.1.1 eMBB (Enhanced Mobile Broadband)
- 2.3.5.1.2 URLLC (Ultra-Reliable, Low-Latency Communications)
- 2.3.5.1.3 mMTC/mIoT (Massive Machine-Type Communications/Internet of Things)
- 2.3.6 5G-Advanced & the Evolution to 6G
- 2.3.7 5G Application Scenarios for Public Safety
- 2.4 Why Adopt LTE & 5G for Public Safety Broadband?
- 2.4.1 Performance, Reliability & Security Characteristics
- 2.4.2 Spectrum Diversity & Flexible Channel Bandwidths
- 2.4.3 Support for Mission-Critical Applications
- 2.4.4 Interworking With Legacy LMR Systems
- 2.4.5 Future Transition Path Towards 6G Networks
- 2.4.6 Thriving Ecosystem of Chipsets, Devices & Network Equipment
- 2.5 Public Safety Broadband Network Operational Models
- 2.5.1 Fully Dedicated Private Broadband Network
- 2.5.2 Shared Core Network With Independent RANs
- 2.5.3 Hybrid Government-Commercial Network
- 2.5.4 Secure MVNO & MOCN (Dedicated Mobile Core)
- 2.5.5 Access Over Commercial Broadband Networks
- 2.5.6 Sliced 5G Network for Public Safety Communications
- 2.5.7 Other Approaches
- 2.6 Financing & Delivering Dedicated Public Safety Broadband Networks
- 2.6.1 National Government Authority-Owned & Operated
- 2.6.2 Local Government/Public Safety Agency-Owned & Operated
- 2.6.3 BOO (Built, Owned & Operated) by Critical Communications Service Provider
- 2.6.4 Government-Funded & Commercial Carrier-Operated
- 2.6.5 Other Forms of PPPs (Public-Private Partnerships)
- 2.7 Public Safety LTE/5G Value Chain
- 2.7.1 Enabling Technology Providers
- 2.7.2 Terminal Equipment Manufacturers
- 2.7.3 RAN, Mobile Core & Transport Infrastructure Suppliers
- 2.7.4 MCX/PTT & Broadband-Enabled Application Developers
- 2.7.5 Connectivity Providers
- 2.7.5.1 Critical Communications Service Providers
- 2.7.5.2 Commercial Mobile Operators
- 2.7.5.3 In-Building Neutral Hosts
- 2.7.5.4 Satellite Operators & Others
- 2.7.6 Public Safety Communications System Integrators
- 2.7.7 Dispatch, Control Room & Ancillary System Specialists
- 2.7.8 Test/Measurement, Cybersecurity & Other Ecosystem Players
- 2.7.9 End User Organizations
- 2.8 Market Drivers
- 2.8.1 Growing Demand for Video Communications & High-Speed Data Access
- 2.8.2 Public Safety Community’s Endorsement of 3GPP Technology
- 2.8.3 Support for MCX (Mission-Critical PTT, Video & Data) Functionality
- 2.8.4 Provision of Enhanced QPP (QoS, Priority & Preemption) Capabilities
- 2.8.5 Interoperability for National & Cross-Border Operations
- 2.8.6 Data Privacy & Network Security in Dedicated Broadband Networks
- 2.8.7 Cost Benefits Enabled by Consumer-Driven Economies of Scale
- 2.8.8 Limited Competition From Non-3GPP Broadband Technologies
- 2.9 Market Barriers
- 2.9.1 Licensed PPDR Spectrum Availability & Legal Basis for QPP Capabilities
- 2.9.2 Financial Challenges Associated With Nationwide & Large-Scale Deployments
- 2.9.3 Technical Complexities of Dedicated Network Implementation & Operation
- 2.9.4 Gap Between Standardization & Commercial Availability of Critical Features
- 2.9.5 ProSe/Sidelink Chipset Ecosystem for Direct Mode Communications
- 2.9.6 Design & Ergonomics of Broadband Devices for Critical Communications
- 2.9.7 COTS (Commercial Off-the-Shelf) Network Equipment Challenges
- 2.9.8 Conservatism of End User Organizations
- 3 Chapter 3: System Architecture & Technologies for Public Safety LTE/5G Networks
- 3.1 Architectural Components of Public Safety LTE/5G Networks
- 3.1.1 UE (User Equipment)
- 3.1.1.1 Smartphones & Handportable Terminals
- 3.1.1.2 Mobile & Vehicular Routers
- 3.1.1.3 Fixed CPEs (Customer Premises Equipment)
- 3.1.1.4 Tablets & Notebook PCs
- 3.1.1.5 Smart Wearables
- 3.1.1.6 Cellular IoT Modules
- 3.1.1.7 Add-On Dongles
- 3.1.2 RAN (Radio Access Network)
- 3.1.2.1 E-UTRAN – LTE RAN
- 3.1.2.1.1 eNBs – LTE Base Stations
- 3.1.2.2 NG-RAN – 5G NR Access Network
- 3.1.2.2.1 gNBs – 5G NR Base Stations
- 3.1.2.2.2 en-gNBs – Secondary Node 5G NR Base Stations
- 3.1.2.2.3 ng-eNBs – Next-Generation LTE Base Stations
- 3.1.2.3 Architectural Components of eNB/gNB Base Stations
- 3.1.2.3.1 RUs (Radio Units)
- 3.1.2.3.2 Integrated Radio & Baseband Units
- 3.1.2.3.3 DUs (Distributed Baseband Units)
- 3.1.2.3.4 CUs (Centralized Baseband Units)
- 3.1.3 Transport Network
- 3.1.3.1 Fronthaul
- 3.1.3.2 Midhaul
- 3.1.3.3 Backhaul
- 3.1.3.4 Physical Transmission Mediums
- 3.1.3.4.1 Fiber & Wireline Transport Technologies
- 3.1.3.4.2 Microwave & mmWave (Millimeter Wave) Wireless Links
- 3.1.3.4.3 Satellite Communications
- 3.1.4 Mobile Core
- 3.1.4.1 EPC (Evolved Packet Core) – LTE Mobile Core
- 3.1.4.1.1 SGW (Serving Gateway)
- 3.1.4.1.2 PGW (Packet Data Network Gateway)
- 3.1.4.1.3 MME (Mobility Management Entity)
- 3.1.4.1.4 HSS (Home Subscriber Server)
- 3.1.4.1.5 PCRF (Policy Charging & Rules Function)
- 3.1.4.2 5GC (5G Core) – Core Network for Standalone 5G Implementations
- 3.1.4.2.1 AMF (Access & Mobility Management Function)
- 3.1.4.2.2 SMF (Session Management Function)
- 3.1.4.2.3 UPF (User Plane Function)
- 3.1.4.2.4 PCF (Policy Control Function)
- 3.1.4.2.5 NEF (Network Exposure Function)
- 3.1.4.2.6 NRF (Network Repository Function)
- 3.1.4.2.7 UDM (Unified Data Management)
- 3.1.4.2.8 UDR (Unified Data Repository)
- 3.1.4.2.9 AUSF (Authentication Server Function)
- 3.1.4.2.10 AFs (Application Functions)
- 3.1.4.2.11 NSSF (Network Slice Selection Function)
- 3.1.4.2.12 NWDAF (Network Data Analytics Function)
- 3.1.4.3 Other 5GC Elements
- 3.1.5 Services & Interconnectivity
- 3.1.5.1 IMS (IP-Multimedia Subsystem) & Application Service Elements
- 3.1.5.1.1 IMS Core & VoLTE-VoNR (Voice-Over-LTE & 5G NR)
- 3.1.5.1.2 MBMS, eMBMS, FeMBMS & 5G MBS/5MBS (5G Multicast-Broadcast Services)
- 3.1.5.1.3 Group Communications & MCS (Mission-Critical Services)
- 3.1.5.1.4 ProSe (Proximity-Based Services) for Direct D2D (Device-to-Device) Discovery & Communications
- 3.1.5.2 Interconnectivity With 3GPP & Non-3GPP Networks
- 3.1.5.2.1 3GPP Roaming & Service Continuity
- 3.1.5.2.2 National & International Roaming
- 3.1.5.2.3 Service Continuity Outside Network Footprint
- 3.1.5.2.4 Interoperability Gateways Supporting Non-3GPP Network Integration
- 3.1.5.2.5 IWF (Interworking Function) for LMR-3GPP Interworking
- 3.2 Key Enabling Technologies & Concepts
- 3.2.1 MCPTT (Mission-Critical PTT) Voice & Group Communications
- 3.2.1.1 Functional Capabilities of the MCPTT Service
- 3.2.1.2 Performance Comparison With LMR Voice Services
- 3.2.1.3 Mission-Critical Video & Data
- 3.2.1.3.1 MCVideo (Mission-Critical Video)
- 3.2.1.3.2 MCData (Mission-Critical Data)
- 3.2.2 ProSe & Sidelink (PC5) Interface for Direct Mode Communications
- 3.2.2.1 Direct Communication for Coverage Extension
- 3.2.2.2 Direct Communication Within Network Coverage
- 3.2.2.3 Infrastructure Failure & Emergency Scenarios
- 3.2.2.4 Additional Capacity for Incident Response & Special Events
- 3.2.2.5 Discovery Services for Disaster Relief
- 3.2.3 UE-Related Enhancements
- 3.2.3.1 Ruggedization to Meet Critical Communications User Requirements
- 3.2.3.2 Dedicated PTT Buttons & Functional Enhancements
- 3.2.3.3 Long-Lasting Batteries
- 3.2.3.4 HPUE (High-Power User Equipment)
- 3.2.3.5 Wireless Connection Bonding
- 3.2.4 IOPS (Isolated Operation for Public Safety)
- 3.2.4.1 Ensuring Resilience & Service Continuity for Critical Communications
- 3.2.4.2 Localized Mobile Core & Application Capabilities
- 3.2.4.3 Support for Regular & Nomadic Base Stations
- 3.2.4.4 Isolated RAN Scenarios
- 3.2.4.4.1 No Backhaul
- 3.2.4.4.2 Limited Backhaul for Signaling Only
- 3.2.4.4.3 Limited Backhaul for Signaling & User Data
- 3.2.5 Cell Site & Infrastructure Hardening
- 3.2.5.1 Overlapping Cell Site Coverage
- 3.2.5.2 Geo-Redundant Data Centers
- 3.2.5.3 Multiple Backhaul Connections
- 3.2.5.4 Backup Power Sources
- 3.2.5.5 Structural Hardening
- 3.2.5.6 Cyber & Physical Security Measures
- 3.2.6 Rapidly Deployable LTE & 5G Network Systems
- 3.2.6.1 Key Operational Capabilities
- 3.2.6.1.1 RAN-Only Systems for Coverage & Capacity Enhancement
- 3.2.6.1.2 Mobile Core-Integrated Systems for Autonomous Operation
- 3.2.6.1.3 Backhaul Interfaces & Connectivity
- 3.2.6.2 NIB (Network-in-a-Box): Self-Contained Portable Systems
- 3.2.6.2.1 Backpacks
- 3.2.6.2.2 Tactical Cases
- 3.2.6.2.3 Pre-Integrated Racks
- 3.2.6.3 Wheeled & Vehicular-Based Deployables
- 3.2.6.3.1 COW (Cell-on-Wheels)
- 3.2.6.3.2 COLT (Cell-on-Light Truck)
- 3.2.6.3.3 SOW (System-on-Wheels)
- 3.2.6.3.4 VNS (Vehicular Network System)
- 3.2.6.4 Aerial Cell Sites
- 3.2.6.4.1 Drones
- 3.2.6.4.2 Balloons
- 3.2.6.4.3 Other Aircraft
- 3.2.6.5 Maritime Cellular Platforms
- 3.2.7 Network Coverage Extension
- 3.2.7.1 UE-to-Network & UE-to-UE Relays
- 3.2.7.2 Indoor & Outdoor Small Cells
- 3.2.7.3 DAS (Distributed Antenna Systems)
- 3.2.7.4 IAB (Integrated Access & Backhaul)
- 3.2.7.5 Mobile IAB: VMRs (Vehicle-Mounted Relays)
- 3.2.7.6 MWAB (Mobile gNB With Wireless Access Backhauling)
- 3.2.7.7 NCRs (Network-Controlled Repeaters)
- 3.2.7.8 NTNs (Non-Terrestrial Networks) & Direct-to-Device Technology
- 3.2.7.9 ATG/A2G (Air-to-Ground) Connectivity
- 3.2.8 QPP Mechanisms for Network Resource Control
- 3.2.8.1 Access Priority: ACB (Access Class Barring) & UAC (Unified Access Control)
- 3.2.8.2 Admission Control Priority: ARP (Allocation & Retention Priority)
- 3.2.8.3 Preemption: PCI/PVI (Preemption Capability & Vulnerability Information)
- 3.2.8.4 Traffic Scheduling Priority: QCI (QoS Class Indicator) & 5QI (5G QoS Identifier)
- 3.2.8.5 Emergency Scenarios: MPS (Multimedia Priority Service)
- 3.2.8.6 Application Priority & Additional Capabilities
- 3.2.9 E2E (End-to-End) Security
- 3.2.9.1 3GPP-Specified Security Architecture
- 3.2.9.1.1 UE Authentication Framework
- 3.2.9.1.2 Subscriber Privacy
- 3.2.9.1.3 Air Interface Confidentiality & Integrity
- 3.2.9.1.4 Resilience Against Radio Jamming
- 3.2.9.1.5 RAN, Core & Transport Network Security
- 3.2.9.1.6 Security Aspects of Network Slicing
- 3.2.9.2 Application Domain Protection & E2E Encryption
- 3.2.9.3 National Requirements & Other Considerations
- 3.2.9.4 Quantum Cryptography Technologies
- 3.2.10 3GPP Support for NPNs (Non-Public Networks)
- 3.2.10.1 Types of NPNs
- 3.2.10.1.1 SNPNs (Standalone NPNs)
- 3.2.10.1.2 PNI-NPNs (Public Network-Integrated NPNs)
- 3.2.10.2 SNPN Identification & Selection
- 3.2.10.3 PNI-NPN Resource Allocation & Isolation
- 3.2.10.4 CAG (Closed Access Group) for Cell Access Control
- 3.2.10.5 Mobility, Roaming & Service Continuity
- 3.2.10.6 Interworking Between SNPNs & Public Networks
- 3.2.10.7 UE Configuration & Subscription-Related Aspects
- 3.2.10.8 Other 3GPP-Defined Capabilities for NPNs
- 3.2.11 Network Slicing
- 3.2.11.1 Logical Partitioning of Network Resources
- 3.2.11.2 3GPP Functions, Identifiers & Procedures for Slicing
- 3.2.11.3 RAN Slicing
- 3.2.11.4 Mobile Core Slicing
- 3.2.11.5 Transport Network Slicing
- 3.2.11.6 UE-Based Network Slicing Features
- 3.2.11.7 Management & Orchestration Aspects
- 3.2.12 Infrastructure Sharing
- 3.2.12.1 Service-Specific PLMN (Public Land Mobile Network) IDs
- 3.2.12.2 DNN (Data Network Name)/APN (Access Point Name)-Based Isolation
- 3.2.12.3 GWCN (Gateway Core Network): Core Network Sharing
- 3.2.12.4 MOCN (Multi-Operator Core Network): RAN & Spectrum Sharing
- 3.2.12.5 MORAN (Multi-Operator RAN): RAN Sharing Without Spectrum Pooling
- 3.2.12.6 DECOR (Dedicated Core) & eDECOR (Enhanced DECOR)
- 3.2.12.7 Roaming in Non-Overlapping Service Areas
- 3.2.12.8 Passive Sharing of Infrastructure Resources
- 3.2.13 IoT-Focused Technologies
- 3.2.13.1 eMTC, NB-IoT & mMTC: LTE-Based Wide Area & High-Density IoT Applications
- 3.2.13.2 5G NR Light: RedCap (Reduced Capability) UE Type
- 3.2.13.3 eRedCap (Enhanced RedCap) for Low-Tier Use Cases
- 3.2.13.4 Ambient IoT Technology Supporting Battery-Less Operation
- 3.2.13.5 URLLC Techniques: High-Reliability & Low-Latency Enablers
- 3.2.13.6 5G LAN (Local Area Network)-Type Service
- 3.2.13.7 Integration With IEEE 802.1 TSN (Time-Sensitive Networking) Systems
- 3.2.13.8 Native 3GPP Framework for TSC (Time-Sensitive Communications)
- 3.2.13.9 Support for IETF DetNet (Deterministic Networking)
- 3.2.14 High-Precision Positioning
- 3.2.14.1 Assisted-GNSS (Global Navigation Satellite System)
- 3.2.14.2 RAN-Based Positioning Techniques
- 3.2.14.3 RAN-Independent Methods
- 3.2.15 Spectrum Sharing & Management
- 3.2.15.1 Public Safety Spectrum Sharing & Aggregation
- 3.2.15.2 SDR (Software-Defined Radio)
- 3.2.15.3 Cognitive Radio & Spectrum Sensing
- 3.2.15.4 Shared & Unlicensed Spectrum
- 3.2.15.4.1 DSS (Dynamic Spectrum Sharing): LTE & 5G NR Coexistence
- 3.2.15.4.2 CBRS (Citizens Broadband Radio Service): Three-Tiered Sharing
- 3.2.15.4.3 LSA (Licensed Shared Access) & eLSA (Evolved LSA): Two-Tiered Sharing
- 3.2.15.4.4 AFC (Automated Frequency Coordination): License-Exempt Sharing
- 3.2.15.4.5 Local Area Licensing of Shared Spectrum
- 3.2.15.4.6 LTE-U, LAA (Licensed Assisted Access), eLAA (Enhanced LAA) & FeLAA (Further Enhanced LAA)
- 3.2.15.4.7 MulteFire: Standalone LTE Operation in Unlicensed Spectrum
- 3.2.15.4.8 License-Exempt 1.9 GHz sXGP (Shared Extended Global Platform)
- 3.2.15.4.9 5G NR-U (NR in Unlicensed Spectrum)
- 3.2.16 MEC (Multi-Access or Mobile Edge Computing)
- 3.2.16.1 Optimizing Latency, Service Performance & Backhaul Costs
- 3.2.16.2 3GPP-Defined Features for Edge Computing Support
- 3.2.16.3 Public vs. Private Edge Computing
- 3.2.17 Cloud-Native, Software-Driven & Open Networking
- 3.2.17.1 Cloud-Native Technologies
- 3.2.17.2 Microservices & SBA (Service-Based Architecture)
- 3.2.17.3 Containerization of Network Functions
- 3.2.17.4 NFV (Network Functions Virtualization)
- 3.2.17.5 SDN (Software-Defined Networking)
- 3.2.17.6 Cloud Compute, Storage & Networking Infrastructure
- 3.2.17.7 APIs (Application Programming Interfaces)
- 3.2.17.8 Open RAN & Core Architectures
- 3.2.18 Network Intelligence & Automation
- 3.2.18.1 AI (Artificial Intelligence)
- 3.2.18.2 Machine & Deep Learning
- 3.2.18.3 Big Data & Advanced Analytics
- 3.2.18.4 SON (Self-Organizing Networks)
- 3.2.18.5 Intelligent Control, Management & Orchestration
- 3.2.18.6 Support for Network Intelligence & Automation in 3GPP Standards
- 4 Chapter 4: Public Safety LTE/5G Application Scenarios & Use Cases
- 4.1 Mission-Critical HD Voice & Group Communications
- 4.1.1 Group Calls
- 4.1.2 Private Calls
- 4.1.3 First-to-Answer Calls
- 4.1.4 Broadcast Calls
- 4.1.5 Imminent Peril Calls
- 4.1.6 Emergency Calls & Alerts
- 4.1.7 Ambient & Discrete Listening
- 4.1.8 Remotely Initiated Calls
- 4.2 Real-Time Video & High-Resolution Imagery
- 4.2.1 Mobile Video & Imagery Transmission
- 4.2.2 Video Transport From Fixed Cameras
- 4.2.3 Aerial Video Surveillance
- 4.2.4 Group-Based Video Communications
- 4.2.5 Video Conferencing for Small Groups
- 4.2.6 Private One-To-One Video Calls
- 4.2.7 Video Pull & Push Services
- 4.2.8 Ambient Viewing
- 4.3 Messaging, File Transfer & Presence Services
- 4.3.1 SDS (Short Data Service)
- 4.3.2 RTT (Real-Time Text)
- 4.3.3 File Distribution
- 4.3.4 Multimedia Messaging
- 4.3.5 Data Streaming
- 4.3.6 Presence & Status
- 4.4 Secure & Seamless Mobile Broadband Access
- 4.4.1 IPCon (IP Connectivity) for Mission-Critical Services
- 4.4.2 Email, Internet & Corporate Intranet
- 4.4.3 Remote Database Access
- 4.4.4 Mobile Office & Field Applications
- 4.4.5 Wireless Telemetry
- 4.4.6 Bulk Multimedia & Data Transfers
- 4.4.7 Seamless Data Roaming
- 4.4.8 Public Safety-Grade Mobile VPN (Virtual Private Network)
- 4.5 Location Services & Mapping
- 4.5.1 Network Assisted-GPS/GNSS
- 4.5.2 Indoor & Urban Positioning
- 4.5.3 Floor-Level & 3D Geolocation
- 4.5.4 Advanced Mapping & Spatial Analytics
- 4.5.5 AVL (Automatic Vehicle Location) & Fleet Management
- 4.5.6 Field Personnel & Asset Tracking
- 4.5.7 Navigation for Vehicles, Vessels & Aircraft
- 4.5.8 Geo-Fencing for Public Safety Operations
- 4.6 Command & Control
- 4.6.1 CAD (Computer Aided Dispatch)
- 4.6.2 NG911 (Next-Generation 911) Integration
- 4.6.3 Situational Awareness
- 4.6.4 Common Operating Picture
- 4.6.5 Integration of Critical IoT Assets
- 4.6.6 Remote Control of Drones, Robots & Other Unmanned Systems
- 4.6.7 Digital Signage & Traffic Alerts
- 4.7 5G & Advanced Public Safety Broadband Applications
- 4.7.1 UHD (Ultra-High Definition) Video Transmission
- 4.7.2 Massive-Scale Surveillance & Analytics
- 4.7.3 AR, VR & MR (Augmented, Virtual & Mixed Reality)
- 4.7.4 Smart Glasses for Frontline Police Officers
- 4.7.5 5G-Connected AR Headgear for Firefighters
- 4.7.6 Telehealth & Remote Surgery for EMS (Emergency Medical Services)
- 4.7.7 AR Overlays for Police Cruisers, Ambulances, Fire Engines & Helicopters
- 4.7.8 Holographic Command Centers
- 4.7.9 Wireless VR/MR-Based Training
- 4.7.10 Real-Time Physiological Monitoring of First Responders
- 4.7.11 5G-Equipped Autonomous Police Robots
- 4.7.12 Unmanned Aerial, Ground & Marine Vehicles
- 4.7.13 Powering the IoLST (Internet of Life Saving Things)
- 4.7.14 5G MBS/5MBS Multicast-Broadcast Services in High-Density Environments
- 4.7.15 5G NR Sidelink-Based Direct Mode Voice, Video & Data Communications
- 4.7.16 Coverage Expansion Through UE-To-Network & UE-to-UE Relaying
- 4.7.17 Satellite & NTN-Assisted 5G NR Access
- 4.7.18 Centimeter-Level Positioning for First Responder Operations
- 4.7.19 Practical Examples of 5G Era Public Safety Applications
- 4.7.19.1 Abu Dhabi Police: Leveraging Private 5G & AI Models for Real-Time Video Intelligence
- 4.7.19.2 Area X.O (Invest Ottawa): 5G Mobile Command Center
- 4.7.19.3 Blueforce Development: 5G & Edge Computing for Situational Awareness
- 4.7.19.4 City of Istres: Private 5G-Connected Video Surveillance Cameras
- 4.7.19.5 City of Las Vegas: Improving Traffic Safety With Municipal Private 5G Network
- 4.7.19.6 Citymesh: 5G Safety Drone Shield for Emergency Services
- 4.7.19.7 Cosumnes Fire Department: AR Firefighting Helmets
- 4.7.19.8 DRZ (German Rescue Robotics Center): 5G-Equipped Mobile Robotics for Rescue Operations
- 4.7.19.9 Dubai Police: AI-Enabled Identification of Criminals
- 4.7.19.10 Edgybees: Real-Time Augmented Visual Intelligence
- 4.7.19.11 Edmonton Police Service: 5G Network Slicing for Critical Surveillance During Special Events
- 4.7.19.12 Gimcheon City Integrated Control Center: Private 5G Network for AI-Powered CCTV System
- 4.7.19.13 Government of Catalonia: 5G-Equipped Emergency Medical Vehicles
- 4.7.19.14 Hsinchu City Fire Department: Digital Resiliency Through Satellite-Backhauled Private 5G Network
- 4.7.19.15 Kaohsiung City Police Department: 5G Smart Patrol Car Solution Based on End-to-End Network Slicing
- 4.7.19.16 LAFD (Los Angeles Fire Department): Prioritized 5G Connectivity for Wildfire Response
- 4.7.19.17 Leuven Police: Combating Illegal Dumping & Public Nuisances With 5G-Connected Mobile Cameras
- 4.7.19.18 Lishui Municipal Emergency Management Bureau: 5G-Enabled Natural Disaster Management System
- 4.7.19.19 Madrid City Council: Hybrid Sliced & Private 5G Network Solution for Enhanced Emergency Preparedness
- 4.7.19.20 Maebashi City Fire Department: 5G for Emergency Response & Rescue Services
- 4.7.19.21 Mexico City Police: Transforming Law Enforcement Training Using Private 5G & Wireless VR
- 4.7.19.22 National Police of the Netherlands: AR-Facilitated Crime Scene Investigations
- 4.7.19.23 New Zealand Police: Aerial Surveillance Through 5G NR Connectivity
- 4.7.19.24 NHS (National Health Service, United Kingdom): 5G-Connected Smart Ambulances
- 4.7.19.25 Norwegian Air Ambulance: Portable 5G Network for Search & Rescue Operations
- 4.7.19.26 PDRM (Royal Malaysia Police): 5G-Enabled Safe City Solution for Langkawi
- 4.7.19.27 Shenzhen Public Security Bureau: 5G-Connected Unmanned Police Boats
- 4.7.19.28 Skydio: 5G-Enabled Multi-Modal Drone Connectivity Solution for Public Safety Agencies
- 4.7.19.29 SPF (Singapore Police Force): 5G-Equipped Police Robots
- 4.7.19.30 UME (Emergency Military Unit, Spain): Private 5G Solution for Forest Firefighting Operations
- 5 Chapter 5: Review of Public Safety LTE/5G Engagements Worldwide
- 5.1 North America
- 5.1.1 United States: Leading the Way With FirstNet – The World's Largest Public Safety Broadband Network
- 5.1.2 Canada: National PSBN (Public Safety Broadband Network) – Hopes for Progress Through New National Security Funding
- 5.2 Asia Pacific
- 5.2.1 Australia: National PSMB (Public Safety Mobile Broadband) Program
- 5.2.2 New Zealand: PSN (Public Safety Network) Program – Multi-Operator Cellular Roaming With Priority & Preemption
- 5.2.3 China: Private 5G Slicing & Band 45 (1.4 GHz) LTE Networks for Police Forces
- 5.2.4 Hong Kong: NGCS (Next-Generation Communications System) – Band 28/n28 (700 MHz) Mission-Critical 5G Network
- 5.2.5 Taiwan: Private 5G Deployables for Local Agencies & Planned Implementation of an MOCN-Enabled National PPDR Broadband System
- 5.2.6 Japan: PSMS (Public Safety Mobile System) – National Secure MVNO Service With Priority Access for First Responders
- 5.2.7 South Korea: Safe-Net – Spearheading Nationwide Public Safety Broadband Network Deployments
- 5.2.8 Singapore: Evolution of Public Safety Communications & Sliced Defense/National Security 5G Solution
- 5.2.9 Malaysia: Evaluating Multiple Delivery Models for Mission-Critical Broadband Services
- 5.2.10 Indonesia: Hybrid Narrowband-Broadband Solutions & Field Trials of 450/700 MHz Public Safety LTE Networks
- 5.2.11 Philippines: Rapidly Deployable LTE Systems for Disaster Relief
- 5.2.12 Thailand: Band 26/n26 (800 MHz) LTE Network for the Royal Thai Police
- 5.2.13 Vietnam: Future Plans for a Public Safety Broadband Capability
- 5.2.14 Laos: LTE-Based Emergency Communications Networks for Local Governments
- 5.2.15 Myanmar: Possible Rollout of a 700 MHz Public Safety Broadband Network
- 5.2.16 India: Proposed Deployment of a Pan-India BB-PPDR (Broadband PPDR) Network
- 5.2.17 Pakistan: Dedicated Band 26/n26 (800 MHz) LTE Networks for Safe City Projects
- 5.2.18 Sri Lanka: Planned Deployment of an LTE-Based Emergency Services Communications System
- 5.2.19 Bangladesh: Portable LTE Networks for VIP Protection Operations
- 5.3 Europe
- 5.3.1 United Kingdom
- 5.3.1.1 Great Britain: ESN – Leveraging Resilient Commercial RAN Infrastructure for Emergency Communications
- 5.3.1.2 Northern Ireland: Shared RAN for FRMCS & Public Safety Broadband Communications
- 5.3.2 Republic of Ireland: TETRA Replacement With a Hybrid Commercial-Government Network
- 5.3.3 France: RRF (Radio Network of the Future) – Transitioning From Tetrapol to Mission-Critical Broadband
- 5.3.4 Germany: Moving Towards Phase 1 of New BDBOS Broadband Program
- 5.3.5 Belgium: NextGenCom (Next-Generation Mobile Communication) Program
- 5.3.6 Luxembourg: MCX Over Commercial Networks & RRVs (Rapid Response Vehicles) for Security Missions
- 5.3.7 Netherlands: Upcoming Tender Process VMX (Mission-Critical Communications Renewal) Program
- 5.3.8 Switzerland: Delays to the MSK (Secure Mobile Broadband Communications) Program
- 5.3.9 Austria: Preliminary Planning for a Future Secure Mobile Broadband System
- 5.3.10 Italy: National Rollout of Mission-Critical Broadband Across 11 Provinces
- 5.3.11 Spain: Ongoing Buildout of the SIRDEE Mission-Critical Broadband Network
- 5.3.12 Portugal: Field Trials of TETRA-LTE Integration & 5G for Emergency Services
- 5.3.13 Sweden: SWEN (Swedish Emergency Network) – Progressing Towards TETRA-to-3GPP MCX Migration
- 5.3.14 Norway: Nytt Nødnett – Mission-Critical Communications Over Commercial 3GPP Networks
- 5.3.15 Denmark: FREBI (Future of Emergency Communication – Infrastructure) Project
- 5.3.16 Finland: VIRVE 2 – MOCN-Based Mission-Critical Broadband Service
- 5.3.17 Estonia: Preliminary Planning for TETRA-to-Broadband Migration
- 5.3.18 Latvia: 5G-Connected Drones for Public Safety Monitoring & Rescue Operations
- 5.3.19 Lithuania: Preparatory Work on National Public Safety Broadband Program
- 5.3.20 Czech Republic: Virtual Network Operator Model for Governmental Purposes
- 5.3.21 Poland: MCX Over 410 MHz LTE Network for First Responders & Critical User Groups
- 5.3.22 Hungary: EDR 2.0 Broadband Service Over Band 3/n3 (1.8 GHz) 5G-Ready PPDR Network
- 5.3.23 Slovenia: Establishment of an Interface Between TETRA & LTE/5G Networks
- 5.3.24 Croatia: Early Planning Efforts for PPDR Broadband Program
- 5.3.25 Türkiye: KETUM Hybrid Narrowband-Broadband Public Safety Communications System
- 5.3.26 Cyprus: Planned Deployment of 700 MHz Public Safety Broadband Network
- 5.3.27 Greece: Preparations for National Mobile Broadband Project
- 5.3.28 Bulgaria: LTE-Equipped Body Cameras & TETRA-Broadband Integration
- 5.3.29 Romania: Procurement Contracts Issued for Hybrid PPDR Broadband Network
- 5.3.30 Serbia: Expansion of eLTE Network for Video Surveillance & Broadband Trunking
- 5.3.31 Ukraine: Use of Both Private & Commercial Mobile Networks for Public Safety Broadband
- 5.3.32 Russia: Delayed Buildout of 360-380 MHz LTE Network for Public Safety & Transport Authorities
- 5.4 Middle East & Africa
- 5.4.1 Saudi Arabia: Mission-Critical Broadband Network for Defense, Law Enforcement & Intelligence Agencies
- 5.4.2 United Arab Emirates: Emirate-Wide Band 28/n28 (700 MHz) Public Safety Broadband Networks
- 5.4.3 Qatar: The Middle East's First Dedicated Public Safety Broadband Network
- 5.4.4 Oman: Nationwide Band 20/n20 (800 MHz) LTE Network for the ROP (Royal Oman Police)
- 5.4.5 Bahrain: Planned Rollout of PPDR Broadband Network
- 5.4.6 Kuwait: Mission-Critical Communications Solution for Narrowband-to-Broadband Transition
- 5.4.7 Iraq: Local LTE-Based Wireless Systems for Tactical Communications
- 5.4.8 Jordan: Hybrid TETRA-LTE Communications System
- 5.4.9 Lebanon: LTE Network for Internal Security Forces
- 5.4.10 Israel: Mission-Critical LTE/5G-Ready Networks for Military & Public Safety Communications
- 5.4.11 Egypt: NAS (Unified National Emergency & Public Safety Network) Program
- 5.4.12 Tunisia: Dedicated Band 28/n28 (700 MHz) Spectrum for Public Safety Broadband
- 5.4.13 South Africa: Demand for Access to Sub-1 GHz PPDR Broadband Spectrum
- 5.4.14 Botswana: Planned Band 87/n87 (410 MHz) Public Safety Broadband Network
- 5.4.15 Zambia: 400 MHz Private Broadband System for Safe City Project
- 5.4.16 Kenya: Custom-Built LTE Network for the Kenyan Police Service
- 5.4.17 Madagascar: Antananarivo Private LTE Network for Public Safety & Government Agencies
- 5.4.18 Mauritius: Public Safety LTE Network for the MPF (Mauritius Police Force)
- 5.4.19 Seychelles: Physically Hardened & Geo-Redundant Emergency Communications Network
- 5.4.20 Angola: TETRA-LTE Integration Through Commercial Mobile Operators
- 5.4.21 Republic of the Congo: LTE-Equipped ECVs (Emergency Communications Vehicles)
- 5.4.22 Cameroon: Dedicated LTE Network for Video Surveillance & Broadband Applications
- 5.4.23 Nigeria: NPSCS (National Public Security Communication System) Project
- 5.4.24 Uganda: Private Wireless Network for Fixed & Wireless Surveillance Cameras
- 5.4.25 Ghana: 1.4 GHz LTE-Based National Security Communications Network
- 5.4.26 Côte d'Ivoire: Purpose-Built LTE Network for the Ministry of Interior and Security
- 5.4.27 Mali: LTE-Based Safe City Network for Police & Security Forces
- 5.4.28 Senegal: LTE-Enabled Smart City & Video Surveillance System
- 5.4.29 Mauritania: Public Safety LTE Network for Urban Security in Nouakchott
- 5.5 Latin & Central America
- 5.5.1 Brazil: Private Broadband Networks for the Federal District & State-Level Authorities
- 5.5.2 Mexico: Secure MVNO Broadband Services for Public Safety & Defense Authorities
- 5.5.3 Argentina: City of Buenos Aires’ Hybrid TETRA-MCX Service Platform
- 5.5.4 Uruguay: Private LTE Network for Border Surveillance Operations
- 5.5.5 Colombia: LTE Network Field Trials by the National Police of Colombia
- 5.5.6 Chile: Complementary Broadband Access Over Commercial Networks
- 5.5.7 Peru: Unified LMR-LTE Implementation for Mission-Critical Voice & Broadband Data Services
- 5.5.8 Venezuela: LTE-Equipped VEN 911/SIMA Video Surveillance & Emergency Response System
- 5.5.9 Ecuador: LTE-Based Communications for the ECU-911 Emergency Response Program
- 5.5.10 Bolivia: Private LTE Networks for the BOL-110 Citizen Security System & Other Safe City Projects
- 5.5.11 Barbados: Band 14/n14 (700 MHz) 3GPP-Based Connectivity Service Platform
- 5.5.12 Trinidad & Tobago: Rapidly Deployable 400 MHz LTE System for National Security Applications
- 5.5.13 Dutch Caribbean: Integrated LMR-Broadband Systems for Mission-Critical Voice & Broadband Capabilities
- 5.5.14 Guyana: 3GPP-Based Critical Communications Network for Safe City Applications
- 6 Chapter 6: Public Safety LTE/5G Case Studies
- 6.1 Nationwide Public Safety LTE/5G Projects
- 6.1.1 United States’ FirstNet Nationwide Public Safety Broadband Network
- 6.1.1.1 Operational Model
- 6.1.1.2 Integrators & Suppliers
- 6.1.1.3 Deployment Summary
- 6.1.1.3.1 AT&T RAN & Purpose-Built Band 14/n14 (700 MHz) Cell Sites
- 6.1.1.3.2 Physically Isolated Mobile Core Infrastructure
- 6.1.1.3.3 In-Building Coverage Enhancement Solutions
- 6.1.1.3.4 Deployables for Disasters, Critical Incidents & Planned Events
- 6.1.1.3.5 Plans for Direct-to-Cellular Connectivity via LEO Satellites
- 6.1.1.3.6 Standalone 5G Core Upgrade & Additional Investments
- 6.1.1.4 Key Applications
- 6.1.1.5 3GPP-Compliant MCX Service Platforms
- 6.1.1.6 Interoperability With Legacy LMR Systems
- 6.1.1.7 FirstNet Service Plans & Pricing
- 6.1.1.8 Certification of Terminals, Accessories & Applications
- 6.1.1.9 HPUE & In-Vehicle Solutions
- 6.1.2 New Zealand's NGCC (Next-Generation Critical Communications)-Led PSN Program
- 6.1.2.1 Operational Model
- 6.1.2.2 Integrators & Suppliers
- 6.1.2.3 Deployment Summary
- 6.1.2.3.1 Multi-Network Cellular Roaming Service
- 6.1.2.3.2 Priority Access for First Responders
- 6.1.2.3.3 Network Visibility Service
- 6.1.2.3.4 Compact Rapid Deployables for Temporary Coverage
- 6.1.2.4 Key Applications
- 6.1.2.5 Transition Timeline
- 6.1.3 Hong Kong Police Force’s 5G-Based NGCS Project
- 6.1.3.1 Operational Model
- 6.1.3.2 Integrators & Suppliers
- 6.1.3.3 Deployment Summary
- 6.1.3.3.1 Phase 1: Dedicated Core, MCX Platform & Shared Mobile Operator RAN Services
- 6.1.3.3.2 Phase 2: Purpose-Built Band 28/n28 (700 MHz) RAN Infrastructure in Strategic Locations
- 6.1.3.4 Key Applications
- 6.1.3.5 Direct Supplier Engagement Instead of Public Tendering
- 6.1.3.6 TETRA Replacement & Anticipated Cost Savings
- 6.1.4 Japan's PSMS (Public Safety Mobile System) Service – Formerly PS-LTE (Public Safety LTE)
- 6.1.4.1 Operational Model
- 6.1.4.2 Integrators & Suppliers
- 6.1.4.3 Deployment Summary
- 6.1.4.3.1 Field Demonstration Tests of PS-LTE Technology
- 6.1.4.3.2 Launch of National PSMS-Compatible Services
- 6.1.4.4 Key Applications
- 6.1.4.5 PSMS Service Evolution Plans
- 6.1.4.6 Substitution of Legacy Systems With PSMS
- 6.1.5 South Korea’s Safe-Net National Disaster Safety Communications Network
- 6.1.5.1 Operational Model
- 6.1.5.2 Integrators & Suppliers
- 6.1.5.3 Deployment Summary
- 6.1.5.3.1 Nationwide Buildout Following Successful Pilot Projects
- 6.1.5.3.2 Government-Owned RAN & Mobile Core Infrastructure
- 6.1.5.3.3 MOCN-Based RAN Sharing With Mobile Operators
- 6.1.5.3.4 Transportable Base Stations for Coverage Extension
- 6.1.5.3.5 Interworking With 3GPP-Based Railway & Maritime Networks
- 6.1.5.4 Key Applications
- 6.1.5.5 MCX Service & eMBMS Bearer Support
- 6.1.5.6 Future Plans for 4G-5G Interworking & Migration
- 6.1.5.7 AI-Enabled Safety Management System for South Korea
- 6.1.6 Royal Thai Police's Band 26/n26 (800 MHz) LTE Network
- 6.1.6.1 Operational Model
- 6.1.6.2 Integrators & Suppliers
- 6.1.6.3 Deployment Summary
- 6.1.6.3.1 Initial Buildout in Bangkok
- 6.1.6.3.2 Expansion to Other Major Cities
- 6.1.6.3.3 Rapidly Deployable Network-in-a-Box Systems
- 6.1.6.3.4 Integration With National Command, Control & Dispatch Platform
- 6.1.6.4 Key Applications
- 6.1.6.5 Broadband Access for Other Government & PPDR Users
- 6.1.6.6 Use of Portable LTE Network During the Tham Luang Cave Rescue
- 6.1.6.7 APEC (Asia-Pacific Economic Cooperation) Meetings in Thailand
- 6.1.7 Great Britain’s ESMCP Program & ESN Critical Communications System
- 6.1.7.1 Operational Model
- 6.1.7.2 Integrators & Suppliers
- 6.1.7.3 Deployment Summary
- 6.1.7.3.1 Enhanced Coverage Over EE’s Commercial RAN Infrastructure
- 6.1.7.3.2 Government-Funded EAS (Extended Area Service) Cell Sites
- 6.1.7.3.3 ESN Air: Overlay A2G Network for Emergency Service Aircraft
- 6.1.7.3.4 London Underground & Specific Road/Rail Tunnels
- 6.1.7.3.5 In-Building Coverage Enhancement Solutions
- 6.1.7.3.6 Rapidly Deployable Assets for Temporary Coverage
- 6.1.7.3.7 Dedicated Three-Site Mobile Core Network
- 6.1.7.3.8 Comprehensive User Services
- 6.1.7.4 Key Applications
- 6.1.7.5 ESN Products & MCX Solution
- 6.1.7.6 Replacement of the Airwave TETRA Network
- 6.1.7.7 ESN-Airwave Interworking During Switchover
- 6.1.8 Ireland’s New Mission-Critical Communications System
- 6.1.8.1 Operational Model
- 6.1.8.2 Integrators & Suppliers
- 6.1.8.3 Deployment Summary
- 6.1.8.3.1 NLLP (National Low-Latency Platform) & Project 2.5
- 6.1.8.3.2 Westport & Rosslare Europort Field Trials
- 6.1.8.3.3 Mission-Critical Communications System Rollout
- 6.1.8.4 Key Applications
- 6.1.8.5 Enhancing Emergency Response in Rural Communities
- 6.1.9 France's RRF Future Public Safety Network Program
- 6.1.9.1 Operational Model
- 6.1.9.2 Integrators & Suppliers
- 6.1.9.3 Deployment Summary
- 6.1.9.3.1 Multi-Operator 4G/5G RAN Coverage
- 6.1.9.3.2 Geo-Redundant Core Infrastructure
- 6.1.9.3.3 Deployable Solutions for Ad Hoc Coverage
- 6.1.9.3.4 700 MHz PPDR Broadband Spectrum
- 6.1.9.4 Key Applications
- 6.1.9.5 MCX Application & Interoperability Gateways
- 6.1.9.6 RSM Devices for Off-Network Communications
- 6.1.9.7 Transition From Tetrapol to the RRF Network
- 6.1.9.8 RRF Expansion to Overseas Territories
- 6.1.10 Germany's BOS Broadband Network Development Program
- 6.1.10.1 Operational Model
- 6.1.10.2 Integrators & Suppliers
- 6.1.10.3 Deployment Summary
- 6.1.10.3.1 Hybrid Broadband Network Trial
- 6.1.10.3.2 Project KoMeT: Dedicated 4G/5G Core Network Implementation
- 6.1.10.3.3 Project MCx System: Procurement of MCX Solution
- 6.1.10.3.4 Access Over Commercial Networks & Plans for State-Controlled RAN
- 6.1.10.4 Key Applications
- 6.1.10.5 Interoperability With TETRA & Bundeswehr's Cellular Assets
- 6.1.10.6 KoPa_45: R&D Projects to Support the Broadband Strategy of BDBOS
- 6.1.11 Belgium's ASTRID BLM (Blue Light Mobile) Service & NextGenCom Program
- 6.1.11.1 Operational Model
- 6.1.11.2 Integrators & Suppliers
- 6.1.11.3 BLM Secure MVNO Service
- 6.1.11.3.1 Priority & Preemption Service Levels
- 6.1.11.3.2 VPN Tunneling for Secure Connectivity
- 6.1.11.3.3 ASTRID Cloud: Application Hosting & Sharing
- 6.1.11.4 NextGenCom Deployment Summary
- 6.1.11.4.1 Geo-Redundant Core Network
- 6.1.11.4.2 MCRAN (Mission-Critical RAN) Infrastructure
- 6.1.11.4.3 MOCN-Based RAN Sharing With Commercial Mobile Operators
- 6.1.11.4.4 Integration of Private Networks & Coverage Enhancement Solutions
- 6.1.11.5 Key Applications
- 6.1.11.6 Planned Implementation of MCX Solution
- 6.1.11.7 TETRA-to-NextGenCom Migration
- 6.1.12 Italian Ministry of Interior's LTE/5G Mission-Critical Broadband Service
- 6.1.12.1 Operational Model
- 6.1.12.2 Integrators & Suppliers
- 6.1.12.3 Deployment Summary
- 6.1.12.3.1 Dedicated Frequencies for Guaranteed Bandwidth
- 6.1.12.3.2 Hybrid RAN, Core Network & eMBMS Solution
- 6.1.12.3.3 Mission-Critical Broadband Service Rollout in 11 Provinces
- 6.1.12.4 Key Applications
- 6.1.12.5 Standalone 5G Connectivity & Service Evolution
- 6.1.12.6 Future Plans for TETRA-to-Broadband Migration
- 6.1.13 Spain's SIRDEE Mission-Critical Broadband Network
- 6.1.13.1 Operational Model
- 6.1.13.2 Integrators & Suppliers
- 6.1.13.3 Deployment Summary
- 6.1.13.3.1 Purpose-Built Cell Sites for Exclusive Use
- 6.1.13.3.2 Dedicated Core Network & MCX Servers
- 6.1.13.3.3 eMBMS Integration for Multicast Bearer Support
- 6.1.13.3.4 Backup Connectivity via Commercial RAN Coverage
- 6.1.13.4 Key Applications
- 6.1.13.5 Specific Requirements for Mission-Critical Broadband Network
- 6.1.13.6 Preparing for Tetrapol-to-Broadband Transition
- 6.1.14 Sweden's SWEN Next-Generation Digital Network for Critical Communications
- 6.1.14.1 Operational Model
- 6.1.14.2 Integrators & Suppliers
- 6.1.14.3 Deployment Summary
- 6.1.14.3.1 Dual-Mode 5G Core Solution
- 6.1.14.3.2 MOCN-Enabled Commercial RAN Access
- 6.1.14.3.3 Dedicated Band 28/n28 (700 MHz) Coverage Layer
- 6.1.14.3.4 Integration With Other Public Sector 5G Networks
- 6.1.14.3.5 Indoor Coverage, Portable Cell Sites & Other Initiatives
- 6.1.14.4 Key Applications
- 6.1.14.5 TETRA-to-3GPP Migration Solution
- 6.1.14.6 Procurement of 3GPP-Based MCX Platform
- 6.1.14.7 Future Support for Device-to-Device Communications
- 6.1.14.8 Cross-Border Cooperation
- 6.1.14.9 Timeline for Rakel G1 to SWEN Migration
- 6.1.15 Finland's VIRVE 2 Mission-Critical Broadband Service for PPDR Users
- 6.1.15.1 Operational Model
- 6.1.15.2 Integrators & Suppliers
- 6.1.15.3 Deployment Summary
- 6.1.15.3.1 State-Owned 4G/5G Core Network & Application Servers
- 6.1.15.3.2 MOCN-Enabled Commercial RAN Coverage With QPP
- 6.1.15.3.3 New Base Stations & Battery Backups for Site Hardening
- 6.1.15.3.4 In-Building Installations for VIRVE 2 Service Availability
- 6.1.15.3.5 Integration of Band 68/n68 (700 MHz) Private RAN Coverage
- 6.1.15.3.6 National & International Roaming for Finnish PPDR Agencies
- 6.1.15.3.7 Evaluation of NTN Coverage Expansion via LEO Satellites
- 6.1.15.4 Key Applications
- 6.1.15.5 MCX Services & User Equipment
- 6.1.15.6 Legislative Support for the Operation of VIRVE 2
- 6.1.15.7 Migration From TETRA to Mission-Critical Broadband
- 6.1.16 Hungary's EDR 2.0/3.0 5G-Ready PPDR Broadband Network
- 6.1.16.1 Operational Model
- 6.1.16.2 Integrators & Suppliers
- 6.1.16.3 Deployment Summary
- 6.1.16.3.1 EDR 2.0 Rollout: Band 3/n3 (1.8 GHz) RAN, Dual-Mode Core & MOCN Coverage
- 6.1.16.3.2 Further EDR 2.0 Development: Roaming, eSIMs & Number Portability
- 6.1.16.3.3 EDR 3.0 Service: Aerial Coverage for Drones, Hotspots & MCX Solution
- 6.1.16.4 Key Applications
- 6.1.16.5 TETRA-Broadband Interoperability
- 6.1.16.6 Cross-Border Cooperation With Neighboring Countries
- 6.1.16.7 5G Smartcom: Standalone 5G Network Along the Ukrainian Border
- 6.1.17 Turkish National Police’s KETUM Program
- 6.1.17.1 Operational Model
- 6.1.17.2 Integrators & Suppliers
- 6.1.17.3 Deployment Summary
- 6.1.17.3.1 Mission-Critical LTE Network Buildout in Adana
- 6.1.17.3.2 Nationwide Expansion of Hybrid Narrowband-Broadband System
- 6.1.17.3.3 Rapidly Deployable Network Assets for Coverage Extension
- 6.1.17.4 Key Applications
- 6.1.17.5 Supporting Public Safety Modernization
- 6.1.18 Romania’s LTE/5G NR-Based Hybrid PPDR Broadband Network Project
- 6.1.18.1 Operational Model
- 6.1.18.2 Integrators & Suppliers
- 6.1.18.3 Deployment Summary
- 6.1.18.3.1 Initial Operational Deployment
- 6.1.18.3.2 Public Mobile Operator Interconnections & QPP Rights
- 6.1.18.3.3 Gradual Expansion of State-Owned RAN Infrastructure
- 6.1.18.4 Key Applications
- 6.1.18.5 Additional Public Tenders for Network & Service Expansion
- 6.1.19 Saudi Arabia’s Mission-Critical Broadband Network for Defense, Law Enforcement & Intelligence Agencies
- 6.1.19.1 Operational Model
- 6.1.19.2 Integrators & Suppliers
- 6.1.19.3 Deployment Summary
- 6.1.19.3.1 RAN Infrastructure
- 6.1.19.3.2 Core Network Buildout
- 6.1.19.3.3 MCX Services & Terminals
- 6.1.19.4 Key Applications
- 6.1.19.5 Unifying Secure Communications
- 6.1.20 Qatar MOI's (Ministry of Interior) Nationwide Public Safety LTE Network
- 6.1.20.1 Operational Model
- 6.1.20.2 Integrators & Suppliers
- 6.1.20.3 Deployment Summary
- 6.1.20.3.1 Band 20/n20 (800 MHz) for Nationwide Coverage
- 6.1.20.3.2 Band 7/n7 (2.6 GHz) for Additional Capacity
- 6.1.20.3.3 Dedicated Core Network Infrastructure
- 6.1.20.3.4 eMBMS Integration & MCX Upgrades
- 6.1.20.4 Key Applications
- 6.1.20.5 Integration With the MOI's TETRA Network
- 6.1.20.6 Technology-Driven Security for the FIFA World Cup
- 6.1.20.7 Delivering Safe City Applications for Qatar National Vision 2030
- 6.2 Additional Case Studies of Public Safety LTE/5G Network & Service Rollouts
- 6.2.1 Abu Dhabi Police
- 6.2.2 Bahia State Secretariat of Public Security
- 6.2.3 Brazilian Federal Government’s Private Network Project
- 6.2.4 Buenos Aires Ministry of Justice and Security
- 6.2.5 Bundeswehr (German Armed Forces)
- 6.2.6 California National Guard
- 6.2.7 Ceará Secretariat of Penitentiary Administration and Reintegration
- 6.2.8 City of Brownsville
- 6.2.9 City of Sendai
- 6.2.10 Cochabamba Safe City Project
- 6.2.11 Ecuador ECU-911
- 6.2.12 Føroya Tele's (Faroese Telecom) KIMA
- 6.2.13 Georgia State Patrol
- 6.2.14 Ghana's Integrated National Security Communications Network
- 6.2.15 Gimcheon City Integrated Control Center
- 6.2.16 Government of Barbados
- 6.2.17 Guangzhou Hybrid TETRA-5G Network
- 6.2.18 Halton-Peel Region PSBN (Public Safety Broadband Network)
- 6.2.19 Hsinchu City Fire Department
- 6.2.20 Kaohsiung City Police Department
- 6.2.21 Kenyan Police Service
- 6.2.22 Lijiang Police
- 6.2.23 Lishui Municipal Emergency Management
- 6.2.24 Madrid City Council
- 6.2.25 Málaga Local Police
- 6.2.26 MPF (Mauritius Police Force)
- 6.2.27 Nanjing Municipal Government
- 6.2.28 National Police of Colombia
- 6.2.29 Nedaa
- 6.2.30 New Zealand Police
- 6.2.31 Philippine Red Cross
- 6.2.32 Polkomtel's Plus MCX
- 6.2.33 PrioCom
- 6.2.34 PSCA (Punjab Safe Cities Authority)
- 6.2.35 RESCAN (Canary Islands Network for Emergency and Security)
- 6.2.36 RIKS (State Infocommunication Foundation, Estonia)
- 6.2.37 Rivas Vaciamadrid City Council
- 6.2.38 ROP (Royal Oman Police)
- 6.2.39 São Paulo & Minas Gerais State Military Police Forces
- 6.2.40 Shanghai Police Department
- 6.2.41 SPF (Singapore Police Force)
- 6.2.42 Telstra’s LANES Emergency
- 6.2.43 Teltronic’s MCX MVNO Service in Mexico
- 6.2.44 T-Mobile’s T-Priority
- 6.2.45 TWFRS (Tyne and Wear Fire and Rescue Service)
- 6.2.46 UN (United Nations)
- 6.2.47 Verizon's Frontline Solutions
- 6.2.48 Vientiane Municipal Government
- 6.2.49 Wujiang Public Security Bureau
- 6.2.50 Zambian Ministry of Home Affairs and Internal Security
- 7 Chapter 7: Public Safety LTE/5G Spectrum Availability, Allocation & Usage
- 7.1 Frequency Bands for Public Safety LTE & 5G Networks
- 7.1.1 200 – 400 MHz
- 7.1.1.1 Japan's 170 – 202.5 MHz Band
- 7.1.1.2 380 – 400 MHz PPDR Band
- 7.1.1.3 Other Non-Traditional Frequency Bands
- 7.1.2 410 & 450 MHz
- 7.1.2.1 Bands 31/n31 & 72/n72 (450 – 470 MHz)
- 7.1.2.2 Bands 87/n87 & 88/n88 (410 – 430 MHz)
- 7.1.3 600 MHz
- 7.1.3.1 470 – 694 MHz UHF Band
- 7.1.4 700 MHz
- 7.1.4.1 Band 14/n14 (758 – 798 MHz)
- 7.1.4.2 Band 28/n28 (703 – 803 MHz)
- 7.1.4.3 Band 68/n68 (698 – 783 MHz)
- 7.1.4.4 Other 700 MHz Bands
- 7.1.5 800 MHz
- 7.1.5.1 Band 20/n20 (791 – 862 MHz)
- 7.1.5.2 Band 26/n26 (814 – 894 MHz)
- 7.1.5.3 Other 800 MHz Bands
- 7.1.6 900 MHz
- 7.1.6.1 Band 8/n8 (880 – 960 MHz)
- 7.1.6.2 Other 900 MHz Bands
- 7.1.7 Mid-Band (1 – 6 GHz)
- 7.1.7.1 1.4 – 1.9 GHz
- 7.1.7.2 2.3 – 2.4 GHz
- 7.1.7.3 2.5 – 2.6 GHz
- 7.1.7.4 3.3 – 3.8 GHz
- 7.1.7.5 3.8 – 4.2 GHz
- 7.1.7.6 4.6 – 4.9 GHz
- 7.1.7.7 5 – 6 GHz
- 7.1.7.8 Other Bands
- 7.1.8 Upper Mid-Band (7 – 24 GHz)
- 7.1.8.1 7 GHz
- 7.1.8.2 10 – 14 GHz
- 7.1.8.3 17 – 20 GHz
- 7.1.8.4 Other Bands
- 7.1.9 High-Band mmWave (Millimeter Wave) Spectrum
- 7.1.9.1 26 GHz
- 7.1.9.2 28 GHz
- 7.1.9.3 37 GHz
- 7.1.9.4 60 GHz
- 7.1.9.5 Other Bands
- 7.2 North America
- 7.2.1 United States
- 7.2.2 Canada
- 7.3 Asia Pacific
- 7.3.1 Australia
- 7.3.2 New Zealand
- 7.3.3 China
- 7.3.4 Hong Kong
- 7.3.5 Taiwan
- 7.3.6 Japan
- 7.3.7 South Korea
- 7.3.8 Singapore
- 7.3.9 Malaysia
- 7.3.10 Indonesia
- 7.3.11 Philippines
- 7.3.12 Thailand
- 7.3.13 Vietnam
- 7.3.14 Laos
- 7.3.15 Myanmar
- 7.3.16 India
- 7.3.17 Pakistan
- 7.3.18 Bangladesh
- 7.3.19 Sri Lanka
- 7.3.20 Rest of Asia Pacific
- 7.4 Europe
- 7.4.1 United Kingdom
- 7.4.1.1 Great Britain
- 7.4.1.2 Northern Ireland
- 7.4.2 Republic of Ireland
- 7.4.3 France
- 7.4.4 Germany
- 7.4.5 Belgium
- 7.4.6 Netherlands
- 7.4.7 Switzerland
- 7.4.8 Austria
- 7.4.9 Italy
- 7.4.10 Spain
- 7.4.11 Portugal
- 7.4.12 Sweden
- 7.4.13 Norway
- 7.4.14 Denmark
- 7.4.15 Finland
- 7.4.16 Estonia
- 7.4.17 Latvia
- 7.4.18 Lithuania
- 7.4.19 Czech Republic
- 7.4.20 Poland
- 7.4.21 Hungary
- 7.4.22 Slovenia
- 7.4.23 Croatia
- 7.4.24 Türkiye
- 7.4.25 Cyprus
- 7.4.26 Greece
- 7.4.27 Bulgaria
- 7.4.28 Romania
- 7.4.29 Ukraine
- 7.4.30 Russia
- 7.4.31 Rest of Europe
- 7.5 Middle East & Africa
- 7.5.1 Saudi Arabia
- 7.5.2 United Arab Emirates
- 7.5.3 Qatar
- 7.5.4 Oman
- 7.5.5 Bahrain
- 7.5.6 Kuwait
- 7.5.7 Iraq
- 7.5.8 Jordan
- 7.5.9 Israel
- 7.5.10 Egypt
- 7.5.11 Tunisia
- 7.5.12 South Africa
- 7.5.13 Botswana
- 7.5.14 Zambia
- 7.5.15 Kenya
- 7.5.16 Ethiopia
- 7.5.17 Nigeria
- 7.5.18 Uganda
- 7.5.19 Ghana
- 7.5.20 Rest of the Middle East & Africa
- 7.6 Latin & Central America
- 7.6.1 Brazil
- 7.6.2 Mexico
- 7.6.3 Argentina
- 7.6.4 Colombia
- 7.6.5 Chile
- 7.6.6 Peru
- 7.6.7 Ecuador
- 7.6.8 Bolivia
- 7.6.9 Barbados
- 7.6.10 Trinidad & Tobago
- 7.6.11 Rest of Latin & Central America
- 8 Chapter 8: Standardization, Regulatory & Collaborative Initiatives
- 8.1 3GPP (Third Generation Partnership Project)
- 8.1.1 Release 11: HPUE (Power Class 1) for Band 14
- 8.1.2 Release 12: Early Mission-Critical Enablers – ProSe & GCSE
- 8.1.3 Release 13: MCPTT, IOPS & Further Enhancements
- 8.1.4 Release 14: Support for MCVideo & MCData Services
- 8.1.5 Release 15: MCX Refinements, 5G eMBB & Additional Operating Bands
- 8.1.6 Release 16: Further Evolution of MCX, 3GPP-LMR Interworking, Vertical Application Enablers & 5G URLLC
- 8.1.7 Release 17: MCX Over 5G (Unicast), LTE MCIOPS, 5G NR Sidelink Enhancements, NTN Connectivity & RedCap
- 8.1.8 Release 18: MCX Using 5G MBS (Multicast)/5G ProSe, UE-to-UE Relays, VMRs, Support for Less Than 5 MHz of Bandwidth & eRedCap
- 8.1.9 Releases 19, 20 & Beyond: New 5G NR Bands, Enhanced MCX, Multi-Hop Sidelink Relaying, MWAB, IOPS Over 5G & Regenerative NTN
- 8.2 APCO (Association of Public-Safety Communications Officials) International
- 8.2.1 Public Safety LTE/5G Advocacy Efforts
- 8.2.2 ANS 2.106.1-2019: Standard for PSG (Public Safety Grade) Site Hardening Requirements
- 8.3 ASTRID
- 8.3.1 Public Safety LTE/5G-Related Standardization Efforts
- 8.4 ATIS (Alliance for Telecommunications Industry Solutions)
- 8.4.1 ATIS/TIA JLMRLTE (Joint LMR-LTE) Working Group
- 8.4.1.1 Study of Interworking Between P25 LMR & 3GPP Mission-Critical Services
- 8.4.2 Other Efforts Relevant to Public Safety Broadband Communications
- 8.5 Australian Department of Home Affairs
- 8.5.1 Leading Australia's National PSMB Program
- 8.6 BDBOS (Federal Agency for Public Safety Digital Radio, Germany)
- 8.6.1 Public Safety LTE/5G-Related Standardization Efforts
- 8.7 BMWE (Federal Ministry for Economic Affairs and Energy, Germany)
- 8.7.1 Standardization Efforts for Critical Communications Over 3GPP Networks
- 8.8 B-TrunC (Broadband Trunking Communication) Industry Alliance
- 8.8.1 B-TrunC Standard for LTE-Based Critical Communications
- 8.9 CITIG (Canadian Interoperability Technology Interest Group)
- 8.9.1 Public Safety LTE/5G Advocacy Efforts
- 8.10 CMA (Critical Messaging Association)
- 8.10.1 Advancing the Delivery of Mission-Critical Messaging
- 8.11 DRDC (Defence Research and Development Canada)
- 8.11.1 DRDC CSS (DRDC Centre for Security Science)
- 8.11.1.1 Participation in Canada's National PSBN Program
- 8.11.1.2 R&D Efforts in Public Safety & Military LTE/5G Networks
- 8.12 DSB (Directorate for Civil Protection, Norway)
- 8.12.1 Public Safety LTE/5G-Related Standardization Efforts
- 8.13 EENA (European Emergency Number Association)
- 8.13.1 Broadband MCX Integration With NG112/911/999
- 8.14 Erillisverkot (State Security Networks Group, Finland)
- 8.14.1 Public Safety LTE/5G-Related Standardization Efforts
- 8.15 ETSI (European Telecommunications Standards Institute)
- 8.15.1 TCCE (TETRA and Critical Communications Evolution) Technical Committee
- 8.15.1.1 Standards & Guidelines for Critical Communications Broadband & TETRA-3GPP Interworking
- 8.15.2 CTI (Center for Testing and Interoperability)
- 8.15.2.1 MCX Plugtests
- 8.15.3 Other Technical Committees & Critical Communications LTE/5G-Related Standards
- 8.16 FirstNet (First Responder Network) Authority
- 8.16.1 Overseeing the Buildout, Operation & Evolution of the FirstNet Public Safety Broadband Network
- 8.16.2 Standardization of Mission-Critical Features for 3GPP Technologies
- 8.16.3 Innovation & Test Lab
- 8.16.4 PSAC (Public Safety Advisory Committee)
- 8.17 French Ministry of Interior
- 8.17.1 Public Safety LTE/5G-Related Standardization Efforts
- 8.18 GCF (Global Certification Forum)
- 8.18.1 Mission-Critical Services Certification Program & Work Stream
- 8.19 GPSOC (Global Public Safety Operators Conference)
- 8.19.1 Advancing Public Safety Broadband Initiatives
- 8.20 United Kingdom Home Office
- 8.20.1 Public Safety LTE/5G-Related Standardization Efforts
- 8.21 ICCRA (International Critical Control Rooms Alliance)
- 8.21.1 LTE/5G Support in Critical Control Room Interface Standards
- 8.22 IETF (Internet Engineering Task Force)
- 8.22.1 Protocols for Broadband MCX Services Over 3GPP Networks
- 8.23 IGOF (International Governmental Operators’ Forum)
- 8.23.1 Addressing Broadband-Related Issues in Critical Communications
- 8.24 ISED (Innovation, Science and Economic Development Canada)
- 8.24.1 Participation in Canada's National PSBN Program
- 8.24.2 Regulation of Public Safety Broadband Spectrum
- 8.24.3 CRC (Communications Research Centre Canada)
- 8.24.3.1 Interoperability Research & Evaluation of Public Safety LTE/5G Networks
- 8.25 ITU (International Telecommunication Union)
- 8.25.1 Spectrum Harmonization for PPDR Broadband Systems
- 8.25.2 Defining the Role of IMT-2020 to Support PPDR Applications
- 8.26 MOIS (Ministry of the Interior and Safety, South Korea)
- 8.26.1 Public Safety LTE/5G-Related Standardization Efforts
- 8.27 National Police of the Netherlands
- 8.27.1 Public Safety LTE/5G-Related Standardization Efforts
- 8.28 NCCOM (Nordic Critical Communication Operators Meeting)
- 8.28.1 Requirements for Rugged Devices & Other PPDR Broadband Capabilities
- 8.29 Nkom (Norwegian Communications Authority)
- 8.29.1 Standardization Efforts for Critical Communications Over 3GPP Networks
- 8.30 NSC (National Spectrum Consortium)
- 8.30.1 Enhancing Spectrum Superiority & 5G Capabilities for Federal Users
- 8.31 NSW (New South Wales) Telco Authority
- 8.31.1 Role in Australia's National PSMB Program
- 8.32 OMA SpecWorks (Open Mobile Alliance)
- 8.32.1 PoC (PTT-over-Cellular): V1.04, V2.0 & V2.1
- 8.32.2 PCPS (Push-to-Communicate for Public Safety)
- 8.33 PIA (PSBN Innovation Alliance)
- 8.33.1 PSBN Governance in Canada's Ontario Province
- 8.34 PSBTA (Public Safety Broadband Technology Association)
- 8.34.1 Public Safety LTE/5G-Related Activities
- 8.35 PSCE (Public Safety Communication Europe)
- 8.35.1 Public Safety LTE/5G Standardization
- 8.35.2 BroadX Projects: Pan-European Public Safety Mobile Broadband System
- 8.35.2.1 BroadMap: Specifications & Roadmap for Procurement
- 8.35.2.2 BroadWay: R&D/PCP (Pre-Commercial Procurement)
- 8.35.2.3 BroadNet: EUCCS (EU Critical Communication System) Preparation
- 8.35.3 Other Public Safety LTE/5G-Related Work
- 8.36 PSRG (Public Safety Radiocommunications Group)
- 8.36.1 Technical Exchanges on Emergency Communications Modernization
- 8.37 Public Safety Canada
- 8.37.1 Federal PSBN Task Team
- 8.37.2 TNCO (Temporary National Coordination Office) for Canada's National PSBN
- 8.38 Safe-Net Forum
- 8.38.1 Technical/Policy Guidance & Ecosystem Development for Critical Communications LTE/5G Networks
- 8.39 Safer Buildings Coalition
- 8.39.1 Key Initiatives for Enabling In-Building Wireless Communications
- 8.40 TCCA (The Critical Communications Association)
- 8.40.1 BIG (Broadband Industry Group)
- 8.40.2 CCBG (Critical Communications Broadband Group)
- 8.40.3 IWF Working Group
- 8.40.4 Future Technologies Group
- 8.40.5 Other TCCA Groups & Activities
- 8.41 TIA (Telecommunications Industry Association)
- 8.41.1 TR-8: Engineering Committee on Mobile & Personal Private Radio Standards
- 8.41.1.1 J-STD-200: Study of Interworking Between LMR and 3GPP Mission-Critical Services
- 8.41.1.2 Addendums to ISSI/CSSI & DFSI Standards
- 8.41.1.3 Work on Mission-Critical Priority & QoS Control
- 8.42 TTA (Telecommunications Technology Association, South Korea)
- 8.42.1 Functional Requirements, Testing & Certification for Public Safety LTE/5G Technologies
- 8.43 U.S. DHS (Department of Homeland Security)
- 8.43.1 S&T (Science and Technology) Directorate
- 8.43.1.1 Standards-Based Interworking Solution for MCPTT-LMR Communications
- 8.43.1.2 Interoperability Between FirstNet, Southern Linc & Other Broadband PTT Systems
- 8.43.1.3 Mission-Critical Voice Intelligibility, Deployables & Other Public Safety LTE/5G-Related Projects
- 8.43.2 CISA (Cybersecurity and Infrastructure Security Agency)
- 8.43.2.1 SAFECOM: Best Practices for LMR-3GPP Integration
- 8.44 U.S. FCC (Federal Communications Commission)
- 8.44.1 PSHSB (Public Safety and Homeland Security Bureau)
- 8.44.2 Endorsement of 3GPP Technology as the Platform for 700 MHz Public Safety Broadband Infrastructure
- 8.44.3 Regulation of Public Safety Broadband Spectrum
- 8.44.4 Other Engagements Relevant to Public Safety LTE/5G
- 8.45 U.S. NIST (National Institute of Standards and Technology)
- 8.45.1 CTL (Communications Technology Laboratory)
- 8.45.2 PSCR (Public Safety Communications Research) Division
- 8.45.2.1 R&D Partnership With the FirstNet Authority
- 8.45.2.2 Research Portfolio & Broadband-Related Projects
- 8.46 U.S. NPSTC (National Public Safety Telecommunications Council)
- 8.46.1 Early Leadership in Public Safety LTE Technology
- 8.46.2 Spectrum Management, LMR-3GPP Integration, Public Safety-Grade Systems & Other Work
- 8.47 U.S. NTIA (National Telecommunications and Information Administration)
- 8.47.1 FirstNet Governance & Funding
- 8.47.2 Other Work Related to Public Safety LTE/5G Networks
- 8.48 Others
- 8.48.1 Government Agencies & National Regulators
- 8.48.2 Critical Communications Industry Associations
- 8.48.3 Vendor-Led Alliances & Partner Programs
- 8.48.4 Spectrum & Technology Innovation Industry Alliances
- 8.48.5 Academic Institutions, Research Centers & Labs
- 9 Chapter 9: Key Ecosystem Players
- 9.1 10T Tech
- 9.2 1Finity (Fujitsu)
- 9.3 1NCE
- 9.4 1oT
- 9.5 2TEST (Alkor-Communication)
- 9.6 2WAY (Netherlands)
- 9.7 3AM Innovations
- 9.8 4K Solutions
- 9.9 6WIND
- 9.10 7P (Seven Principles)
- 9.11 A1 Telekom Austria Group
- 9.12 A10 Networks
- 9.13 A5G Networks
- 9.14 AAEON Technology (ASUS – ASUSTeK Computer)
- 9.15 Aalyria
- 9.16 Aarna Networks
- 9.17 ABEL Mobilfunk
- 9.18 ABS
- 9.19 Abside Networks
- 9.20 AccelerComm
- 9.21 Accelink Technologies
- 9.22 Accelleran
- 9.23 Accenture
- 9.24 Accton Technology Corporation
- 9.25 Accuver (InnoWireless)
- 9.26 ACE Technologies
- 9.27 Acentury
- 9.28 ACES-NH
- 9.29 AceTel (Ace Solutions)
- 9.30 Achronix Semiconductor Corporation
- 9.31 ACOME
- 9.32 Actelis Networks
- 9.33 Action Technologies (Shenzhen Action Technologies)
- 9.34 Actiontec Electronics
- 9.35 Active911
- 9.36 Actus Networks
- 9.37 Adax
- 9.38 Adcor Magnet Systems
- 9.39 ADI (Analog Devices, Inc.)
- 9.40 ADLINK Technology
- 9.41 ADRF (Advanced RF Technologies)
- 9.42 ADT
- 9.43 Adtran
- 9.44 Advanced Energy Industries
- 9.45 AdvanceTec Industries
- 9.46 Advantech
- 9.47 Advantech Wireless Technologies (Baylin Technologies)
- 9.48 Aegex Technologies
- 9.49 Aerial Applications
- 9.50 Aeris
- 9.51 Aerostar International
- 9.52 Aethertek
- 9.53 Affarii Technologies
- 9.54 Affirmed Networks (Microsoft Corporation)
- 9.55 AFL Global
- 9.56 AFRY
- 9.57 Agile (Agile Interoperable Solutions)
- 9.58 AGIS (Advanced Ground Information Systems)
- 9.59 Aglocell
- 9.60 AGM Mobile
- 9.61 AH NET (MVM NET)
- 9.62 AI-LINK
- 9.63 AINA PTT
- 9.64 AIR (American International Radio)
- 9.65 Aira Technologies
- 9.66 Airbus Public Safety and Security
- 9.67 Airfide Networks
- 9.68 Airgain
- 9.69 AirHop Communications
- 9.70 Airlinq
- 9.71 Airspan Networks
- 9.72 Airtower Networks
- 9.73 Airwavz Solutions
- 9.74 AIS (Advanced Info Service)
- 9.75 AiVader
- 9.76 Akamai Technologies
- 9.77 Akoustis Technologies
- 9.78 Alaxala Networks Corporation (Fortinet)
- 9.79 ALBEDO Telecom
- 9.80 albis-elcon (UET – United Electronic Technology)
- 9.81 Alcadis
- 9.82 Alea (Leonardo)
- 9.83 ALECOM
- 9.84 Alef (Alef Edge)
- 9.85 Alepo
- 9.86 Alibaba Group
- 9.87 Aliniant
- 9.88 Allbesmart
- 9.89 Allen Vanguard Wireless
- 9.90 Allerio
- 9.91 Allied Telesis
- 9.92 Allot
- 9.93 Alpha Networks
- 9.94 Alpha Wireless
- 9.95 Alsatis Réseaux
- 9.96 Altaeros
- 9.97 Altair Semiconductor (Sony Semiconductor Israel)
- 9.98 ALTÁN Redes
- 9.99 Altera
- 9.100 Altice Group
- 9.101 ALVIS (Argentina)
- 9.102 AM Telecom
- 9.103 Amantya Technologies
- 9.104 Amarisoft
- 9.105 Amazon/AWS (Amazon Web Services)
- 9.106 Ambra Solutions-ECOTEL
- 9.107 AMD (Advanced Micro Devices)
- 9.108 Amdocs
- 9.109 América Móvil
- 9.110 American Tower Corporation
- 9.111 AMI (American Megatrends International)
- 9.112 AMIT Wireless
- 9.113 Ampere Computing
- 9.114 Amphenol Corporation (Including CommScope Assets)
- 9.115 Ampleon
- 9.116 AmpliTech
- 9.117 Amtele Communication
- 9.118 Andesat
- 9.119 Andorix
- 9.120 ANDREW (Amphenol Corporation)
- 9.121 ANDRO Computational Solutions
- 9.122 Anktion (Fujian) Technology
- 9.123 Anokiwave
- 9.124 Anritsu
- 9.125 ANS – Advanced Network Services (Charge Enterprises)
- 9.126 Antenna Company
- 9.127 Antevia Networks
- 9.128 Antna Antenna Technology
- 9.129 Aorotech
- 9.130 Apeiroon
- 9.131 Apple
- 9.132 APRESIA Systems
- 9.133 APSTAR (APT Satellite Company)
- 9.134 APT (Asia Pacific Telecom)
- 9.135 aql
- 9.136 Aquila (Suzhou Aquila Solutions)
- 9.137 Aqura Technologies (Telstra Purple)
- 9.138 Arabsat
- 9.139 Arcadyan Technology Corporation (Compal Electronics)
- 9.140 Archos
- 9.141 Arctic Semiconductor (Formerly SiTune Corporation)
- 9.142 Arete M
- 9.143 Argela
- 9.144 ArgoNET
- 9.145 Aria Networks
- 9.146 Arista Networks
- 9.147 Arkessa (Wireless Logic Group)
- 9.148 Arm
- 9.149 Armour Communications
- 9.150 Arqit Quantum
- 9.151 ArrayComm (Chengdu ArrayComm Wireless Technologies)
- 9.152 Arrcus
- 9.153 Artemis Networks
- 9.154 Artiza Networks
- 9.155 Aruba (HPE – Hewlett Packard Enterprise)
- 9.156 Arukona
- 9.157 Asavie
- 9.158 Ascent Integrated Tech
- 9.159 Ascom
- 9.160 ASELSAN
- 9.161 AsiaInfo Technologies
- 9.162 AsiaSat (Asia Satellite Telecommunications Company)
- 9.163 Askey Computer Corporation (ASUS – ASUSTeK Computer)
- 9.164 ASOCS
- 9.165 Aspire Technology (NEC Corporation)
- 9.166 ASR Microelectronics
- 9.167 Assured Space Access
- 9.168 AST SpaceMobile
- 9.169 ASTELLA (Astella Technologies)
- 9.170 ASTRI (Hong Kong Applied Science and Technology Research Institute)
- 9.171 ASUS (ASUSTeK Computer)
- 9.172 Asylon
- 9.173 AT&T
- 9.174 Ataya
- 9.175 ATDI
- 9.176 ATEL (Asiatelco Technologies)
- 9.177 Atel Antennas
- 9.178 Atesio
- 9.179 Athesi
- 9.180 ATL – A Test Lab (Eurofins E&E – Electrical and Electronics)
- 9.181 Atlas Telecom
- 9.182 AtlasEdge (Liberty Global/DigitalBridge Group)
- 9.183 ATN International
- 9.184 Atos
- 9.185 Atrinet (ServiceNow)
- 9.186 AttoCore
- 9.187 Auden Techno
- 9.188 Auray Technology (Auden Techno)
- 9.189 Avanti Communications
- 9.190 Avari Wireless
- 9.191 AVI
- 9.192 Aviat Networks
- 9.193 AVIWEST (Haivision)
- 9.194 AVM
- 9.195 AW2S – Advanced Wireless Solutions and Services (SERMA Group)
- 9.196 AWTG
- 9.197 AXESS Networks (HISPASAT)
- 9.198 Axians (VINCI Energies)
- 9.199 Axiata Group
- 9.200 Axione
- 9.201 Axis Communications
- 9.202 Axon
- 9.203 Axtel
- 9.204 Axxcelera Broadband Wireless (Axxcss Wireless Solutions)
- 9.205 Axxcss Wireless Solutions
- 9.206 Axyom.Core (Formerly Casa Systems)
- 9.207 Azcom Technology
- 9.208 Azetti Networks
- 9.209 B+B SmartWorx (Advantech)
- 9.210 BAE Systems
- 9.211 BAI Communications Australia
- 9.212 Baicells
- 9.213 Ball Aerospace
- 9.214 Ballast Networks
- 9.215 BandRich
- 9.216 BATS Wireless (Broadband Antenna Tracking Systems)
- 9.217 Battelle
- 9.218 BAYFU (Bayerische Funknetz)
- 9.219 Baylin Technologies
- 9.220 BBK Electronics
- 9.221 BCDVideo
- 9.222 Beam Semiconductor
- 9.223 Beamlink
- 9.224 BearCom
- 9.225 BEC Technologies (Billion Electric)
- 9.226 becon
- 9.227 Beeper Communications
- 9.228 Beijer Electronics Group
- 9.229 Belden
- 9.230 BelFone
- 9.231 Bell Canada
- 9.232 Bellantenna
- 9.233 Benetel
- 9.234 BesoVideo
- 9.235 Betacom
- 9.236 Bharti Airtel
- 9.237 BHE (Bonn Hungary Electronics)
- 9.238 BICS (Proximus)
- 9.239 BinnenBereik (NOVEC)
- 9.240 Bird Technologies
- 9.241 BISDN (Berlin Institute for Software Defined Networks)
- 9.242 Bittium
- 9.243 BK Technologies
- 9.244 Black & Veatch
- 9.245 Black Box
- 9.246 BlackBerry
- 9.247 Blackned (Rheinmetall)
- 9.248 Blackview
- 9.249 BLiNQ Networks
- 9.250 Blu Wireless
- 9.251 Blue Arcus Technologies
- 9.252 Bluebird
- 9.253 Blueforce Development Corporation
- 9.254 BLUnet Schweiz (Axpo WZ-Systems)
- 9.255 Boeing/Aurora Flight Sciences
- 9.256 Boelink (Shanghai Boelink Communication Technology)
- 9.257 Boingo Wireless (DigitalBridge Group)
- 9.258 Boldyn Networks (Formerly BAI Communications)
- 9.259 Booz Allen Hamilton
- 9.260 Boston Dynamics
- 9.261 Bouygues Telecom
- 9.262 Boxchip
- 9.263 Branch Communications
- 9.264 BravoCom
- 9.265 Bredengen
- 9.266 Broadcom
- 9.267 BroadForward
- 9.268 Broadmobi – Shanghai Broadmobi Communication Technology (Wutong Group)
- 9.269 Broadpeak
- 9.270 Broadtech
- 9.271 BSNL (Bharat Sanchar Nigam Limited)
- 9.272 BT Group
- 9.273 BTI Wireless (Star Solutions)
- 9.274 BubbleRAN
- 9.275 BULAT (Rostelecom)
- 9.276 Bumicom Telecommunicatie
- 9.277 Bureau Veritas/7Layers
- 9.278 BVSystems (Berkeley Varitronics Systems)
- 9.279 BWT (BlueWaveTel)
- 9.280 B-Yond
- 9.281 C Spire
- 9.282 C Squared Systems
- 9.283 C3Spectra
- 9.284 CableFree (Wireless Excellence)
- 9.285 CableLabs
- 9.286 CACI International/LGS Innovations
- 9.287 Cadence Design Systems
- 9.288 CalAmp
- 9.289 CalChip Connect
- 9.290 Caliber Public Safety
- 9.291 Calix
- 9.292 Call Systems Technology
- 9.293 Calnex Solutions
- 9.294 Caltta Technologies
- 9.295 Cambium Networks
- 9.296 Cambridge Consultants (Capgemini Invent)
- 9.297 CampusGenius
- 9.298 Canoga Perkins
- 9.299 Canonical
- 9.300 Capgemini Engineering
- 9.301 CapX Nederland
- 9.302 Carbyne
- 9.303 CASIC (China Aerospace Science and Industry Corporation)
- 9.304 Casio Computer Company
- 9.305 Castor Marine
- 9.306 Catalyst Communications Technologies
- 9.307 Cavli Wireless
- 9.308 CBNG (Cambridge Broadband Networks Group)
- 9.309 CCI (Communication Components Inc.)
- 9.310 CCN (Cirrus Core Networks)
- 9.311 CCww (Communications Consultants Worldwide)
- 9.312 C-DOT (Centre for Development of Telematics)
- 9.313 Cegeka
- 9.314 CeLa Link Corporation
- 9.315 Celfinet (Cyient)
- 9.316 CellAntenna Corporation
- 9.317 Cellcomm Solutions
- 9.318 Cellient
- 9.319 Celling 5G
- 9.320 CellMax Technologies (Rosenberger)
- 9.321 Cellnex Telecom
- 9.322 cellXica
- 9.323 cellXion
- 9.324 Celona
- 9.325 CelPlan Technologies
- 9.326 Centerline Communications
- 9.327 CENTRA Technology
- 9.328 CentralSquare Technologies
- 9.329 Ceragon Networks
- 9.330 Cerillion
- 9.331 CertusNet
- 9.332 CETC (China Electronics Technology Group Corporation)
- 9.333 CETIN Group
- 9.334 CEVA
- 9.335 CGI
- 9.336 Challenge Networks (Vocus)
- 9.337 Check Point Software Technologies
- 9.338 Cheerzing (Xiamen Cheerzing IoT Technology)
- 9.339 Chelton
- 9.340 Chemring Technology Solutions
- 9.341 Chengdu NTS
- 9.342 China All Access
- 9.343 China Mobile
- 9.344 China Satcom (China Satellite Communications)
- 9.345 China Telecom
- 9.346 China Unicom
- 9.347 Chunghwa Telecom
- 9.348 Cibicom
- 9.349 CICT – China Information and Communication Technology Group (China Xinke Group)
- 9.350 CID Group
- 9.351 Ciena Corporation
- 9.352 CIG (Cambridge Industries Group)
- 9.353 CIO (Connected IO)
- 9.354 Cirpack
- 9.355 Cisco Systems
- 9.356 Citymesh (Cegeka/DIGI Communications)
- 9.357 CitySwitch
- 9.358 CKH IOD (CK Hutchison)
- 9.359 Clavister
- 9.360 Clear-Com (HME)
- 9.361 Clever Logic
- 9.362 CloudMinds
- 9.363 Cloudnet.ai
- 9.364 CloudRAN.AI (Cloudnet.ai)
- 9.365 Clover IQ
- 9.366 CMIoT (China Mobile IoT)
- 9.367 Cobham
- 9.368 COCUS
- 9.369 Codium Networks
- 9.370 Cogisys
- 9.371 Cognizant
- 9.372 Cohere Technologies
- 9.373 Coherent (Formerly II-VI)
- 9.374 Coherent Logix
- 9.375 Coiler Corporation
- 9.376 Collinear Networks (EOS – Electro Optic Systems)
- 9.377 Collins Aerospace (RTX Corporation)
- 9.378 Colt Technology Services
- 9.379 Com4 (Wireless Logic Group)
- 9.380 Comarch
- 9.381 Comba Telecom
- 9.382 Combain Mobile
- 9.383 Comcast Corporation
- 9.384 Comcores
- 9.385 Comfone
- 9.386 CommandWear Systems
- 9.387 Commnet Wireless (ATN International)
- 9.388 Comms365
- 9.389 Commsquare
- 9.390 Compal Electronics
- 9.391 Comprod
- 9.392 Comptek Technologies (Aero Wireless Group)
- 9.393 COMRAD (Alait)
- 9.394 Comrod Communication Group
- 9.395 COMSovereign
- 9.396 Comtech Telecommunications Corporation
- 9.397 Comtrend Corporation
- 9.398 Comviva (Tech Mahindra)
- 9.399 Conekt.ai
- 9.400 CONET Technologies
- 9.401 CONEXIO Corporation
- 9.402 CONGIV (ROBUR Industry Service Group)
- 9.403 Connect Tech
- 9.404 Connect44 Group
- 9.405 Connectivity Wireless Solutions (M/C Partners)
- 9.406 Consort Digital
- 9.407 Contela
- 9.408 Coolpad
- 9.409 CopaSAT
- 9.410 coreNOC
- 9.411 Cornerstone (CTIL)
- 9.412 Cornet Technology
- 9.413 Corning
- 9.414 Cortina Access
- 9.415 Cosemi Technologies
- 9.416 COSMOTE (OTE Group)
- 9.417 Council Rock
- 9.418 Coweaver
- 9.419 Cox Communications
- 9.420 Creanord
- 9.421 CrisisGo
- 9.422 CROSSCALL
- 9.423 Crown Castle
- 9.424 CS Corporation
- 9.425 CSG Systems International
- 9.426 CTG (Celestia Technologies Group)
- 9.427 CTL
- 9.428 CTOne (Trend Micro)
- 9.429 CTS (Communication Technology Services)
- 9.430 CTS Corporation
- 9.431 Cubic Corporation
- 9.432 Cubic Telecom
- 9.433 Cumucore
- 9.434 Custom MMIC
- 9.435 Cybertel Bridge
- 9.436 Cyient
- 9.437 Cyrus Technology
- 9.438 D2 Technologies
- 9.439 DAEL Group
- 9.440 Dahua Technology
- 9.441 Dali Wireless
- 9.442 DAMM Cellular Systems
- 9.443 DATACOM
- 9.444 DataSoft
- 9.445 Day Wireless Systems
- 9.446 DBcom
- 9.447 dbSpectra
- 9.448 DeepSig
- 9.449 Dejero Labs
- 9.450 DEKRA
- 9.451 Dell Technologies
- 9.452 Delta Electronics
- 9.453 DENGYO (Nihon Dengyo Kosaku)
- 9.454 Deutsche Funkturm
- 9.455 DGS (Digital Global Systems)
- 9.456 DGT
- 9.457 Dialogic
- 9.458 Diamond Communications
- 9.459 Diga-Talk Solutions (Formerly A Beep/Diga-Talk+)
- 9.460 Digi International
- 9.461 Digicert
- 9.462 Digis Squared
- 9.463 Digita Group
- 9.464 Digital Ally
- 9.465 Digital Enhancement
- 9.466 DigitalBridge Group
- 9.467 DigitalRoute
- 9.468 Digitata
- 9.469 DigitGate (Nanjing DigitGate Communication Technology)
- 9.470 Dimetor
- 9.471 DKK (Denki Kogyo)
- 9.472 D-Link Corporation
- 9.473 Doodle Labs
- 9.474 Doogee
- 9.475 Doosan Corporation
- 9.476 DragonWave-X (COMSovereign)
- 9.477 Drakontas
- 9.478 DriveNets
- 9.479 Drone Aviation (COMSovereign)
- 9.480 DroneSense
- 9.481 Druid Software
- 9.482 DSBJ (Suzhou Dongshan Precision Manufacturing)
- 9.483 DT (Deutsche Telekom)
- 9.484 DTAC (Total Access Communication)
- 9.485 DTC Codan
- 9.486 du (EITC – Emirates Integrated Telecommunications Company)
- 9.487 Duons
- 9.488 Durabook (Twinhead International Corporation)
- 9.489 Duubee
- 9.490 Eahison Communication
- 9.491 EANTC
- 9.492 Eastcom (Eastern Communications)
- 9.493 EasyCell
- 9.494 Easycom (Shenzhen Easycom Electronics)
- 9.495 E-Band Communications (Axxcss Wireless Solutions)
- 9.496 e-BO Enterprises
- 9.497 ECE (European Communications Engineering)
- 9.498 EchoStar Corporation
- 9.499 Ecom Instruments (Pepperl+Fuchs)
- 9.500 Ecrio
- 9.501 Edgecore Networks (Accton Technology Corporation)
- 9.502 EdgeNectar
- 9.503 EdgeQ
- 9.504 Edgybees
- 9.505 edotco Group (Axiata Group)
- 9.506 EDX Wireless
- 9.507 Effnet
- 9.508 Eigencomm
- 9.509 eino
- 9.510 EION Wireless
- 9.511 Eir (Eircom)
- 9.512 Ekinops
- 9.513 Elbit Systems
- 9.514 Elefante Group
- 9.515 Element Materials Technology
- 9.516 E-Lins Technology
- 9.517 Elisa
- 9.518 Elisa Polystar
- 9.519 Elistair
- 9.520 Elsight
- 9.521 Elta Systems (IAI – Israel Aerospace Industries)
- 9.522 Eltex
- 9.523 ELUON Corporation
- 9.524 ELVA-1
- 9.525 Emblasoft
- 9.526 Embraer
- 9.527 Embratel
- 9.528 Emergent Solutions (Formerly 6Harmonics)
- 9.529 EMnify
- 9.530 EMS (Electronic Media Services)
- 9.531 Encora
- 9.532 Encore Networks
- 9.533 Enea
- 9.534 ENENSYS Technologies
- 9.535 Energizer Mobile (Avenir Telecom)
- 9.536 EnerSys
- 9.537 Entel (United Kingdom)
- 9.538 Entropia
- 9.539 Entropy Solution
- 9.540 Eoptolink Technology
- 9.541 EQT Active Core Infrastructure
- 9.542 Equiendo
- 9.543 Eravant (SAGE Millimeter)
- 9.544 Ericsson
- 9.545 Eridan Communications
- 9.546 Errigal
- 9.547 ErvoCom
- 9.548 ESChat (SLA Corporation)
- 9.549 Eseye
- 9.550 Esharah Etisalat Security Solutions
- 9.551 E-Space
- 9.552 Estalky (K-Mobile Technology)
- 9.553 ETELM
- 9.554 eTera (Sinotech R&D Group)
- 9.555 Ethernity Networks
- 9.556 Etherstack
- 9.557 Etisalat Group (e&)
- 9.558 ETRI (Electronics & Telecommunications Research Institute, South Korea)
- 9.559 EUCAST
- 9.560 Eurofiber
- 9.561 Eurofins E&E (Electrical and Electronics)
- 9.562 Eurofunk
- 9.563 Eurotech
- 9.564 Eutelsat Group
- 9.565 Eventide Communications
- 9.566 Eviden (Atos)
- 9.567 Evolve Cellular
- 9.568 Exacom
- 9.569 Exaware
- 9.570 Excelerate Technology
- 9.571 EXFO
- 9.572 Exium
- 9.573 Expeto
- 9.574 Extenet (DigitalBridge Group)
- 9.575 Extreme Networks
- 9.576 EY (Ernst & Young)
- 9.577 Eyecom Telecommunications Group
- 9.578 EZcon Network
- 9.579 F2G (Far-Together) Solutions
- 9.580 F5
- 9.581 Fairspectrum
- 9.582 Fairwaves
- 9.583 Faraday Technology Corporation
- 9.584 Fastback Networks (COMSovereign)
- 9.585 FCNT (Fujitsu Connected Technologies)-JEMS (Japan EM Solutions)
- 9.586 Federal Engineering
- 9.587 Federated Wireless
- 9.588 FET (Far EasTone Telecommunications)
- 9.589 FIBERSTAMP
- 9.590 Fibocom
- 9.591 Fibrolan
- 9.592 Filtronic
- 9.593 Fingu (Wuhan Fingu Electronic Technology)
- 9.594 Fiplex Communications (Honeywell International)
- 9.595 Firecell
- 9.596 Fivecomm
- 9.597 FLARE SYSTEMS (Japan)
- 9.598 Flash Connectivity Group
- 9.599 Flectory
- 9.600 Fleet Complete
- 9.601 Flex
- 9.602 Flex Logix Technologies
- 9.603 Flightcell International
- 9.604 FLIR Systems
- 9.605 floLIVE
- 9.606 Flymotion
- 9.607 FMBE (FMB Engineering)
- 9.608 Forsk
- 9.609 Fortinet
- 9.610 Fortress Solutions
- 9.611 Four-Faith Communication Technology
- 9.612 Foxconn (Hon Hai Technology Group)
- 9.613 Franklin Wireless
- 9.614 Fraunhofer FOKUS (Institute for Open Communication Systems)
- 9.615 Fraunhofer HHI (Heinrich Hertz Institute)
- 9.616 Fraunhofer IIS (Institute for Integrated Circuits)
- 9.617 Fraunhofer IPT (Institute for Production Technology)
- 9.618 FreedomFi
- 9.619 Freeeway
- 9.620 Frequentis
- 9.621 Freshwave Group (DigitalBridge Group)
- 9.622 Frog Cellsat
- 9.623 FRTek
- 9.624 FSG (Field Solutions Group)
- 9.625 FTS – Formula Telecom Solutions (Magic Software Group)
- 9.626 Fujikura
- 9.627 Fujitsu
- 9.628 FullRays (LDAS – LocationDAS)
- 9.629 Funk-Electronic Piciorgros
- 9.630 Funkwerk
- 9.631 Furukawa Electric
- 9.632 Furuno Electric
- 9.633 Future Connections
- 9.634 Future Technologies Venture
- 9.635 FYRA
- 9.636 G REIGNS (HTC Corporation)
- 9.637 G+D (Giesecke+Devrient)
- 9.638 G3 Global
- 9.639 Galore Networks
- 9.640 Galtronics (Baylin Technologies)
- 9.641 Gamma Nu
- 9.642 Gapwaves
- 9.643 Garderos
- 9.644 Gazprom Space Systems
- 9.645 GCT Semiconductor
- 9.646 GD (General Devices)
- 9.647 GE (General Electric)
- 9.648 Gemtek Technology
- 9.649 General Dynamics
- 9.650 Genesis Group
- 9.651 GENEViSiO (QNAP Systems)
- 9.652 Genew Technologies
- 9.653 Genmix Technology
- 9.654 Geotab
- 9.655 GeoTraq
- 9.656 Getac Technology Corporation
- 9.657 Gewei (Wuhan Gewei Electronic Technology)
- 9.658 GF (GlobalFoundries)
- 9.659 GIGABYTE Technology
- 9.660 Gigalane
- 9.661 GIGALIGHT
- 9.662 Gigamon
- 9.663 GigaTera Communications (KMW)
- 9.664 GigSky
- 9.665 Gilat Satellite Networks
- 9.666 GL Communications
- 9.667 Global Telecom
- 9.668 Globalgig
- 9.669 GlobalLogic (Hitachi)
- 9.670 Global-PTT
- 9.671 Globalstar
- 9.672 Globe Telecom
- 9.673 Goodman Telecom Services
- 9.674 Goodmill Systems
- 9.675 Google (Alphabet)
- 9.676 Goosetown Communications
- 9.677 Gore (W. L. Gore & Associates)
- 9.678 GosuncnWelink Technology (Gosuncn Group)
- 9.679 Granite Telecommunications
- 9.680 Grape One (Sumitomo Corporation)
- 9.681 Green Communications
- 9.682 Green Packet
- 9.683 Greenet (Netherlands)
- 9.684 GreenPalm (Hangzhou GreenPalm Technology)
- 9.685 GrenTech
- 9.686 GridGears
- 9.687 Groundhog Technologies
- 9.688 GroupTalk
- 9.689 GS Lab (Great Software Laboratory)
- 9.690 GSI (GS Instech)/GST (GS Teletech)
- 9.691 GuardStack
- 9.692 Guerrilla RF
- 9.693 GXC (Motive Infrastructure)
- 9.694 HAAS Alert
- 9.695 Haier
- 9.696 Haivision
- 9.697 HALO Networks
- 9.698 Halys
- 9.699 Hancom MDS
- 9.700 Handheld Group
- 9.701 Handsfree Group
- 9.702 Hansen Technologies
- 9.703 Hanswell
- 9.704 Hanwha Techwin
- 9.705 HAPSMobile
- 9.706 Harbor Max
- 9.707 HARMAN DTS (Digital Transformation Solutions)
- 9.708 Harvilon (Shenzhen Harvilon Technology)
- 9.709 Hawk Networks (Althea)
- 9.710 Haystax Technology (Fishtech Group/Cyderes)
- 9.711 HBFEC (Hebei Far East Communication System Engineering)
- 9.712 HCLTech (HCL Technologies)
- 9.713 Helios (Fujian Helios Technologies)
- 9.714 Hengxin (Jiangsu Hengxin Technology)
- 9.715 Henkel
- 9.716 Herystorm (Guangzhou Herystorm Technology)
- 9.717 Hexagon
- 9.718 Hexagon Communication (Suzhou Hexagon Communication Technologies)
- 9.719 HFCL
- 9.720 HFR Networks
- 9.721 HG Genuine (HGTECH – Huagong Technology)
- 9.722 Highstreet Technologies
- 9.723 Highway 9 Networks
- 9.724 Hikvision (Hangzhou Hikvision Digital Technology)
- 9.725 Hilinks Technology
- 9.726 HipLink Software
- 9.727 Hisense
- 9.728 HiSilicon Technologies (Huawei)
- 9.729 HISPASAT
- 9.730 Hitachi
- 9.731 HKT (PCCW)
- 9.732 HKTech (Howking Tech)
- 9.733 HMD Global
- 9.734 HMF Smart Solutions
- 9.735 HMS Networks
- 9.736 Hoimyung ICT
- 9.737 Hologram
- 9.738 Honeywell International
- 9.739 Hongdian Corporation
- 9.740 HONOR
- 9.741 Horizon Powered
- 9.742 Hoverfly Technologies
- 9.743 HP
- 9.744 HPE (Hewlett Packard Enterprise)
- 9.745 HQT (Shenzhen HQT Science and Technology)
- 9.746 HSC (Hughes Systique Corporation)
- 9.747 HTC Corporation
- 9.748 Huahuan (Beijing Huahuan Electronics)
- 9.749 Huaptec
- 9.750 Huawei
- 9.751 Hubbcat
- 9.752 HUBER+SUHNER
- 9.753 HUCOM Wireless
- 9.754 Hughes Network Systems (EchoStar Corporation)
- 9.755 HXI (Renaissance Electronics & Communications)
- 9.756 Hypha (Wireless Innovation)
- 9.757 Hytec Inter
- 9.758 Hytera Communications
- 9.759 i.safe MOBILE
- 9.760 i2i Systems
- 9.761 iBASIS (Tofane Global)
- 9.762 IBM
- 9.763 IBO Technology Company
- 9.764 iBwave Solutions
- 9.765 iCana (Foxconn – Hon Hai Technology Group)
- 9.766 Ice Norway (Lyse)
- 9.767 Icom
- 9.768 Icomera (Equans)
- 9.769 Iconec
- 9.770 iConNext
- 9.771 iDAQS
- 9.772 IDEMIA
- 9.773 IDY Corporation
- 9.774 IFLY Electronics
- 9.775 IIJ (Internet Initiative Japan)
- 9.776 IM Technology
- 9.777 Imagine Wireless
- 9.778 Imec
- 9.779 IMPTT
- 9.780 IMPULSE Wireless
- 9.781 Imtradex
- 9.782 InCoax Networks
- 9.783 Indra
- 9.784 INEX Microtechnology
- 9.785 Infineon Technologies
- 9.786 InfiNet Wireless
- 9.787 InfiniG
- 9.788 Infinite Electronics
- 9.789 Infomark Corporation
- 9.790 Infosys
- 9.791 Infovista
- 9.792 InHand Networks
- 9.793 Inmanta
- 9.794 Inmarsat (Viasat)
- 9.795 Innertron
- 9.796 InnoGence Technology (TROY Information)
- 9.797 InnoLight Technology
- 9.798 Innonet
- 9.799 Innovile
- 9.800 InnoWireless
- 9.801 Inrico Technologies
- 9.802 INS (Industrial Networking Solutions)
- 9.803 Inseego Corporation
- 9.804 Inspur
- 9.805 Insta Group
- 9.806 Instant Connect
- 9.807 INSYS icom (INSYS Microelectronics)
- 9.808 Intec E&C
- 9.809 Intel Corporation
- 9.810 Intelbras
- 9.811 Intelliport Solutions
- 9.812 Intelsat
- 9.813 Intenna Systems
- 9.814 InterDigital
- 9.815 INTERLEV
- 9.816 Interop Technologies
- 9.817 InterTalk Critical Information Systems
- 9.818 Intracom Telecom
- 9.819 Intrado
- 9.820 Intrepid Networks
- 9.821 Invences
- 9.822 Inventec Corporation
- 9.823 INWIT (Infrastrutture Wireless Italiane)
- 9.824 IONX Networks (Formerly Dense Air)
- 9.825 IoT4Net
- 9.826 IoTAS (IoT & Approval Solutions)
- 9.827 IP Infusion (ACCESS CO.)
- 9.828 IPAGEON
- 9.829 IPITEK (Integrated Photonics Technology)
- 9.830 IPLOOK Technologies
- 9.831 iPosi
- 9.832 Iradio Electronics
- 9.833 Iridium Communications
- 9.834 Irteya (Russia)
- 9.835 ISCO International
- 9.836 IS-Wireless
- 9.837 Italtel
- 9.838 ITCEN
- 9.839 Itential
- 9.840 ITRI (Industrial Technology Research Institute, Taiwan)
- 9.841 Jabil
- 9.842 Jabra (GN Group)
- 9.843 JACS Solutions
- 9.844 JATONTEC (Jaton Technology)
- 9.845 JCB Phone (Genuine Case Company)
- 9.846 JCI (Japan Communications Inc.)
- 9.847 JET Connectivity
- 9.848 Jezetek (Sichuan Jiuzhou Electric Group)
- 9.849 Jiaxun Feihong (Beijing Jiaxun Feihong Electrical)
- 9.850 Jinan USR IoT Technology (Mokuai/Wenheng)
- 9.851 Jio Platforms
- 9.852 JIT (JI Technology)
- 9.853 JMA Wireless
- 9.854 JOUAV
- 9.855 JPC Connectivity
- 9.856 JPS Interoperability Solutions
- 9.857 JQL Technologies
- 9.858 JRC (Japan Radio Company)
- 9.859 JSC Ingenium
- 9.860 JT IoT
- 9.861 Juniper Networks (HPE – Hewlett Packard Enterprise)
- 9.862 Junkosha
- 9.863 Juvare
- 9.864 JVCKENWOOD Corporation
- 9.865 Kacific Broadband Satellites
- 9.866 Kaelus
- 9.867 Kajeet
- 9.868 Kalray
- 9.869 Katela Networks
- 9.870 KATIM
- 9.871 KBR
- 9.872 KBT (Kenbotong Technology)
- 9.873 KCCTech
- 9.874 KDDI Corporation
- 9.875 Kenstel
- 9.876 Key Bridge Wireless
- 9.877 Keysight Technologies
- 9.878 Khomp
- 9.879 Kiana Analytics
- 9.880 Kigen
- 9.881 Kindroid – Shanghai Jinzhuo Technology (Kyland Technology)
- 9.882 Kirisun Communications
- 9.883 Kisan Telecom
- 9.884 KLA Laboratories
- 9.885 Klas (Formerly Klas Telecom)
- 9.886 Klein Electronics
- 9.887 Kleos
- 9.888 KMW
- 9.889 Knightscope
- 9.890 Kolibri Systems
- 9.891 Kontron
- 9.892 KORE Wireless
- 9.893 KPN
- 9.894 KT Corporation
- 9.895 Kudelski Group
- 9.896 Kumu Networks
- 9.897 Kyland Technology
- 9.898 Kymeta Corporation
- 9.899 Kyndryl
- 9.900 Kyocera Corporation
- 9.901 Kyrio (CableLabs)
- 9.902 KZ TECH (KZ Broadband Technologies)
- 9.903 L3Harris Technologies
- 9.904 Laird Connectivity
- 9.905 Landmark Dividend (DigitalBridge Group)
- 9.906 Lanner Electronics
- 9.907 Lantronix
- 9.908 Lattice Semiconductor
- 9.909 LCR Embedded Systems
- 9.910 Leenos Corporation
- 9.911 Leidos
- 9.912 Lekha Wireless Solutions
- 9.913 Lemko Corporation
- 9.914 Lenovo
- 9.915 Leonardo
- 9.916 Lextrum (COMSovereign)
- 9.917 LG Corporation
- 9.918 LG Uplus
- 9.919 Liberty Global
- 9.920 Lierda Science & Technology Group
- 9.921 Lifecycle Software
- 9.922 Lifeline Solutions/Abiom (Mission Critical Group)
- 9.923 Ligado Networks
- 9.924 Lightron
- 9.925 Lime Microsystems
- 9.926 Linkem
- 9.927 Linksys
- 9.928 Linx Technologies
- 9.929 LIONS Technology
- 9.930 LIS (Laboratory of Infocommunication Networks)
- 9.931 Lisheng Fujian Communications
- 9.932 LITE-ON Technology Corporation
- 9.933 LitePoint (Teradyne)
- 9.934 LiveU
- 9.935 Lociva
- 9.936 Lockheed Martin Corporation
- 9.937 Logicalis (Datatec)
- 9.938 LogicTree IT Solutions
- 9.939 Longsung Technology (Sunsea AIoT Technology)
- 9.940 Lookout
- 9.941 LS Mtron
- 9.942 LS telcom
- 9.943 LTTS (L&T Technology Services)
- 9.944 Luceor
- 9.945 Lumen Technologies
- 9.946 Lumentum
- 9.947 Lumineye
- 9.948 LuxCarta
- 9.949 Luxoft (DXC Technology)
- 9.950 Lyfo
- 9.951 Lynk Global
- 9.952 LYNKNEX (Lynksys Technologies)
- 9.953 M1
- 9.954 m3connect
- 9.955 M4PS (Mobility 4 Public Safety)
- 9.956 MACOM
- 9.957 Magna Wireless (ABiT Corporation)
- 9.958 Magnaquest Technologies
- 9.959 Maipu Communication Technology
- 9.960 Maja Systems
- 9.961 MantisNet
- 9.962 MarchNet
- 9.963 Marlink
- 9.964 Marquistech
- 9.965 Martin UAV
- 9.966 Marubeni Corporation
- 9.967 Marubun Corporation
- 9.968 Marvell Technology
- 9.969 MÁSMÓVIL
- 9.970 Mathworks
- 9.971 Matrix Electrónica/Webdyn (Flexitron Group)
- 9.972 MATRIXX Software
- 9.973 MatSing
- 9.974 Maven Wireless
- 9.975 Mavenir
- 9.976 Maxar Technologies
- 9.977 MaxComm
- 9.978 Maxis
- 9.979 MaxLinear
- 9.980 MC Technologies
- 9.981 MCLabs
- 9.982 MCP (Mission Critical Partners)
- 9.983 MCS Benelux
- 9.984 MD (MICRODRIVE)
- 9.985 Mdex (Wireless Logic Group)
- 9.986 MEASAT Satellite Systems
- 9.987 MECSware (Riedel Communications)
- 9.988 Media Broadcast (freenet Group)
- 9.989 MediaTek
- 9.990 Meeami Technologies
- 9.991 MegaChips Corporation
- 9.992 MegaFon
- 9.993 MeiG Smart Technology
- 9.994 Meizu
- 9.995 MER Group
- 9.996 Meta
- 9.997 Metanoia Communications
- 9.998 Metaswitch (Alianza)
- 9.999 Metawave Corporation
- 9.1000 Meter Cellular
- 9.1001 Metismake
- 9.1002 MetTel
- 9.1003 MHD (Muhan Digital)
- 9.1004 MIC Nordic
- 9.1005 MICAS-RF (MICAS Shenzhen Telecommunication)
- 9.1006 MiCOM Labs
- 9.1007 Micran
- 9.1008 Microamp Solutions
- 9.1009 Microchip Technology
- 9.1010 Microlab (RF Industries)
- 9.1011 MicroNova
- 9.1012 Microsoft Corporation
- 9.1013 Microwave Networks
- 9.1014 MikroTik
- 9.1015 Mikwave (Guangdong Mikwave Communication Tech)
- 9.1016 Milesight
- 9.1017 Milestone Systems
- 9.1018 Miliwave
- 9.1019 MiMOMax (Ubiik)
- 9.1020 MIPS
- 9.1021 MiTAC Computing Technology Corporation
- 9.1022 MitraStar Technology (Unizyx Holding Corporation)
- 9.1023 MITRE Corporation
- 9.1024 Mitsubishi Electric Corporation
- 9.1025 MKI (Mitsui Knowledge Industry)
- 9.1026 MOBI (Mobi Antenna Technologies)
- 9.1027 Mobil Group (Russia)
- 9.1028 Mobile Inform Group
- 9.1029 Mobile Mark
- 9.1030 Mobile Tornado
- 9.1031 Mobile Viewpoint
- 9.1032 MobileComm Professionals (UST)
- 9.1033 MobileDemand
- 9.1034 MobileIron
- 9.1035 MobileTek (Shanghai Mobiletek Communication)
- 9.1036 Mobileum
- 9.1037 Mobilicom
- 9.1038 Mobiveil
- 9.1039 Mocotec
- 9.1040 Modirum Platforms (Formerly Mentura Group)
- 9.1041 Molex
- 9.1042 Monogoto
- 9.1043 Morningcore Technology (CICT – China Information and Communication Technology Group)
- 9.1044 Morningstar Corporation
- 9.1045 Moseley Associates (Axxcss Wireless Solutions)
- 9.1046 Moso Networks (Sercomm Corporation)
- 9.1047 Motive Infrastructure Solutions
- 9.1048 Motorola Mobility (Lenovo)
- 9.1049 Motorola Solutions
- 9.1050 Mott MacDonald
- 9.1051 Movandi
- 9.1052 Moxa
- 9.1053 MP Antenna
- 9.1054 MRK Media
- 9.1055 MRT Technology (Suzhou)
- 9.1056 MSB (M S Benbow & Associates)
- 9.1057 MTI (Microelectronics Technology Inc.)
- 9.1058 MTI Wireless Edge
- 9.1059 MTN Group
- 9.1060 MTS (Mobile TeleSystems)
- 9.1061 MUGLER
- 9.1062 MultiTech (Multi-Tech Systems)
- 9.1063 Murata Manufacturing
- 9.1064 Mushroom Networks
- 9.1065 Mutualink
- 9.1066 MVI Group
- 9.1067 MW (Matrix Wave)
- 9.1068 MYCOM OSI
- 9.1069 Mynaric
- 9.1070 MYT Electronics
- 9.1071 N.A.T.
- 9.1072 Nable Communications
- 9.1073 NanoSemi (MaxLinear)
- 9.1074 Napatech
- 9.1075 Nash Technologies
- 9.1076 ND SatCom
- 9.1077 Nearby Computing
- 9.1078 NEC Corporation
- 9.1079 Nemergent Solutions
- 9.1080 Nemko
- 9.1081 Neolink Communications Technology
- 9.1082 NeoPlane
- 9.1083 Neoway Technology
- 9.1084 Neptune Communications
- 9.1085 Neragon Networks
- 9.1086 Net AI
- 9.1087 Netaş
- 9.1088 NETBEE (NET-Automation)
- 9.1089 Netcracker Technology (NEC Corporation)
- 9.1090 NetFoundry
- 9.1091 Netgear
- 9.1092 NetModule (Belden)
- 9.1093 Netmore Group
- 9.1094 NETSCOUT Systems
- 9.1095 Netsia (Argela)
- 9.1096 Netvision Telecom
- 9.1097 Network Innovations
- 9.1098 Neutral Wireless
- 9.1099 Neutroon Technologies
- 9.1100 New H3C Technologies (Tsinghua Unigroup)
- 9.1101 New Postcom Equipment
- 9.1102 NewEdge Signal Solutions
- 9.1103 NEXCOM International
- 9.1104 Nexign
- 9.1105 Nexpring
- 9.1106 NextEPC Korea (COONTEC)
- 9.1107 Nextivity
- 9.1108 NextNav
- 9.1109 NextWave
- 9.1110 Nextworks
- 9.1111 ng4T
- 9.1112 NGK Group (NGK Insulators)
- 9.1113 NGNAPPS
- 9.1114 ng-voice
- 9.1115 NI (National Instruments)
- 9.1116 NICE
- 9.1117 NimbeLink
- 9.1118 Niral Networks
- 9.1119 Nitto Denko Corporation
- 9.1120 NKG (New Kinpo Group)
- 9.1121 Node-H
- 9.1122 Nokia
- 9.1123 Nordic Semiconductor
- 9.1124 Northcom Solutions
- 9.1125 Northrop Grumman Corporation
- 9.1126 NOTION Information Technology
- 9.1127 Nova Labs (Helium)
- 9.1128 NOVEC
- 9.1129 NOVELSAT
- 9.1130 Novowi
- 9.1131 NRB (Network Research Belgium)
- 9.1132 NS Solutions Corporation
- 9.1133 Nsight
- 9.1134 NT (National Telecom)
- 9.1136 NTMore (Network Technology More)
- 9.1137 NTT DoCoMo
- 9.1138 NTT Group
- 9.1139 Nubia Technology (ZTE)
- 9.1140 Numerisat
- 9.1141 NuRAN Wireless
- 9.1142 Nurlink Technology
- 9.1143 NVIDIA Corporation
- 9.1144 NXP Semiconductors
- 9.1145 Oasis Smart SIM
- 9.1146 Obvios
- 9.1147 Oceus Networks
- 9.1148 Octasic
- 9.1149 O-Cubes
- 9.1150 ODN (Orbital Data Network)
- 9.1151 OE Solutions
- 9.1152 OFS Fitel (Furukawa Electric)
- 9.1153 OKI Electric Industry
- 9.1154 Omnispace
- 9.1155 Omnitele
- 9.1156 Omnitron Systems
- 9.1157 Omnitronics
- 9.1158 One2many (Everbridge)
- 9.1159 OneLayer
- 9.1160 OnePlus (BBK Electronics)
- 9.1161 OneSimCard
- 9.1162 OneWeb (Eutelsat Group)
- 9.1163 Onomondo
- 9.1164 Ontix
- 9.1165 Onwave
- 9.1166 Ookla
- 9.1167 Ooredoo
- 9.1168 Opale Systems
- 9.1169 Opanga Networks
- 9.1170 Open Valley
- 9.1171 Opencode Systems
- 9.1172 OPPO (BBK Electronics)
- 9.1173 O'Prueba Technology
- 9.1174 OPTAGE
- 9.1175 OptConnect
- 9.1176 Optical Zonu Corporation
- 9.1177 Opticoms
- 9.1178 Option
- 9.1179 Optiva
- 9.1180 OQ Technology
- 9.1181 Oracle Communications
- 9.1182 Orange
- 9.1183 ORAXIO Telecom Solutions
- 9.1184 ORBCOMM
- 9.1185 OREX (NTT DoCoMo)
- 9.1186 Ori Industries
- 9.1187 Orion Labs (Vontas)
- 9.1188 Orizon Mobile
- 9.1189 Oscilloquartz (Adtran)
- 9.1190 OV (Manx Telecom)
- 9.1191 OVHcloud
- 9.1192 P.I. Works
- 9.1193 PacStar (Pacific Star Communications)
- 9.1194 Padtec
- 9.1195 Palo Alto Networks
- 9.1196 Panasonic Connect
- 9.1197 Panda Electronics
- 9.1198 PanOptis
- 9.1199 Panorama Antennas
- 9.1200 Parallel Wireless
- 9.1201 Parsec Technologies
- 9.1202 Particle
- 9.1203 PAStech
- 9.1204 Patrocinium Systems
- 9.1205 Patton
- 9.1206 Pavlov Media
- 9.1207 PBE Axell (Formerly Axell Wireless)
- 9.1208 PCS Technologies
- 9.1209 PCTEL (Amphenol Corporation)
- 9.1210 PCTEST Lab (PCTEST Engineering Laboratory)
- 9.1211 Peatalk Corporation
- 9.1212 Pegatron Corporation
- 9.1213 Pei Tel Communications
- 9.1214 Pelion
- 9.1215 Penguin Solutions (SGH – SMART Global Holdings)
- 9.1216 Pente Networks
- 9.1217 Pentonet
- 9.1218 Peplink (Plover Bay Technologies)
- 9.1219 Pepro
- 9.1220 Peraso
- 9.1221 Peraton Labs
- 9.1222 Percepto
- 9.1223 Perle Systems
- 9.1224 Pharrowtech
- 9.1225 Phirst Technologies/xCraft Enterprises
- 9.1226 Phluido
- 9.1227 Phonemax
- 9.1228 Phytium Technology (Tianjin Phytium Information Technology)
- 9.1229 PHYTunes
- 9.1230 Picocom
- 9.1231 Pierson Wireless
- 9.1232 Pivot Technology Services
- 9.1233 Pivotal Commware
- 9.1234 Pivotel Group
- 9.1235 Pivotone
- 9.1236 Pixavi (BARTEC)
- 9.1237 Platform9
- 9.1238 Pletronics
- 9.1239 Plextek
- 9.1240 Plintron
- 9.1241 Plus (Polkomtel)
- 9.1242 PMY Group
- 9.1243 POCSTARS
- 9.1244 Pod Group (G+D – Giesecke+Devrient)
- 9.1245 Polaris Wireless
- 9.1246 Pollen Mobile
- 9.1247 Portalify (Northcom Solutions)
- 9.1248 Positron Access Solutions
- 9.1249 Potevio (CETC – China Electronics Technology Group Corporation)
- 9.1250 PPC Broadband (Belden)
- 9.1251 Precision OT (Optical Transceivers)
- 9.1252 PRESCOM
- 9.1253 Prism-IPX Systems
- 9.1254 Proef
- 9.1255 Proptivity
- 9.1256 Proscend Communications
- 9.1257 PROSE Technologies
- 9.1258 PROTEI
- 9.1259 Proxim Wireless Corporation (SRA Holdings)
- 9.1260 Proximus
- 9.1261 Pryme Radio Products
- 9.1262 pSemi Corporation (Murata Manufacturing)
- 9.1263 PT INTI (PT Industri Telekomunikasi Indonesia)
- 9.1264 PT LEN Industri
- 9.1265 PTTI (Push To Talk International)
- 9.1266 Publicis Sapient
- 9.1267 Pulsara
- 9.1268 Pulse Electronics (YAGEO Corporation)
- 9.1269 PureSoftware
- 9.1270 Purism
- 9.1271 Pycom
- 9.1272 QCT (Quanta Cloud Technology)
- 9.1273 QinetiQ
- 9.1274 Qorvo
- 9.1275 QuadGen Wireless Solutions
- 9.1276 Qualcomm
- 9.1277 Quanta Computer
- 9.1278 Quantum Wireless
- 9.1279 Qucell Networks (InnoWireless)
- 9.1280 Quectel Wireless Solutions
- 9.1281 Quintel (Cirtek Holdings Philippines Corporation)
- 9.1282 QuWireless
- 9.1283 Qwake Technologies
- 9.1284 Qwilt
- 9.1285 R Systems (Computaris International)
- 9.1286 RACOM (Czech Republic)
- 9.1287 RACOM Corporation
- 9.1288 RAD
- 9.1289 RADCOM
- 9.1290 Radiall
- 9.1291 Radio Gigabit
- 9.1292 Radio IP Software
- 9.1293 Radiocoms Systems
- 9.1294 RadioMobile
- 9.1295 Radisys (Reliance Industries)
- 9.1296 RADTONICS
- 9.1297 Radware
- 9.1298 RADWIN
- 9.1299 Rafael Advanced Defense Systems
- 9.1300 Raisecom
- 9.1301 Rajant Corporation
- 9.1302 Rakon
- 9.1303 Rakuten Symphony
- 9.1304 RAKwireless
- 9.1305 Ramen Networks
- 9.1306 Range Networks (AMN – Africa Mobile Networks)
- 9.1307 Ranger Systems
- 9.1308 Ranplan Wireless
- 9.1309 RANsemi
- 9.1310 Rapid.Space (Nexedi)
- 9.1311 RapidSOS
- 9.1312 Rapidtek Technologies
- 9.1313 Rave Mobile Safety (Motorola Solutions)
- 9.1314 Raycap
- 9.1315 Raycom Communication Solutions
- 9.1316 RCS Telecommunications
- 9.1317 Ready Wireless
- 9.1318 Realme (BBK Electronics)
- 9.1319 RealPTT (Shenzhen Corget Technology)
- 9.1320 Red Hat (IBM)
- 9.1321 Red Lion Controls (Spectris)
- 9.1322 RED Technologies
- 9.1323 RedZinc
- 9.1324 Reliance Jio Infocomm (Jio Platforms)
- 9.1325 REMEC Broadband Wireless Networks (Bridgewave Communications/SAGE SatCom)
- 9.1326 Renesas Electronics Corporation
- 9.1327 REPLY
- 9.1328 Rescue 42
- 9.1329 Responder Corp
- 9.1330 Revells
- 9.1331 RF Connect
- 9.1332 RF DSP
- 9.1333 RF Industries
- 9.1334 RF MORECOM
- 9.1335 RF Window
- 9.1336 RFHIC Corporation
- 9.1337 RFI Technology Solutions (Tait Communications)
- 9.1338 RFS (Radio Frequency Systems)
- 9.1339 RFTech
- 9.1340 Ribbon Communications
- 9.1341 Ricon Mobile
- 9.1342 RideOnTrack
- 9.1343 RIMEDO Labs
- 9.1344 Rivada Networks
- 9.1345 RKTPL (RK Telesystem Private Limited)
- 9.1346 Robert Bosch
- 9.1347 Robustel
- 9.1348 Rogers Communications
- 9.1349 Rogers Corporation
- 9.1350 Rohde & Schwarz
- 9.1351 Rohill
- 9.1352 Rolling Wireless (Fibocom)
- 9.1353 Rosenberger
- 9.1354 Royole Corporation
- 9.1355 RSCC (Russian Satellite Communications Company)
- 9.1356 RSConnect
- 9.1357 RTX A/S
- 9.1358 RTX Corporation (Formerly Raytheon Technologies)
- 9.1359 RTx Technology
- 9.1360 RugGear
- 9.1361 RuggON Corporation
- 9.1362 Ruijie Networks
- 9.1363 RunEL
- 9.1364 Rushmere Technology
- 9.1365 Saab
- 9.1366 Saankhya Labs (Tejas Networks)
- 9.1367 SABIC
- 9.1368 SAC Wireless (Nokia)
- 9.1369 SAF Tehnika
- 9.1370 Safe-Com Wireless
- 9.1371 SafeMobile
- 9.1372 Sagemcom
- 9.1373 SageRAN (Guangzhou SageRAN Technology)
- 9.1374 Saguna Networks (COMSovereign)
- 9.1375 SAI Technology
- 9.1376 SAIC (Science Applications International Corporation)
- 9.1377 Samji Electronics
- 9.1378 Samsung
- 9.1379 SAMWON FA
- 9.1380 Samyoung Celetra
- 9.1381 Sanchar Telesystems
- 9.1382 Sandvine
- 9.1383 Sanechips Technology (ZTE)
- 9.1384 Sanjole
- 9.1385 San-tron
- 9.1386 Sasken Technologies
- 9.1387 SaskTel
- 9.1388 Sateliot
- 9.1389 SatixFy
- 9.1390 Saviah Technologies
- 9.1391 Savox Communications
- 9.1392 SBA Communications
- 9.1393 Sceye
- 9.1394 SEA – Systems Engineering & Assessment (Cohort)
- 9.1395 Seamless Waves
- 9.1396 Secapp
- 9.1397 Sectra Communications
- 9.1398 Secured Communications
- 9.1399 SecureG
- 9.1400 SecurityGen
- 9.1401 SEE Telecom
- 9.1402 Select Spectrum
- 9.1403 Semco Maritime
- 9.1404 SEMPRE (Secure EMP-Resilient Edge)
- 9.1405 Semtech Corporation
- 9.1406 Senko Advanced Components
- 9.1407 Senop Communications
- 9.1408 Sensorview
- 9.1409 Senstar Corporation
- 9.1410 Sentinel Camera Systems
- 9.1411 Seong Ji Industrial
- 9.1412 SEONTECH
- 9.1413 Seowon Intech
- 9.1414 Sepura
- 9.1415 Sequans Communications
- 9.1416 Sercomm Corporation
- 9.1417 ServiceNow
- 9.1418 SES
- 9.1419 SETUP Protokolltester
- 9.1420 SGS
- 9.1421 Shannon Wireless (Zhejiang Shannon Communication Technology)
- 9.1422 Shared Access
- 9.1423 Sharp Corporation (Foxconn – Hon Hai Technology Group)
- 9.1424 Shenglu (Guangdong Shenglu Telecommunication)
- 9.1425 Shenzhen CXD Science & Technology
- 9.1426 Shenzhen Recoda Technologies
- 9.1427 Shenzhen SED Wireless Communication Technology
- 9.1428 SIAE Microelettronica
- 9.1429 Siemens
- 9.1430 Sigma Wireless (Day Wireless Systems)
- 9.1431 Signalchip
- 9.1432 Signaltron
- 9.1433 Signalwing
- 9.1434 Silicom Connectivity Solutions
- 9.1435 Silicom SAS (France)
- 9.1436 SIMCom Wireless Solutions (Sunsea AIoT Technology)
- 9.1437 Simnovus
- 9.1438 Simoco Wireless Solutions
- 9.1439 Sinclair Technologies (Norsat International/Hytera Communications)
- 9.1440 Singtel
- 9.1441 Sinnwell (audius)
- 9.1442 SIRADEL
- 9.1443 Sistelec
- 9.1444 Sitenna
- 9.1445 siticom (Logicalis)
- 9.1446 SiTime Corporation
- 9.1447 SITRONICS (Sistema)
- 9.1448 Sivers Semiconductors
- 9.1449 Siyata PTT
- 9.1450 SK Telecom
- 9.1451 SK Telesys
- 9.1452 Skoltech (Skolkovo Institute of Science and Technology)
- 9.1453 SKY Perfect JSAT
- 9.1454 SkyFive
- 9.1455 Skylark Wireless
- 9.1456 Skylo Technologies
- 9.1457 Skyvera (TelcoDR)
- 9.1458 Skyworks Solutions
- 9.1459 SM Optics (SIAE Microelettronica)
- 9.1460 Smart Communications (PLDT)
- 9.1461 Smartcom
- 9.1462 Smartfren
- 9.1463 SmarTone
- 9.1464 SMAWave (Shanghai SMAWave Technology)
- 9.1465 Socionext
- 9.1466 SoftBank Group
- 9.1467 Softil
- 9.1468 Soitec
- 9.1469 Solectek Corporation/Cielo Networks
- 9.1470 SOLiD
- 9.1471 SolidRun
- 9.1472 Solidtronic
- 9.1473 Soliton Systems
- 9.1474 Sonim Technologies
- 9.1475 Sony Group Corporation
- 9.1476 Sooktha
- 9.1477 Soracom
- 9.1478 Source Photonics
- 9.1479 Southern Linc
- 9.1480 Space Data Corporation
- 9.1481 SpaceBridge
- 9.1482 Spacecom
- 9.1483 SpaceX
- 9.1484 Spark New Zealand
- 9.1485 Spectra Group
- 9.1486 SpectraRep
- 9.1487 Spectre (Rostec)
- 9.1488 SpectrEdge Wireless
- 9.1489 Spectronite
- 9.1490 Spectronn
- 9.1491 Spectrum Effect
- 9.1492 Speedcast
- 9.1493 Spideradio (Suzhou Spideradio Telecommunication Technology)
- 9.1494 SPIE Group
- 9.1495 Spirent Communications (Keysight Technologies)
- 9.1496 SPIRIT DSP
- 9.1497 SPL (Stratospheric Platforms Limited)
- 9.1498 Sporton International
- 9.1499 Spry Fox Networks
- 9.1500 SQUAN
- 9.1501 Squire Technologies
- 9.1502 SRS (Software Radio Systems)
- 9.1503 SRTechnology
- 9.1504 SSC (Shared Spectrum Company)
- 9.1505 SSS Public Safety
- 9.1506 ST (STMicroelectronics)
- 9.1507 ST Engineering iDirect
- 9.1508 Star Microwave
- 9.1509 Star Solutions
- 9.1510 StarHub
- 9.1511 StarPoint (Beijing StarPoint Technology)
- 9.1512 STC (Saudi Telecom Company)
- 9.1513 Steep
- 9.1514 Stella Doradus Europe
- 9.1515 STEP CG
- 9.1516 STL (Sterlite Technologies Ltd.)
- 9.1517 Stop Noise
- 9.1518 STraffic
- 9.1519 Streambox
- 9.1520 Streamwide
- 9.1521 Subex
- 9.1522 Sumitomo Electric Industries
- 9.1523 Summa Networks
- 9.1524 Summit Tech
- 9.1525 Sunsea AIoT Technology
- 9.1526 Sunwave Communications
- 9.1527 Supermicro (Super Micro Computer)
- 9.1528 SureCall
- 9.1529 SureSite Consulting Group
- 9.1530 SUSE
- 9.1531 Sutherland
- 9.1532 Swisscom
- 9.1533 Swissphone
- 9.1534 Sylincom (Beijing Sylincom Technology)
- 9.1535 Synch/Meep (Elbit Systems)
- 9.1536 Synctechno
- 9.1537 Syniverse
- 9.1538 SYRTEM
- 9.1539 Systech Corporation
- 9.1540 System Innovation Group
- 9.1541 Systemics-PAB
- 9.1542 T&W (Shenzhen Gongjin Electronics)
- 9.1543 t2 (Formerly Tele2 Russia)
- 9.1544 T2M
- 9.1545 TacSat Networks
- 9.1546 Tait Communications
- 9.1547 Taiwan Mobile
- 9.1548 TAIYO YUDEN
- 9.1549 Talia Communications (Commercis)
- 9.1550 Talk-IP International
- 9.1551 Talkpod Technology
- 9.1552 Tambora Systems
- 9.1553 Tampa Microwave (Thales)
- 9.1554 Tampnet
- 9.1555 Tango Networks
- 9.1556 Tango Tango
- 9.1557 Tannera
- 9.1558 Taoglas
- 9.1559 Tarana Wireless
- 9.1560 TASSTA
- 9.1561 Tata Elxsi
- 9.1562 Tatfook (Shenzhen Tatfook Technology)
- 9.1563 TAWAL
- 9.1564 TCL Communication
- 9.1565 TCOM
- 9.1566 TCS (Tata Consultancy Services)
- 9.1567 TD Tech
- 9.1568 TDC NET
- 9.1569 TDCOMM
- 9.1570 TDF
- 9.1571 TE Connectivity
- 9.1572 Teal Communications
- 9.1573 Tech Mahindra
- 9.1574 Techbros
- 9.1575 Technetix
- 9.1576 Tecom
- 9.1577 Tecore Networks
- 9.1578 TECTWIN
- 9.1579 Tejas Networks
- 9.1580 TEKTELIC Communications
- 9.1581 Telco Systems (BATM Advanced Communications)
- 9.1582 Telcoware
- 9.1583 Teldat
- 9.1584 Tele2
- 9.1585 Teleauora
- 9.1586 Telecom26
- 9.1587 Teleena (Tata Communications MOVE)
- 9.1588 Telefield
- 9.1589 Telefónica Group
- 9.1590 Telekom Slovenije
- 9.1591 Telematix
- 9.1592 Telenor Group
- 9.1593 Telent
- 9.1594 Telesat
- 9.1595 Telespazio (Leonardo/Thales)
- 9.1596 Teleste
- 9.1597 teleSys Software
- 9.1598 Telet Research
- 9.1599 Televate
- 9.1600 Telewave
- 9.1601 TeleWorld Solutions (Samsung)
- 9.1602 Telia Company
- 9.1603 Telit Cinterion
- 9.1604 Telkomsel
- 9.1605 Tellabs
- 9.1606 Tellion
- 9.1607 Telna
- 9.1608 TELNET Redes Inteligentes
- 9.1609 TELOX (Telo Systems)
- 9.1610 Telrad Networks
- 9.1611 Telsasoft
- 9.1612 Telstra
- 9.1613 Teltonika
- 9.1614 Teltronic
- 9.1615 Telus
- 9.1616 TEOCO
- 9.1617 Teracom
- 9.1618 Teradek
- 9.1619 TERAGO
- 9.1620 Tera-Pass
- 9.1621 Tessares
- 9.1622 Tessco/Alliance Corporation/GetWireless
- 9.1623 Thaicom
- 9.1624 Thales
- 9.1625 ThinkRF
- 9.1626 Three Group Solutions (CK Hutchison)
- 9.1627 Thundercomm
- 9.1628 TI (Texas Instruments)
- 9.1629 TI Square Technology
- 9.1630 Tianjin 712 Communication & Broadcasting
- 9.1631 Tianyi (Sichuan Tianyi Comheart Telecom)
- 9.1632 Tibco Telecoms
- 9.1633 Tidal Wave Technologies (India)
- 9.1634 TietoEVRY
- 9.1635 Tillman Global Holdings
- 9.1636 Tilson
- 9.1637 TIL-TEK Antennae
- 9.1638 TIM (Telecom Italia Mobile)
- 9.1639 Titan ICT (BAI Communications Australia)
- 9.1640 Titan.ium Platform
- 9.1641 TJ Innovation
- 9.1642 TLC Solutions
- 9.1643 TM (Telekom Malaysia)
- 9.1644 T-Mobile US
- 9.1645 TMYTEK (TMY Technology)
- 9.1646 TNS (Transaction Network Services)
- 9.1647 TO21COMMS
- 9.1648 Tofane Global
- 9.1649 TOKIE (Irvees Technology)
- 9.1650 TOMIA
- 9.1651 Tongyu Communication
- 9.1652 ToooAir
- 9.1653 Toshiba Corporation
- 9.1654 Totogi
- 9.1655 TowerJazz
- 9.1656 TPG Telecom
- 9.1657 TPL Systèmes
- 9.1658 TP-Link Technologies
- 9.1659 Transatel (NTT Group)
- 9.1660 TransPacket
- 9.1661 Trasna (U-Blox Cellular Assets)
- 9.1662 Trialink (Russia)
- 9.1663 TriaSys Technologies Corporation
- 9.1664 TRIOPT
- 9.1665 Trópico (CPQD – Center for Research and Development in Telecommunications, Brazil)
- 9.1666 TrueMove H (True Corporation)
- 9.1667 Truphone
- 9.1668 TRX Systems
- 9.1669 TSMC (Taiwan Semiconductor Manufacturing Company)
- 9.1670 Tsofun
- 9.1671 TST Systems (Thorcom Systems/Sonic Communications/Tioga Electronic Assembly)
- 9.1672 T-Systems International
- 9.1673 TTG International
- 9.1674 TTM Technologies
- 9.1675 Tupl
- 9.1676 Türk Telekom
- 9.1677 Turkcell
- 9.1678 TUSUR (Tomsk State University of Control Systems and Radioelectronics)
- 9.1679 TÜV SÜD
- 9.1680 Two Six Labs
- 9.1681 Tyler Technologies
- 9.1682 TYT Electronics
- 9.1683 UANGEL
- 9.1684 UBCS
- 9.1685 Ubicquia
- 9.1686 Ubiik
- 9.1687 UBiqube
- 9.1688 Ubiquoss
- 9.1689 Ubiwhere
- 9.169 Ucloudy (Shanghai Ucloudy Information Technology)
- 9.1691 UCtel
- 9.1692 UfiSpace
- 9.1693 UL
- 9.1694 ULAK Communications
- 9.1695 Ulefone
- 9.1696 Ultraband Technologies
- 9.1697 UMC (United Microelectronics Corporation)
- 9.1698 UMS (United Monolithic Semiconductors)
- 9.1699 UNIMO Technology
- 9.17 UNISOC (Tsinghua Unigroup)
- 9.1701 UniStrong
- 9.1702 UNITAC Technology
- 9.1703 Unitel Group
- 9.1704 UROS
- 9.1705 US Digital Designs
- 9.1706 USI (Universal Scientific Industrial)
- 9.1707 Utility (Utility Associates)
- 9.1708 Utimaco
- 9.1709 UTStarcom
- 9.171 V&M (Venus & Mercury) Telecom
- 9.1711 V5 Systems
- 9.1712 Valid (Brazil)
- 9.1713 Valid8
- 9.1714 Vantage Towers
- 9.1715 Vantiva (Formerly Technicolor)
- 9.1716 Vanu
- 9.1717 Vapor IO
- 9.1718 Vavitel (Shenzhen Vavitel Technology)
- 9.1719 VDI (Virginia Diodes, Inc.)
- 9.172 Vector Data
- 9.1721 Veea
- 9.1722 VEON
- 9.1723 Verana Networks
- 9.1724 Verizon Communications
- 9.1725 Verkotan
- 9.1726 Versa Networks
- 9.1727 Vertel
- 9.1728 Vertical Bridge (DigitalBridge Group)
- 9.1729 Vertiv
- 9.173 Verveba Telecom
- 9.1731 VHT (Viettel High Tech)
- 9.1732 Viasat
- 9.1733 VIAVI Solutions
- 9.1734 VIDA Technologies
- 9.1735 Vigilate
- 9.1736 VinSmart (Vingroup)
- 9.1737 Viper RF
- 9.1738 Viprinet
- 9.1739 ViPRO Corporation
- 9.174 Virtual Access (Westermo Network Technologies)
- 9.1741 VirtuGrp
- 9.1742 Virtusa Corporation
- 9.1743 Vislink Technologies
- 9.1744 Visual Labs
- 9.1745 Vital (New Zealand)
- 9.1746 VITES
- 9.1747 Vivo (BBK Electronics)
- 9.1748 VMware (Broadcom)
- 9.1749 VNL – Vihaan Networks Limited (Shyam Group)
- 9.175 Vodacom Group
- 9.1751 Vodafone Group
- 9.1752 VoerEir
- 9.1753 VoiceAge Corporation
- 9.1754 Voipfuture
- 9.1755 Voxer
- 9.1756 VTT Technical Research Centre of Finland
- 9.1757 Vubiq Networks
- 9.1758 VVDN Technologies
- 9.1759 WAV4M
- 9.176 WAVE (AGC)
- 9.1761 Wave1
- 9.1762 Wave-In Communication
- 9.1763 Wavelabs
- 9.1764 Wavesight
- 9.1765 Wavetel Technology
- 9.1766 Waycare
- 9.1767 WCCTV (Wireless CCTV)
- 9.1768 WDNA (Wireless DNA)
- 9.1769 Weaccess Group
- 9.177 Weaver Labs
- 9.1771 Weavix
- 9.1772 Welotec
- 9.1773 Westcan ACS (Advanced Communications Solutions)
- 9.1774 Westell Technologies
- 9.1775 Wevercomm
- 9.1776 Wewins (Shenzhen Wewins Wireless)
- 9.1777 wgtwo – Working Group Two (Cisco Systems)
- 9.1778 WH Bence Group
- 9.1779 Whale Cloud Technology (Alibaba Group)
- 9.178 Whizz Systems
- 9.1781 Widelity
- 9.1782 WiFrost
- 9.1783 WIG (Wireless Infrastructure Group)
- 9.1784 Wildox (Shenzhen Happy Technology)
- 9.1785 Wilson Connectivity
- 9.1786 Wilus
- 9.1787 WIM Technologies
- 9.1788 WIN Connectivity (Wireless Information Networks)
- 9.1789 Wind River Systems
- 9.179 Wind Tre
- 9.1791 Wingtech Technology
- 9.1792 WINITECH
- 9.1793 Winmate Communications
- 9.1794 Winncom Technologies
- 9.1795 Wipro
- 9.1796 Wireless Logic Group
- 9.1797 Wireless Technologies Finland
- 9.1798 Wireless Telecom Group
- 9.1799 WiSig Networks
- 9.18 Wistron Corporation
- 9.1801 Wiwynn (Wistron Corporation)
- 9.1802 WM Systems
- 9.1803 WMS (Wireless Maritime Services)
- 9.1804 WNC (Wistron NeWeb Corporation)
- 9.1805 Wolfspeed
- 9.1806 WooriNet
- 9.1807 Workz
- 9.1808 World View
- 9.1809 WorldCell Solutions
- 9.1810 Wouxun (Quanzhou Wouxun Electronics)
- 9.1811 WTL (World Telecom Labs)
- 9.1812 WTW Electronic
- 9.1813 WWT (World Wide Technology)
- 9.1814 Wytec
- 9.1815 X2nSat
- 9.1816 Xantaro
- 9.1817 XAVi Technologies Corporation (Chicony Electronics)
- 9.1818 Xelera Technologies
- 9.1819 Xena Networks
- 9.182 XGN (XGen Network)
- 9.1821 Xiamen Puxing Electronics Science & Technology
- 9.1822 Xiamen Sanan Integrated Circuit
- 9.1823 Xiaomi
- 9.1824 Xingtera
- 9.1825 Xinwei Group
- 9.1826 XINYI Information Technology
- 9.1827 XipLink
- 9.1828 XIUS
- 9.1829 YADRO (ICS Holding)
- 9.183 YAGEO Corporation
- 9.1831 Yahsat (Al Yah Satellite Communications)/Thuraya
- 9.1832 YaleBTS
- 9.1833 Yanton (Quanzhou Yanton Electronics)
- 9.1834 YOFC (Yangtze Optical Fibre and Cable)
- 9.1835 Yuge Technology (Shanghai Yuge Information Technology)
- 9.1836 Yunzhi Ruantong (Beijing Yunzhi Ruantong Information Technology)
- 9.1837 Zain Group
- 9.1838 ZaiNar
- 9.1839 Zaram Technology
- 9.184 Zayo Group (DigitalBridge Group)
- 9.1841 Z-Com
- 9.1842 Zealync
- 9.1843 Zebra Technologies
- 9.1844 Zeetta Networks
- 9.1845 Zello
- 9.1846 Zengyi Technology
- 9.1847 Zepcam
- 9.1848 ZeroEyes
- 9.1849 Zetron (Codan)
- 9.185 Zhengkai Electronics (Jiangsu Zhengkai Electronics Technology)
- 9.1851 Zhone Technologies (Formerly DZS)
- 9.1852 ZILLNK
- 9.1853 Zinkworks
- 9.1854 Zioncom
- 9.1855 Zmtel (Shanghai Zhongmi Communication Technology)
- 9.1856 ZT Systems
- 9.1857 ZTE
- 9.1858 zTouch Networks
- 9.1859 Zyxel (Unizyx Holding Corporation)
- 10 Chapter 10: Market Sizing & Forecasts
- 10.1 Global Outlook for Public Safety LTE & 5G
- 10.2 Public Safety LTE & 5G Network Infrastructure
- 10.2.1 Segmentation by Submarket
- 10.2.1.1 RAN
- 10.2.1.2 Mobile Core
- 10.2.1.3 Backhaul & Transport
- 10.2.2 Segmentation by Technology Generation
- 10.2.2.1 LTE
- 10.2.2.2 5G
- 10.2.3 Segmentation by Mobility
- 10.2.3.1 Fixed Base Stations & Infrastructure
- 10.2.3.2 Deployable Network Assets
- 10.2.4 Segmentation by Deployable Network Asset Form Factor
- 10.2.4.1 NIB (Network-in-a-Box)
- 10.2.4.2 Vehicular COWs (Cells-on-Wheels)
- 10.2.4.3 Aerial Cell Sites
- 10.2.4.4 Maritime Platforms
- 10.3 RAN
- 10.3.1 Segmentation by Air Interface Technology Generation
- 10.3.1.1 LTE eNBs
- 10.3.1.2 5G NR gNBs
- 10.3.2 Segmentation by Cell Size
- 10.3.2.1 Macrocells
- 10.3.2.2 Small Cells
- 10.4 Mobile Core
- 10.4.1 Segmentation by Technology Generation
- 10.4.1.1 LTE EPC
- 10.4.1.2 5GC
- 10.5 Backhaul & Transport
- 10.5.1 Segmentation by RAN Air Interface Generation
- 10.5.1.1 LTE
- 10.5.1.2 5G NR
- 10.5.2 Segmentation by Transmission Medium
- 10.5.2.1 Fiber & Wireline
- 10.5.2.2 Microwave
- 10.5.2.3 Satellite
- 10.6 Public Safety LTE & 5G Terminal Equipment
- 10.6.1 Segmentation by Air Interface Technology Generation
- 10.6.1.1 LTE
- 10.6.1.2 5G NR
- 10.6.2 Segmentation by Form Factor
- 10.6.2.1 Smartphones & Handportable Terminals
- 10.6.2.2 Mobile & Vehicular Routers
- 10.6.2.3 Fixed CPEs
- 10.6.2.4 Tablets & Notebook PCs
- 10.6.2.5 IoT Modules, Dongles & Others
- 10.7 Public Safety LTE & 5G Subscriptions/Service Revenue
- 10.7.1 Segmentation by Air Interface Technology Generation
- 10.7.1.1 LTE
- 10.7.1.2 5G NR
- 10.7.2 Segmentation by Network Type
- 10.7.2.1 Dedicated & Hybrid Government-Commercial Networks
- 10.7.2.2 Secure MVNO & MOCN Networks
- 10.7.2.3 Sliced & Commercial Mobile Networks
- 10.8 Public Safety LTE & 5G Systems Integration/Management Solutions
- 10.8.1 Segmentation by Submarket
- 10.8.1.1 Network Integration & Testing
- 10.8.1.2 Device Management & User Services
- 10.8.1.3 Managed Services, Operations & Maintenance
- 10.8.1.4 Cybersecurity
- 10.9 Public Safety Broadband Applications
- 10.9.1 Segmentation by Submarket
- 10.9.1.1 Mission-Critical Voice & Group Communications
- 10.9.1.2 Real-Time Video Transmission
- 10.9.1.3 Messaging, File Transfer & Presence Services
- 10.9.1.4 Mobile Office & Field Applications
- 10.9.1.5 Location Services & Mapping
- 10.9.1.6 Situational Awareness
- 10.9.1.7 Command & Control
- 10.9.1.8 AR/VR/MR (Augmented, Virtual & Mixed Reality)
- 10.10 Regional Outlook
- 10.10.1 Public Safety LTE & 5G Network Infrastructure
- 10.10.1.1 RAN
- 10.10.1.2 Mobile Core
- 10.10.1.3 Backhaul & Transport
- 10.10.2 Public Safety LTE & 5G Terminal Equipment
- 10.10.3 Public Safety LTE & 5G Subscriptions/Service Revenue
- 10.10.4 Public Safety LTE & 5G Systems Integration/Management Solutions
- 10.10.5 Public Safety Broadband Applications
- 10.11 North America
- 10.11.1 Public Safety LTE & 5G Network Infrastructure
- 10.11.1.1 RAN
- 10.11.1.2 Mobile Core
- 10.11.1.3 Backhaul & Transport
- 10.11.2 Public Safety LTE & 5G Terminal Equipment
- 10.11.3 Public Safety LTE & 5G Subscriptions/Service Revenue
- 10.11.4 Public Safety LTE & 5G Systems Integration/Management Solutions
- 10.11.5 Public Safety Broadband Applications
- 10.12 Asia Pacific
- 10.12.1 Public Safety LTE & 5G Network Infrastructure
- 10.12.1.1 RAN
- 10.12.1.2 Mobile Core
- 10.12.1.3 Backhaul & Transport
- 10.12.2 Public Safety LTE & 5G Terminal Equipment
- 10.12.3 Public Safety LTE & 5G Subscriptions/Service Revenue
- 10.12.4 Public Safety LTE & 5G Systems Integration/Management Solutions
- 10.12.5 Public Safety Broadband Applications
- 10.13 Europe
- 10.13.1 Public Safety LTE & 5G Network Infrastructure
- 10.13.1.1 RAN
- 10.13.1.2 Mobile Core
- 10.13.1.3 Backhaul & Transport
- 10.13.2 Public Safety LTE & 5G Terminal Equipment
- 10.13.3 Public Safety LTE & 5G Subscriptions/Service Revenue
- 10.13.4 Public Safety LTE & 5G Systems Integration/Management Solutions
- 10.13.5 Public Safety Broadband Applications
- 10.14 Middle East & Africa
- 10.14.1 Public Safety LTE & 5G Network Infrastructure
- 10.14.1.1 RAN
- 10.14.1.2 Mobile Core
- 10.14.1.3 Backhaul & Transport
- 10.14.2 Public Safety LTE & 5G Terminal Equipment
- 10.14.3 Public Safety LTE & 5G Subscriptions/Service Revenue
- 10.14.4 Public Safety LTE & 5G Systems Integration/Management Solutions
- 10.14.5 Public Safety Broadband Applications
- 10.15 Latin & Central America
- 10.15.1 Public Safety LTE & 5G Network Infrastructure
- 10.15.1.1 RAN
- 10.15.1.2 Mobile Core
- 10.15.1.3 Backhaul & Transport
- 10.15.2 Public Safety LTE & 5G Terminal Equipment
- 10.15.3 Public Safety LTE & 5G Subscriptions/Service Revenue
- 10.15.4 Public Safety LTE & 5G Systems Integration/Management Solutions
- 10.15.5 Public Safety Broadband Applications
- 11 Chapter 11: Conclusion & Strategic Recommendations
- 11.1 Why is the Market Poised to Grow?
- 11.2 Future Roadmap: 2025 – 2030
- 11.2.1 2025 – 2027: Focus on 3GPP-Compliant MCX Service Enablement & Functional Expansion
- 11.2.2 2028 – 2030: Growing Adoption of Standalone 5G Networks for Public Safety Communications
- 11.2.3 2031 & Beyond: 5G NR Sidelink Availability & Accelerated Transitions From Digital LMR Systems
- 11.3 Vendor Landscape, Alliances & Consolidation
- 11.3.1 LTE/5G Network Infrastructure & Device Suppliers
- 11.3.2 MCX & Broadband-Enabled Application Developers
- 11.3.3 Cross-Segment Partnerships for Mission-Critical Solutions
- 11.3.4 Consolidation in the Wider Critical Communications Industry
- 11.4 Standardization & Commercial Availability of Key Enabling Technologies
- 11.4.1 MCX: MCPTT, MCVideo & MCData Services
- 11.4.2 LMR-3GPP MCX Interworking Solutions
- 11.4.3 Support for PPDR Spectrum
- 11.4.4 HPUE
- 11.4.5 IOPS & MCIOPS
- 11.4.6 eMBMS & 5G MBS/5MBS
- 11.4.7 ProSe & 5G NR Sidelink
- 11.4.8 VMRs & MWAB
- 11.4.9 Satellite NTN Integration
- 11.4.10 Other Technologies
- 11.5 Review of National Public Safety Broadband Programs
- 11.5.1 New National-Scale Projects
- 11.5.2 Operational Nationwide Networks
- 11.5.3 Pre-Operational Initiatives
- 11.5.4 Diversity of Network Delivery Models
- 11.6 In-Building Coverage, Private 5G, Slicing & Network Extensions
- 11.6.1 In-Building Coverage Enhancement
- 11.6.2 Independent Small-to-Medium Scale Private 5G Networks
- 11.6.3 Deployables for Incident Command & Disaster Relief Operations
- 11.6.4 Network Slicing Over Standalone 5G Cores
- 11.6.5 National Roaming & Multi-Operator Redundancy
- 11.6.6 International Roaming for Cross-Border Policing & Emergency Response
- 11.7 Spectrum Options for Current & Future Use Cases
- 11.7.1 Private RAN Infrastructure Frequency Bands
- 11.7.2 Dedicated Spectrum for Future 5G Applications
- 11.7.3 Public Safety Use of 5G NR Bands n79 & n114 (4.9 GHz)
- 11.7.4 Shared & Local Area Licensed Spectrum
- 11.8 Ensuring the Economic Viability of Nationwide Public Safety Broadband Networks
- 11.8.1 TCO Comparison: Independent Networks vs. PPPs (Public-Private Partnerships)
- 11.8.2 Monetizing Unused Network Capacity Through Secondary Commercial Users
- 11.8.3 Industry Solutions for Other Critical Communications User Groups
- 11.8.4 Dynamic Spectrum Sharing With Tiered Priority Access
- 11.9 Migration From LMR Systems to Mission-Critical Broadband Networks
- 11.9.1 South Korea: Pioneering MCX Service Adoption on a National Scale
- 11.9.2 Developing Countries: Leapfrogging Directly to 3GPP-Based Critical Communications Networks
- 11.9.3 Europe: Varied Transition Timelines From Nationwide TETRA & Tetrapol Systems
- 11.9.4 United States, Australia & New Zealand: Prolonged P25 & Broadband Coexistence
- 11.10 Interim Solutions for Off-Network Communications
- 11.10.1 RSM (Remote Speaker Microphone) Companion Devices
- 11.10.2 Hybrid LMR-Broadband Terminals With Direct Mode Functionality
- 11.10.3 Tactical IP Radios & Other Solutions
- 11.11 Public Safety Application Sector Trends in the 5G Era
- 11.11.1 Mission-Critical Group Communications
- 11.11.2 NG911 Coordination for Rich Data Exchange
- 11.11.3 Fixed, Mobile & Aerial Video Surveillance
- 11.11.4 Data-Intensive Field Applications for First Responders
- 11.11.5 IoLST (Internet of Life Saving Things): Gunshot Detection, Fire Alarms & Other Sensors
- 11.11.6 Situational Awareness & Common Operating Picture
- 11.11.7 AI-Enabled Video Analytics & Safety Management Platforms
- 11.11.8 5G-Era Applications: UHD Video, AR/VR/MR, Drones & Robotics
- 11.11.9 Public Safety Application Stores & Developer Programs
- 11.11.10 5G Labs & Testbeds for First Responder Communications
- 11.12 Strategic Recommendations
- 11.12.1 Public Safety & Government Agencies
- 11.12.2 LTE/5G Infrastructure, Device & Chipset Suppliers
- 11.12.3 LMR Vendors & System Integrators
- 11.12.4 Mobile Operators & Critical Communications Service Providers
- List of Figures
- Figure 1: Global LMR Subscriptions by Technology: 2025 – 2030 (Millions)
- Figure 2: Global Analog LMR Subscriptions: 2025 – 2030 (Millions)
- Figure 3: Global DMR Subscriptions: 2025 – 2030 (Millions)
- Figure 4: Global dPMR, NXDN & PDT Subscriptions: 2025 – 2030 (Millions)
- Figure 5: Global P25 Subscriptions: 2025 – 2030 (Millions)
- Figure 6: Global TETRA Subscriptions: 2025 – 2030 (Millions)
- Figure 7: Global Tetrapol Subscriptions: 2025 – 2030 (Millions)
- Figure 8: Global Other LMR Technology Subscriptions: 2025 – 2030 (Millions)
- Figure 9: Minimum Performance Requirements for 5G Systems
- Figure 10: Independent Private LTE/5G Network Model
- Figure 11: Managed Private LTE/5G Network Model
- Figure 12: Shared Core Network Model
- Figure 13: Hybrid Government-Commercial Network Model
- Figure 14: Secure MVNO & MOCN Network Model
- Figure 15: Public Safety Access Over Commercial Broadband Networks
- Figure 16: Sliced 5G Network for Public Safety Communications
- Figure 17: Public Safety LTE & 5G Value Chain
- Figure 18: Public Safety LTE & 5G Network Architecture
- Figure 19: 5G NG-RAN Architecture
- Figure 20: Fronthaul, Midhaul & Backhaul Transport Network Segments
- Figure 21: 5GC Architecture
- Figure 22: Sidelink Air Interface for Off-Network Communications
- Figure 23: Transition From Normal Backhaul Connectivity to IOPS
- Figure 24: Public Safety-Related Application Scenarios of Rapidly Deployable LTE/5G Networks
- Figure 25: 5G NR Access Over Satellite-Based NTN System Architecture
- Figure 26: E2E Security in Public Safety LTE & 5G Networks
- Figure 27: FirstNet Deployment Timeline
- Figure 28: FirstNet CRD
- Figure 29: New Zealand’s PSN Deployment Timeline
- Figure 30: Hong Kong’s 5G-Based NGCS Deployment Timeline
- Figure 31: Japan's National PSMS/PS-LTE Service Deployment Timeline
- Figure 32: South Korea’s Safe-Net Deployment Timeline
- Figure 33: Royal Thai Police's LTE Network Depment Timeline
- Figure 34: Deployable LTE Platform & Terminals for the Tham Luang Cave Rescue
- Figure 35: Great Britain's ESN Deployment Timeline
- Figure 36: France's RRF Deployment Timeline
- Figure 37: Germany's BOS Broadband Network Deployment Timeline
- Figure 38: BDBOS Broadband Trial Setup
- Figure 39: Belgium’s NextGenCom Deployment Timeline
- Figure 40: Spain's SIRDEE Mission-Critical Broadband Network Deployment Timeline
- Figure 41: SIRDEE Broadband Service Portfolio
- Figure 42: Sweden's SWEN Deployment Timeline
- Figure 43: Finland's VIRVE 2 Deployment Timeline
- Figure 44: Hungary's EDR 2.0/3.0 Deployment Timeline
- Figure 45: Romania's Two-Stage Plan for PPDR Broadband Network Implementation
- Figure 46: Saudi Arabia’s Mission-Critical Broadband Network Deployment Timeline
- Figure 47: Man-Portable 4G/5G Base Station for the California National Guard
- Figure 48: Faroe Islands' MCX System Architecture
- Figure 49: PIA's (PSBN Innovation Alliance) Proposed Network-of-Networks Approach
- Figure 50: Lishui's 5G-Enabled Integrated Emergency Visualization & Natural Disaster Management System
- Figure 51: PrioCom's Critical Communications MVNO Solution
- Figure 52: User Segments & Applications of the RESCAN LTE Network
- Figure 53: Key Architectural Elements of the Rivas Vaciamadrid Smart eLTE Network
- Figure 54: Shanghai Police Convergent Command Center
- Figure 55: TWFRS' (Tyne and Wear Fire and Rescue Service) LTE-Equipped Command & Control Vehicle
- Figure 56: Standardization of Public Safety Features in 3GPP Releases 11 – 19
- Figure 57: ETSI's Critical Communications System Reference Model
- Figure 58: SpiceNet (Standardized PPDR Interoperable Communication Service for Europe) Reference Architecture
- Figure 59: Global Public Safety LTE & 5G Network Infrastructure Revenue: 2025 – 2030 ($ Million)
- Figure 60: Global Public Safety LTE & 5G Network Infrastructure Revenue by Submarket: 2025 – 2030 ($ Million)
- Figure 61: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2025 – 2030
- Figure 62: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 63: Global Public Safety LTE & 5G Mobile Core Revenue: 2025 – 2030 ($ Million)
- Figure 64: Global Public Safety LTE & 5G Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 65: Global Public Safety LTE & 5G Network Infrastructure Revenue by Technology Generation: 2025 – 2030 ($ Million)
- Figure 66: Global Public Safety LTE Network Infrastructure Revenue: 2025 – 2030 ($ Million)
- Figure 67: Global Public Safety 5G Network Infrastructure Revenue: 2025 – 2030 ($ Million)
- Figure 68: Global Public Safety LTE & 5G Network Infrastructure Unit Shipments by Mobility: 2025 – 2030
- Figure 69: Global Public Safety LTE & 5G Network Infrastructure Unit Shipment Revenue by Mobility: 2025 – 2030 ($ Million)
- Figure 70: Global Fixed Public Safety LTE/5G Base Station & Infrastructure Unit Shipments: 2025 – 2030
- Figure 71: Global Fixed Public Safety LTE/5G Base Station & Infrastructure Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 72: Global Deployable Public Safety LTE & 5G Network Asset Unit Shipments: 2025 – 2030
- Figure 73: Global Deployable Public Safety LTE & 5G Network Asset Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 74: Global Deployable Public Safety LTE & 5G Network Asset Unit Shipments by Form Factor: 2025 – 2030
- Figure 75: Global Deployable Public Safety LTE & 5G Network Asset Unit Shipment Revenue by Form Factor: 2025 – 2030 ($ Million)
- Figure 76: Global Public Safety LTE & 5G NIB (Network-in-a-Box) Unit Shipments: 2025 – 2030
- Figure 77: Global Public Safety LTE & 5G NIB (Network-in-a-Box) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 78: Global Public Safety LTE & 5G Vehicular COW (Cell-on-Wheels) Unit Shipments: 2025 – 2030
- Figure 79: Global Public Safety LTE & 5G Vehicular COW (Cell-on-Wheels) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 80: Global Public Safety LTE & 5G Aerial Cell Site Unit Shipments: 2025 – 2030
- Figure 81: Global Public Safety LTE & 5G Aerial Cell Site Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 82: Global Public Safety LTE & 5G Maritime Cellular Platform Unit Shipments: 2025 – 2030
- Figure 83: Global Public Safety LTE & 5G Maritime Cellular Platform Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 84: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments by Air Interface Technology Generation: 2025 – 2030
- Figure 85: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue by Air Interface Technology Generation: 2025 – 2030 ($ Million)
- Figure 86: Global Public Safety LTE Base Station (eNB) Unit Shipments: 2025 – 2030
- Figure 87: Global Public Safety LTE Base Station (eNB) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 88: Global Public Safety 5G NR Base Station (gNB) Unit Shipments: 2025 – 2030
- Figure 89: Global Public Safety 5G NR Base Station (gNB) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 90: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments by Cell Size: 2025 – 2030
- Figure 91: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue by Cell Size: 2025 – 2030 ($ Million)
- Figure 92: Global Public Safety LTE & 5G Macrocell Base Station (eNB/gNB) Unit Shipments: 2025 – 2030
- Figure 93: Global Public Safety LTE & 5G Macrocell Base Station (eNB/gNB) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 94: Global Public Safety LTE & 5G Small Cell Base Station (eNB/gNB) Unit Shipments: 2025 – 2030
- Figure 95: Global Public Safety LTE & 5G Small Cell Base Station (eNB/gNB) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 96: Global Public Safety LTE & 5G Mobile Core Revenue by Technology Generation: 2025 – 2030 ($ Million)
- Figure 97: Global Public Safety LTE EPC Revenue: 2025 – 2030 ($ Million)
- Figure 98: Global Public Safety 5GC Revenue: 2025 – 2030 ($ Million)
- Figure 99: Global Public Safety LTE & 5G Backhaul & Transport Revenue by Air Interface Technology Generation: 2025 – 2030
- Figure 100: Global Public Safety LTE Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 101: Global Public Safety 5G NR Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 102: Global Public Safety LTE & 5G Backhaul & Transport Revenue by Transmission Medium: 2025 – 2030 ($ Million)
- Figure 103: Global Public Safety LTE & 5G Fiber/Wireline-Based Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 104: Global Public Safety LTE & 5G Microwave-Based Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 105: Global Public Safety LTE & 5G Satellite-Based Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 106: Global Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 107: Global Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 108: Global Public Safety LTE & 5G Terminal Equipment Unit Shipments by Air Interface Technology Generation: 2025 – 2030 (Thousands of Units)
- Figure 109: Global Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue by Air Interface Technology Generation: 2025 – 2030 ($ Million)
- Figure 110: Global Public Safety LTE Terminal Equipment Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 111: Global Public Safety LTE Terminal Equipment Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 112: Global Public Safety 5G NR Terminal Equipment Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 113: Global Public Safety 5G NR Terminal Equipment Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 114: Global Public Safety LTE & 5G Terminal Equipment Unit Shipments by Form Factor: 2025 – 2030 (Thousands of Units)
- Figure 115: Global Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue by Form Factor: 2025 – 2030 ($ Million)
- Figure 116: Global Public Safety LTE & 5G Smartphone/Handportable Terminal Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 117: Global Public Safety LTE & 5G Smartphone/Handportable Terminal Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 118: Global Public Safety LTE& 5G Mobile/Vehicular Router Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 119: Global Public Safety LTE & 5G Mobile/Vehicular Router Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 120: Global Public Safety LTE & 5G Fixed CPE Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 121: Global Public Safety LTE & 5G Fixed CPE Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 122: Global Public Safety LTE & 5G Tablet/Notebook PC Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 123: Global Public Safety LTE & 5G Tablet/Notebook PC Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 124: Global Public Safety LTE & 5G IoT Module, Dongle & Other Device Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 125: Global Public Safety LTE & 5G IoT Module, Dongle & Other Device Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 126: Global Public Safety LTE & 5G Subscriptions: 2025 – 2030 (Millions)
- Figure 127: Global Public Safety LTE & 5G Service Revenue: 2025 – 2030 ($ Million)
- Figure 128: Global Public Safety LTE & 5G Subscriptions by Air Interface Technology Generation: 2025 – 2030 (Millions)
- Figure 129: Global Public Safety LTE & 5G Service Revenue by Air Interface Technology Generation: 2025 – 2030 ($ Million)
- Figure 130: Global Public Safety LTE Subscriptions: 2025 – 2030 (Millions)
- Figure 131: Global Public Safety LTE Service Revenue: 2025 – 2030 ($ Million)
- Figure 132: Global Public Safety 5G NR Subscriptions: 2025 – 2030 (Millions)
- Figure 133: Global Public Safety 5G NR Service Revenue: 2025 – 2030 ($ Million)
- Figure 134: Global Public Safety LTE & 5G Subscriptions by Network Type: 2025 – 2030 (Millions)
- Figure 135: Global Public Safety LTE & 5G Service Revenue by Network Type: 2025 – 2030 ($ Million)
- Figure 136: Global Public Safety LTE & 5G Subscriptions Over Dedicated & Hybrid Government-Commercial Networks: 2025 – 2030 (Millions)
- Figure 137: Global Public Safety LTE & 5G Service Revenue Over Dedicated & Hybrid Government-Commercial Networks: 2025 – 2030 ($ Million)
- Figure 138: Global Public Safety LTE & 5G Subscriptions Over Secure MVNO & MOCN Networks: 2025 – 2030 (Millions)
- Figure 139: Global Public Safety LTE & 5G Service Revenue Over Secure MVNO & MOCN Networks: 2025 – 2030 ($ Million)
- Figure 140: Global Public Safety LTE & 5G Subscriptions Over Sliced & Commercial Mobile Networks: 2025 – 2030 (Millions)
- Figure 141: Global Public Safety LTE & 5G Service Revenue Over Sliced & Commercial Mobile Networks: 2025 – 2030 ($ Million)
- Figure 142: Global Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2025 – 2030 ($ Million)
- Figure 143: Global Public Safety LTE & 5G Systems Integration & Management Solutions Revenue by Submarket: 2025 – 2030 ($ Million)
- Figure 144: Global Public Safety LTE & 5G Network Integration & Testing Revenue: 2025 – 2030 ($ Million)
- Figure 145: Global Public Safety LTE & 5G Device Management & User Services Revenue: 2025 – 2030 ($ Million)
- Figure 146: Global Public Safety LTE & 5G Managed Services, Operations & Maintenance Revenue: 2025 – 2030 ($ Million)
- Figure 147: Global Public Safety LTE & 5G Cybersecurity Revenue: 2025 – 2030 ($ Million)
- Figure 148: Global Public Safety Broadband Applications Revenue: 2025 – 2030 ($ Million)
- Figure 149: Global Public Safety Broadband Applications Revenue by Submarket: 2025 – 2030 ($ Million)
- Figure 150: Global Mission-Critical Voice & Group Communications Revenue for Public Safety Broadband: 2025 – 2030 ($ Million)
- Figure 151: Global Real-Time Video Transmission Revenue for Public Safety Broadband: 2025 – 2030 ($ Million)
- Figure 152: Global Messaging, File Transfer & Presence Services Revenue for Public Safety Broadband: 2025 – 2030 ($ Million)
- Figure 153: Global Mobile Office & Field Applications Revenue for Public Safety Broadband: 2025 – 2030 ($ Million)
- Figure 154: Global Location Services & Mapping Revenue for Public Safety Broadband: 2025 – 2030 ($ Million)
- Figure 155: Global Situational Awareness Applications Revenue for Public Safety Broadband: 2025 – 2030 ($ Million)
- Figure 156: Global Command & Control Applications Revenue for Public Safety Broadband: 2025 – 2030 ($ Million)
- Figure 157: Global AR/VR/MR (Augmented, Virtual & Mixed Reality) Revenue for Public Safety Broadband: 2025 – 2030 ($ Million)
- Figure 158: Public Safety LTE & 5G Network Infrastructure Revenue by Region: 2025 – 2030 ($ Million)
- Figure 159: Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments by Region: 2025 – 2030
- Figure 160: Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue by Region: 2025 – 2030 ($ Million)
- Figure 161: Public Safety LTE & 5G Mobile Core Revenue by Region: 2025 – 2030 ($ Million)
- Figure 162: Public Safety LTE & 5G Backhaul & Transport Revenue by Region: 2025 – 2030 ($ Million)
- Figure 163: Public Safety LTE & 5G Terminal Equipment Unit Shipments by Region: 2025 – 2030 (Thousands of Units)
- Figure 164: Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue by Region: 2025 – 2030 ($ Million)
- Figure 165: Public Safety LTE & 5G Subscriptions by Region: 2025 – 2030 (Millions)
- Figure 166: Public Safety LTE & 5G Service Revenue by Region: 2025 – 2030 ($ Million)
- Figure 167: Public Safety LTE & 5G Systems Integration & Management Solutions Revenue by Region: 2025 – 2030 ($ Million)
- Figure 168: Public Safety Broadband Applications Revenue by Region: 2025 – 2030 ($ Million)
- Figure 169: North America Public Safety LTE & 5G Network Infrastructure Revenue: 2025 – 2030 ($ Million)
- Figure 170: North America Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2025 – 2030
- Figure 171: North America Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 172: North America Public Safety LTE & 5G Mobile Core Revenue: 2025 – 2030 ($ Million)
- Figure 173: North America Public Safety LTE & 5G Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 174: North America Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 175: North America Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 176: North America Public Safety LTE & 5G Subscriptions: 2025 – 2030 (Millions)
- Figure 177: North America Public Safety LTE & 5G Service Revenue: 2025 – 2030 ($ Million)
- Figure 178: North America Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2025 – 2030 ($ Million)
- Figure 179: North America Public Safety Broadband Applications Revenue: 2025 – 2030 ($ Million)
- Figure 180: Asia Pacific Public Safety LTE & 5G Network Infrastructure Revenue: 2025 – 2030 ($ Million)
- Figure 181: Asia Pacific Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2025 – 2030
- Figure 182: Asia Pacific Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 183: Asia Pacific Public Safety LTE & 5G Mobile Core Revenue: 2025 – 2030 ($ Million)
- Figure 184: Asia Pacific Public Safety LTE & 5G Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 185: Asia Pacific Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 186: Asia Pacific Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 187: Asia Pacific Public Safety LTE & 5G Subscriptions: 2025 – 2030 (Millions)
- Figure 188: Asia Pacific Public Safety LTE & 5G Service Revenue: 2025 – 2030 ($ Million)
- Figure 189: Asia Pacific Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2025 – 2030 ($ Million)
- Figure 190: Asia Pacific Public Safety Broadband Applications Revenue: 2025 – 2030 ($ Million)
- Figure 191: Europe Public Safety LTE & 5G Network Infrastructure Revenue: 2025 – 2030 ($ Million)
- Figure 192: Europe Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2025 – 2030
- Figure 193: Europe Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 194: Europe Public Safety LTE & 5G Mobile Core Revenue: 2025 – 2030 ($ Million)
- Figure 195: Europe Public Safety LTE & 5G Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 196: Europe Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 197: Europe Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 198: Europe Public Safety LTE & 5G Subscriptions: 2025 – 2030 (Millions)
- Figure 199: Europe Public Safety LTE & 5G Service Revenue: 2025 – 2030 ($ Million)
- Figure 200: Europe Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2025 – 2030 ($ Million)
- Figure 201: Europe Public Safety Broadband Applications Revenue: 2025 – 2030 ($ Million)
- Figure 202: Middle East & Africa Public Safety LTE & 5G Network Infrastructure Revenue: 2025 – 2030 ($ Million)
- Figure 203: Middle East & Africa Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2025 – 2030
- Figure 204: Middle East & Africa Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 205: Middle East & Africa Public Safety LTE & 5G Mobile Core Revenue: 2025 – 2030 ($ Million)
- Figure 206: Middle East & Africa Public Safety LTE & 5G Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 207: Middle East & Africa Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 208: Middle East & Africa Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 209: Middle East & Africa Public Safety LTE & 5G Subscriptions: 2025 – 2030 (Millions)
- Figure 210: Middle East & Africa Public Safety LTE & 5G Service Revenue: 2025 – 2030 ($ Million)
- Figure 211: Middle East & Africa Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2025 – 2030 ($ Million)
- Figure 212: Middle East & Africa Public Safety Broadband Applications Revenue: 2025 – 2030 ($ Million)
- Figure 213: Latin & Central America Public Safety LTE & 5G Network Infrastructure Revenue: 2025 – 2030 ($ Million)
- Figure 214: Latin & Central America Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2025 – 2030
- Figure 215: Latin & Central America Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 216: Latin & Central America Public Safety LTE & 5G Mobile Core Revenue: 2025 – 2030 ($ Million)
- Figure 217: Latin & Central America Public Safety LTE & 5G Backhaul & Transport Revenue: 2025 – 2030 ($ Million)
- Figure 218: Latin & Central America Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2025 – 2030 (Thousands of Units)
- Figure 219: Latin & Central America Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2025 – 2030 ($ Million)
- Figure 220: Latin & Central America Public Safety LTE & 5G Subscriptions: 2025 – 2030 (Millions)
- Figure 221: Latin & Central America Public Safety LTE & 5G Service Revenue: 2025 – 2030 ($ Million)
- Figure 222: Latin & Central America Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2025 – 2030 ($ Million)
- Figure 223: Latin & Central America Public Safety Broadband Applications Revenue: 2025 – 2030 ($ Million)
- Figure 224: Future Roadmap for Public Safety LTE & 5G: 2025 – 2030
- Figure 225: Global Public Safety LTE & 5G Subscriptions by Delivery Model: 2025 – 2028 (Millions)
- Figure 226: Distribution of Public Safety LTE & 5G Infrastructure Investments by Frequency Band: Q1 2026 (%)
- Figure 227: TCO Comparison Between Fully Independent LTE/5G Networks & PPPs (Public-Private Partnerships)
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