The Public Safety LTE & 5G Market: 2020 – 2030 – Opportunities, Challenges, Strategies & Forecasts

Name: The Public Safety LTE & 5G Market: 2020 – 2030| CRI Report
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Complemented by a rapidly expanding ecosystem of public safety-grade LTE/5G devices, the market will further grow at a CAGR of approximately 10% between 2020 and 2023

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The “Public Safety LTE & 5G Market : 2020 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents an in-depth assessment of the public safety LTE/5G market including market drivers, challenges, enabling technologies, application scenarios, use cases, operational models, key trends, standardization, spectrum availability/allocation, regulatory landscape, case studies, opportunities, future roadmap, value chain, ecosystem player profiles and strategies. The report also presents global and regional market size forecasts from 2020 till 2030, covering public safety LTE/5G infrastructure, terminal equipment, applications, systems integration and management solutions, as well as subscriptions and service revenue.

Public Safety LTE & 5G Market

With the standardization of MCX (Mission-Critical PTT, Video & Data), IOPS (Isolated Operation for Public Safety), HPUE (High-Power User Equipment) and other critical communications features by the 3GPP, LTE and 5G NR (New Radio) networks are increasingly gaining 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.

A myriad of dedicated, hybrid commercial-private and MVNO-based public safety LTE and 5G-ready networks are operational or in the process of being rolled out throughout the globe. In addition to the high-profile FirstNet, South Korea’s Safe-Net and Britain’s ESN nationwide public safety broadband projects, many additional national-level engagements have recently come to light – most notably, the Royal Thai Police’s LTE network which is already operational in the greater Bangkok region, Finland’s VIRVE 2.0 mission-critical mobile broadband service, France’s PCSTORM critical communications broadband project, and Russia’s secure 450 MHz LTE network for police forces, emergency services and the national guard.

Global Private LTE and 5G network Market to Surge at 15.85 % CAGR, which is anticipated to reach USD 13.23 billion by 2030

Other operational and pilot deployments range from nationwide systems in the oil-rich GCC (Gulf Cooperation Council) region to local and city-level private LTE networks for first responders in markets as diverse as Canada, China, Laos, Indonesia, the Philippines, Pakistan, Lebanon, Egypt, Kenya, Ghana, Cote D’Ivoire, Cameroon, Mali, Madagascar, Mauritius, Canary Islands, Spain, Italy, Serbia, Argentina, Brazil, Colombia, Venezuela, Bolivia, Ecuador and Trinidad & Tobago, as well as multi-domain critical communications broadband networks such as Nordic Telecom in the Czech Republic and MRC’s (Mobile Radio Center) LTE-based advanced MCA digital radio system in Japan, and secure MVNO platforms in countries including but not limited to Mexico, Belgium, Switzerland, the Netherlands, Sweden, Slovenia and Estonia.

In addition, even though critical public safety-related 5G NR capabilities are yet to be standardized as part of the 3GPP’s Release 17 specifications, public safety agencies have already begun experimenting with 5G for applications that can benefit from the technology’s high-bandwidth and low-latency characteristics.

For example, New Zealand Police are utilizing mobile operator Vodafone’s 5G NR network to share real-time UHD (Ultra High Definition) video feeds from cellular-equipped drones and police cruisers with officers on the ground and command posts. In the near future, we also expect to see rollouts of localized 5G NR systems for incident scene management and related use cases, potentially using up to 50 MHz of Band n79 spectrum in the 4.9 GHz frequency range (4,940-4,990 MHz) which has been designated for public safety use in multiple countries including but not limited to the United States, Canada, Australia, Malaysia and Qatar.

We estimates that annual investments in public safety LTE/5G-ready infrastructure will surpass $2 Billion by the end of 2020, predominantly driven by new build-outs and the expansion of existing dedicated and hybrid commercial-private networks in a variety of licensed bands across 420/450 MHz, 700 MHz, 800 MHz, 1.4 GHz and higher frequencies, in addition to secure MVNO networks for critical communications. Complemented by a rapidly expanding ecosystem of public safety-grade LTE/5G devices, the market will further grow at a CAGR of approximately 10% between 2020 and 2023, eventually accounting for more than $3 Billion by the end of 2023.

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 500 global public safety LTE/5G engagements – as of Q2’2020.

Topics Covered

The report covers the following topics:
– Public safety LTE and 5G ecosystem
– Market drivers and barriers
– System architecture and key elements of public safety LTE and 5G systems
– Analysis of public safety broadband application scenarios and use cases – ranging from mission-critical group communications and real-time video transmission to 5G era applications centered upon UHD (Ultra High Definition Video), AR/VR/MR (Augmented, Virtual & Mixed Reality), drones and robotics
– Operational models for public safety LTE and 5G networks including commercial, independent, managed, shared core, hybrid commercial-private and secure MVNO networks
– PPPs (Public-Private Partnerships) and other common approaches to financing and delivering dedicated public safety LTE and 5G networks
– MCX (Mission-Critical PTT, Video & Data), IOPS (Isolated Operation for Public Safety), deployable LTE/5G systems, ProSe (Proximity Services) for D2D (Device-to-Device) communications, HPUE (High Power User Equipment), QPP (QoS, Priority & Preemption), network slicing, end-to-end security, high-precision positioning, 3GPP access over satellite/NTN (Non-Terrestrial Networking) platforms and other enabling technologies
– Key trends including hybrid RAN (Radio Access Network) implementations for nationwide public safety broadband networks, local and city-level LTE deployments to support police forces in developing countries, adoption of sub-500 MHz spectrum for mission-critical LTE networks, commercial readiness of 3GPP-compliant MCX functionality, LMR-based interim solutions for off-network communications, secure MVNO solutions with cross-border roaming, mobile operator-branded critical communications broadband platforms, 5G NR connectivity for applications requiring higher data rates and lower latencies, and localized 5G NR networks for incident scene management
– Review of public safety LTE/5G engagements worldwide including a detailed assessment of 10 nationwide public safety broadband projects and additional case studies of over 40 dedicated, hybrid, MVNO and commercial operator-supplied systems
– Spectrum availability, allocation and usage for public safety LTE and 5G networks across the global, regional and national regulatory domains
– Standardization, regulatory and collaborative initiatives
– Future roadmap and value chain
– Profiles and strategies of 1,100 ecosystem players including LTE/5G equipment suppliers and public safety-domain specialists
– Strategic recommendations for public safety and government agencies, LTE/5G infrastructure, device and chipset suppliers, LMR vendors, system integrators, and commercial/private mobile operators
– Market analysis and forecasts from 2020 till 2030

Forecast Segmentation

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

Public Safety LTE & 5G Network Infrastructure
Submarkets
– RAN (Radio Access Network)
– Mobile Core
– Backhaul & Transport

Technology Generations
– LTE
– 5G NR

RAN Base Station (eNB/gNB) Cell Sizes
– Macrocells
– Small Cells

RAN Base Station (eNB/gNB) Mobility Categories
– Fixed Base Stations
– Deployable Base Stations

Deployable RAN Base Station (eNB/gNB) Form Factors
– NIB (Network-in-a-Box)
– Vehicular COWs (Cells-on-Wheels)
– Aerial Cell Sites
– Maritime Platforms

Backhaul & Transport Network Transmission Mediums
– Fiber & Wireline
– Microwave
– Satellite

Public Safety LTE & 5G Terminal Equipment
Technology Generations
– LTE
– 5G NR

Form Factors
– Smartphones & Handportable Terminals
– Mobile & Vehicular Routers
– Fixed CPEs (Customer Premises Equipment)
– Tablets & Notebook PCs
– Smart Wearables
– IoT Modules, Dongles & Others

Public Safety LTE & 5G Subscriptions/Service Revenue
Technology Generations
– LTE
– 5G NR

Network Types
– Dedicated & Hybrid Commercial-Private Networks
– Secure MVNO Networks
– Commercial Mobile Networks

Public Safety LTE & 5G Systems Integration & Management Solutions
Submarkets
– Network Integration & Testing
– Device Management & User Services
– Managed Services, Operations & Maintenance
– Cybersecurity

Public Safety Broadband Applications
Submarkets
– Mission-Critical Voice & Group Communications
– Real-Time Video Transmission
– Messaging, File Transfer & Presence Services
– Mobile Office & Field Applications
– Location Services & Mapping
– Situational Awareness
– Command & Control
– AR/VR/MR (Augmented, Virtual & Mixed Reality)

Regional Markets
– North America
– Asia Pacific
– Europe
– Middle East & Africa
– Latin & Central America

Key Questions Answered

The report provides answers to the following key questions:
– How big is the public safety LTE and 5G opportunity?
– What trends, drivers and barriers are influencing its growth?
– How is the ecosystem evolving by segment and region?
– What will the market size be in 2023, and at what rate will it grow?
– Which regions and submarkets will see the highest percentage of growth?
– What is the status of dedicated, hybrid commercial-private and secure MVNO-based public safety broadband networks worldwide?
– What are the key application scenarios and use cases of LTE and 5G for first responders?
– When will FirstNet, Safe-Net, ESN and other nationwide public safety broadband networks replace existing digital LMR systems?
– What opportunities exist for commercial mobile operators and critical communications service providers?
– What are the future prospects of NIB (Network-in-a-Box), COWs (Cell-on-Wheels), drone-mounted aerial cells and other rapidly deployable LTE and 5G NR systems?
– How does standardization impact the adoption of LTE and 5G for public safety communications?
– When will MCX, IOPS, ProSe, HPUE and other 3GPP-defined critical communications features be widely employed in public safety broadband networks?
– How will network slicing provide dynamic QoS guarantees and isolation for public safety applications in 5G networks?
– What are the existing and candidate frequency bands for the operation of public safety broadband networks?
– How can public safety stakeholders leverage excess spectrum capacity to ensure the economic viability of dedicated LTE and LTE networks?
– Who are the key ecosystem players, and what are their strategies?
– What strategies should LTE/5G infrastructure suppliers, LMR vendors, system integrators and mobile operators adopt to remain competitive?

Key Findings

The report has the following key findings:
– This report estimates that annual investments in public safety LTE/5G-ready infrastructure will surpass $2 Billion by the end of 2020, predominantly driven by new build-outs and the expansion of existing dedicated and hybrid commercial-private networks in addition to secure MVNO networks for critical communications. Complemented by a rapidly expanding ecosystem of public safety-grade LTE/5G devices, the market will further grow at a CAGR of approximately 10% between 2020 and 2023, eventually accounting for more than $3 Billion by the end of 2023.

– Public safety LTE networks are playing an integral role in ongoing response efforts to combat the global COVID-19 pandemic. For example, in the United States, the FirstNet communications platform is being leveraged to deliver prioritized voice, data, video and location services for first responders and medical personnel – including mobile telehealth applications to facilitate remote screening and monitoring, as well as temporary coverage and capacity expansion for pop-up testing sites, quarantine centers and healthcare facilities using rapidly deployable cellular assets and in-building wireless systems.

– In addition to the high-profile FirstNet, South Korea’s Safe-Net and Britain’s ESN nationwide public safety broadband projects, many additional national-level engagements have recently come to light – most notably, the Royal Thai Police’s LTE network which is already operational in the greater Bangkok region, Finland’s VIRVE 2.0 mission-critical mobile broadband service, France’s PCSTORM critical communications broadband project, and Russia’s secure 450 MHz LTE network for police forces, emergency services and the national guard.

– Other operational and pilot deployments range from nationwide systems in the oil-rich GCC (Gulf Cooperation Council) region to local and city-level private LTE networks for first responders in markets as diverse as Canada, China, Laos, Indonesia, the Philippines, Pakistan, Lebanon, Egypt, Kenya, Ghana, Cote D’Ivoire, Cameroon, Mali, Madagascar, Mauritius, Canary Islands, Spain, Italy, Serbia, Argentina, Brazil, Colombia, Venezuela, Bolivia, Ecuador and Trinidad & Tobago, as well as multi-domain critical communications broadband networks such as Nordic Telecom in the Czech Republic and MRC’s (Mobile Radio Center) LTE-based advanced MCA digital radio system in Japan, and secure MVNO platforms in countries including but not limited to Mexico, Belgium, Switzerland, the Netherlands, Sweden, Slovenia and Estonia.

– Although the aforementioned references to several developing economies in the list of early adopters may come as a surprise, the lack of well-established digital LMR systems in many of these countries makes it possible to leapfrog directly from ageing analog technologies to LTE-based critical communications networks for both voice and broadband services, without the complex and time-consuming challenges associated with transitioning from large-scale and nationwide digital LMR networks.

– In much of the developed world, digital LMR networks are unlikely to be fully replaced by LTE and 5G until the late 2020s to early 2030s, especially in markets where large-scale systems have been rolled out or upgraded recently – for example, Germany’s BDBOS, Norway’s Nodnett and the Netherlands’ C2000 TETRA networks.

– Leveraging their extensive LTE/5G NR-capable cellular infrastructure assets and technical expertise, mobile operators have managed to establish a foothold in the public safety broadband market – with active involvement in some of the largest public safety LTE/5G engagements using both commercial and dedicated public safety spectrum.

– Dozens of vendors have already developed both client and application server implementations that are compliant with 3GPP’s MCPTT, MCVideo and MCData specifications. Frontrunner customers – for example, South Korea’s National Police Agency – have already begun transitioning to 3GPP-compliant MCX functionality, and we expect to see larger production-grade rollouts of the technology – beginning with MCPTT – in 2020.

– Due to the commercial immaturity of 3GPP-specified ProSe (Proximity Services) functionality, a number of interim solutions are being employed to fulfill direct mode, off-network communications requirements. These range from hybrid TETRA/P25-LTE capable terminals to LMR-based RSMs (Remote Speaker Microphones) and detachable accessories that attach to existing LTE devices to facilitate D2D communications over a sufficient coverage radius.

– Even though critical public safety-related 5G NR capabilities are yet to be standardized as part of the 3GPP’s Release 17 specifications, public safety agencies have already begun experimenting with 5G for applications that can benefit from the technology’s high-bandwidth and low-latency characteristics. For example, New Zealand Police are utilizing mobile operator Vodafone’s 5G NR network to share real-time UHD (Ultra High Definition) video feeds from cellular-equipped drones and police cruisers with officers on the ground and command posts.

– In the near future, we also expect to see rollouts of localized 5G NR systems for incident scene management and related use cases, potentially using up to 50 MHz of Band n79 spectrum in the 4.9 GHz frequency range (4,940-4,990 MHz) which has been designated for public safety use in multiple countries including but not limited to the United States, Canada, Australia, Malaysia and Qatar.

– As public safety-grade 5G implementations become well-established in the 2020s, real-time UHD video transmission through coordinated fleets of drones, 5G-equipped autonomous police robots, smart ambulances, AR (Augmented Reality) firefighting helmets and other sophisticated public safety broadband applications will become a common sight.

Additional information

Publisher	SNS Telecom & IT
Date Published	26-May-2020
Pages	1682
Format	PDF+XLS via email

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	Methodology
1.7	Target Audience
1.8	Companies & Organizations Mentioned

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	The Limitations of LMR Networks
2.2	Adoption of Commercial Mobile Broadband Technologies
2.2.1	Why Use Commercial Technologies?
2.2.2	The Role of Mobile Broadband in Public Safety Communications
2.2.3	Can Mobile Broadband Technologies Replace LMR Systems?
2.3	Why LTE & 5G?
2.3.1	Performance Metrics
2.3.2	Coexistence, Interoperability & Spectrum Flexibility
2.3.3	A Thriving Ecosystem of Chipsets, Devices & Network Equipment
2.3.4	Economic Feasibility of Operation
2.3.5	Moving Towards LTE-Advanced & LTE-Advanced Pro
2.3.6	Public Safety Communications Support in LTE-Advanced Pro
2.3.7	5G NR (New Radio) Capabilities & Usage Scenarios
2.3.7.1	eMBB (Enhanced Mobile Broadband)
2.3.7.2	URLCC (Ultra-Reliable Low-Latency Communications)
2.3.7.3	mMTC (Massive Machine-Type Communications)
2.3.8	5G Applications for Public Safety
2.4	Public Safety LTE & 5G Operational Models
2.4.1	Public Safety Communications Over Commercial LTE/5G Networks
2.4.2	Independent Private LTE/5G Network
2.4.3	Managed Private LTE/5G Network
2.4.4	Shared Core Private LTE/5G Network
2.4.5	Hybrid Commercial-Private LTE/5G Network
2.4.6	Secure MVNO: Commercial LTE/5G RAN With a Private Mobile Core
2.4.7	Other Approaches
2.5	Financing & Delivering Dedicated Public Safety LTE & 5G Networks
2.5.1	National Government Authority-Owned & Operated
2.5.2	Local Government/Public Safety Agency-Owned & Operated
2.5.3	BOO (Built, Owned & Operated) by Critical Communications Service Provider
2.5.4	Government-Funded & Commercial Carrier-Operated
2.5.5	Other Forms of PPPs (Public-Private Partnerships)
2.6	Market Drivers
2.6.1	Growing Demand for High-Speed & Low-Latency Data Applications
2.6.2	Recognition of LTE & 5G as the De-Facto Platform for Wireless Connectivity
2.6.3	Spectral Efficiency & Bandwidth Flexibility
2.6.4	National & Cross-Border Interoperability
2.6.5	Consumer-Driven Economies of Scale
2.6.6	Endorsement From the Public Safety Community
2.6.7	Limited Competition From Other Wireless Broadband Technologies
2.6.8	Control Over QoS (Quality-of-Service), Prioritization and Preemption Policies
2.6.9	Support for Mission-Critical Functionality
2.6.10	Privacy & Security
2.7	Market Barriers
2.7.1	Limited Availability of Licensed Spectrum for Public Safety Broadband
2.7.2	Financial Challenges Associated With Large-Scale & Nationwide Networks
2.7.3	Technical Complexities of Implementation & Operation
2.7.4	Smaller Coverage Footprint Than LMR Systems
2.7.5	Delayed Standardization & Commercialization of Mission-Critical Functionality
2.7.6	Dependence on New Chipsets for Direct-Mode Communications

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	E-UTRAN – LTE RAN (Radio Access Network)
3.1.2.1	eNBs – LTE Base Stations
3.1.3	NG-RAN – 5G NR (New Radio) Access Network
3.1.3.1	gNBs – 5G NR Base Stations
3.1.3.2	en-gNBs – Secondary Node 5G NR Base Stations
3.1.3.3	ng-eNBs – Next Generation LTE Base Stations
3.1.4	Transport Network
3.1.4.1	Backhaul
3.1.4.2	Fronthaul & Midhaul
3.1.5	EPC (Evolved Packet Core) – LTE Mobile Core
3.1.5.1	SGW (Serving Gateway)
3.1.5.2	PGW (Packet Data Network Gateway)
3.1.5.3	MME (Mobility Management Entity)
3.1.5.4	HSS (Home Subscriber Server)
3.1.5.5	PCRF (Policy Charging and Rules Function)
3.1.6	5GC (5G Core)/NGC (Next-Generation Core)
3.1.6.1	AMF (Access & Mobility Management Function)
3.1.6.2	UPF (User Plane Function)
3.1.6.3	SMF (Session Management Function)
3.1.6.4	PCF (Policy Control Function)
3.1.6.5	NEF (Network Exposure Function)
3.1.6.6	NRF (Network Repository Function)
3.1.6.7	UDM (Unified Data Management)
3.1.6.8	UDR (Unified Data Repository)
3.1.6.9	AUSF (Authentication Server Function)
3.1.6.10	AF (Application Function)
3.1.6.11	NSSF (Network Slice Selection Function)
3.1.6.12	NWDAF (Network Data Analytics Function)
3.1.6.13	Other Elements
3.1.7	IMS (IP-Multimedia Subsystem), Application & Service Elements
3.1.7.1	IMS Core & VoLTE/VoNR
3.1.7.2	eMBMS/FeMBMS – Broadcasting/Multicasting Over LTE/5G Networks
3.1.7.3	ProSe (Proximity Services)
3.1.7.4	Group Communication & Mission-Critical Services
3.1.8	Gateways for LTE/5G-External Network 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
3.2.2	Mission-Critical Video & Data
3.2.2.1	MCVideo (Mission-Critical Video)
3.2.2.2	MCData (Mission-Critical Data)
3.2.3	ProSe (Proximity Services) for D2D Connectivity & Communications
3.2.3.1	Direct Communication for Coverage Extension
3.2.3.2	Direct Communication Within Network Coverage
3.2.3.3	Infrastructure Failure & Emergency Scenarios
3.2.3.4	Additional Capacity for Incident Response & Special Events
3.2.3.5	Discovery Services for Disaster Relief
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	Deployable LTE & 5G Systems
3.2.5.1	Key Operational Capabilities
3.2.5.1.1	RAN-Only Systems for Coverage & Capacity Enhancement
3.2.5.1.2	Mobile Core-Integrated Systems for Autonomous Operation
3.2.5.1.3	Backhaul Interfaces & Connectivity
3.2.5.2	NIB (Network-in-a-Box): Self-Contained Portable Systems
3.2.5.2.1	Backpacks
3.2.5.2.2	Tactical Cases
3.2.5.3	Vehicular-Based Deployables
3.2.5.3.1	COW (Cell-on-Wheels)
3.2.5.3.2	COLT (Cell-on-Light Truck)
3.2.5.3.3	SOW (System-on-Wheels)
3.2.5.3.4	VNS (Vehicular Network System)
3.2.5.4	Aerial Cell Sites
3.2.5.4.1	Drones
3.2.5.4.2	Balloons
3.2.5.4.3	Other Aircraft
3.2.5.5	Maritime Platforms
3.2.6	UE Enhancements
3.2.6.1	Ruggedization to Meet Critical Communications User Requirements
3.2.6.2	Dedicated PTT Buttons & Functional Enhancements
3.2.6.3	Long-Lasting Batteries
3.2.6.4	HPUE (High-Power User Equipment)
3.2.7	IoT-Focused Technologies
3.2.7.1	eMTC, NB-IoT & mMTC: Wide Area & High Density IoT Applications
3.2.7.2	Techniques for URLLC
3.2.7.3	TSN (Time Sensitive Networking)
3.2.8	High-Precision Positioning
3.2.8.1	Support for Assisted-GNSS & RTK (Real Time Kinematic) Technology
3.2.8.2	RAN-Based Positioning Techniques
3.2.8.3	RAN-Independent Methods
3.2.9	QPP (QoS, Priority & Preemption)
3.2.9.1	3GPP-Specified QPP Capabilities
3.2.9.1.1	Access Priority: ACB (Access Class Barring)
3.2.9.1.2	Admission Priority & Preemption: ARP (Allocation and Retention Priority)
3.2.9.1.3	Traffic Scheduling Priority: QCI (QoS Class Indicator)
3.2.9.1.4	Emergency Scenarios: eMPS (Enhanced Multimedia Priority Service)
3.2.9.2	Additional QPP Enhancements
3.2.10	E2E (End-to-End) Security
3.2.10.1	3GPP-Specified Security Architecture
3.2.10.1.1	Device Security
3.2.10.1.2	Air Interface Security
3.2.10.1.3	Mobile Core & Transport Network Security
3.2.10.2	Application Domain Protection & E2E Encryption
3.2.10.3	Enhancements to Support National Security & Additional Requirements
3.2.10.4	Quantum Cryptography Technologies
3.2.11	Licensed Spectrum Sharing & Aggregation
3.2.12	Unlicensed & Shared Spectrum Usage
3.2.12.1	CBRS (Citizens Broadband Radio Service): Three-Tiered Sharing
3.2.12.2	LSA (Licensed Shared Access): Two-Tiered Sharing
3.2.12.3	sXGP (Shared Extended Global Platform): Non-Tiered Unlicensed Access
3.2.12.4	LTE-U/LAA (License Assisted Access) & eLAA (Enhanced LAA): Licensed & Unlicensed Spectrum Aggregation
3.2.12.5	MulteFire
3.2.12.6	5G NR-U
3.2.13	SDR (Software-Defined Radio)
3.2.14	Cognitive Radio & Spectrum Sensing
3.2.15	Wireless Connection Bonding
3.2.16	Network Sharing & Slicing
3.2.16.1	MOCN (Multi-Operator Core Network)
3.2.16.2	MORAN (Multi-Operator RAN)
3.2.16.3	GWCN (Gateway Core Network)
3.2.16.4	Service-Specific PLMN (Public Land Mobile Network) IDs
3.2.16.5	DDN (Data Network Name)/APN (Access Points Name)-Based Isolation
3.2.16.6	DECOR (Dedicated Core)
3.2.16.7	eDECOR (Enhanced DECOR)
3.2.16.8	5G Network Slicing
3.2.17	Software-Centric Networking
3.2.17.1	NFV (Network Functions Virtualization)
3.2.17.2	SDN (Software Defined Networking)
3.2.18	Small Cells
3.2.19	C-RAN (Centralized RAN)
3.2.20	Satellite Communications
3.2.21	High Capacity Microwave/Millimeter Wave Links
3.2.22	Wireline Fiber Infrastructure
3.2.23	SON (Self-Organizing Networks)
3.2.24	MEC (Multi-Access Edge Computing)
3.2.25	Artificial Intelligence & Machine Learning
3.2.26	Big Data & Advanced Analytics

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	Broadcast Calls
4.1.4	System Calls
4.1.5	Emergency Calls & Alerts
4.1.6	Imminent Peril Calls
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	Group-Based Video Communications
4.2.3	Video Conferencing for Small Groups
4.2.4	Private One-To-One Video Calls
4.2.5	Video Pull & Push Services
4.2.6	Ambient Viewing
4.2.7	Video Transport From Fixed Cameras
4.2.8	Aerial Video Surveillance
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	Presence Services
4.4	Secure & Seamless Mobile Broadband Access
4.4.1	IP Connectivity & Data Streaming 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	Situational Awareness
4.6.3	Common Operating Picture
4.6.4	Integration of Critical IoT Assets
4.6.5	Remote Control of Drones, Robots & Other Unmanned Systems
4.6.6	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 Multicast-Broadcast Services in High-Density Environments
4.7.15	Direct Mode Voice, Video & Data Communications
4.7.16	Coverage Expansion Through UE-To-Network Relaying
4.7.17	Satellite & NTN (Non-Terrestrial Network)-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	Blueforce Development: Leveraging 5G and Edge Computing for Real-Time Situational Awareness
4.7.19.2	Cosumnes Fire Department: AR Firefighting Helmets
4.7.19.3	Dubai Police: AI (Artificial Intelligence)-Enabled Identification of Criminals
4.7.19.4	Dublin Fire Brigade: Coordinating Emergency Incidents With 5G Connectivity
4.7.19.5	Edgybees: Real-Time Augmented Visual Intelligence
4.7.19.6	Government of Catalonia: 5G-Equipped Emergency Medical Vehicles
4.7.19.7	National Police of the Netherlands: AR-Facilitated Crime Scene Investigations
4.7.19.8	New Zealand Police: Aerial Surveillance Through 5G NR Connectivity
4.7.19.9	NHS (National Health Service, United Kingdom): 5G-Connected Smart Ambulances
4.7.19.10	Singapore Police Force: 5G-Equipped Police Robots
4.7.19.11	V-Armed: Preparing Officers for Active Shooter Scenarios Through VR Training
4.7.19.12	Maebashi City Fire Department: 5G for Emergency Response & Rescue Services

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 Purpose-Built Public Safety Broadband Network
5.1.2	Canada: Dedicated 700 MHz LTE Network Rollouts by the Halton & Peel Regional Police Services
5.2	Asia Pacific
5.2.1	Australia: Establishing a National PSMB (Public Safety Mobile Broadband) Capability
5.2.2	New Zealand: Nationwide Critical Communications Platform Based on Commercial LTE and 5G NR Networks
5.2.3	China: City & District-Wide 1.4 GHz LTE Networks for Police Forces
5.2.4	Hong Kong: Field Trials of Dedicated 400 MHz & 700 MHz LTE Networks
5.2.5	Japan: Use of Both Commercial & Private LTE/5G Networks
5.2.6	South Korea: Safe-Net – Spearheading Nationwide Public Safety LTE Network Deployments
5.2.7	Singapore: LTE-Based Broadband Overlay to Complement TETRA
5.2.8	Malaysia: Evaluating Multiple Delivery Models for Mission-Critical Broadband
5.2.9	Indonesia: Field Trials of 700 MHz Public Safety LTE Networks
5.2.10	Philippines: Rapidly Deployable LTE Systems for Disaster Relief
5.2.11	Thailand: 800 MHz LTE Network for the Royal Thai Police
5.2.12	Laos: LTE-Based Emergency Communications Networks for Local Governments
5.2.13	Myanmar: Possible Rollout of a 700 MHz Public Safety Broadband Network
5.2.14	India: Proposed Deployment of a National Hybrid Broadband PPDR Network
5.2.15	Pakistan: Dedicated 800 MHz LTE Networks for Safe City Projects
5.3	Europe
5.3.1	United Kingdom: ESN – Pioneering the Use of Resilient Commercial RAN Infrastructure for Emergency Communications
5.3.2	Ireland: Early Field Trials of Dedicated LTE/5G-Ready Systems for First Responders
5.3.3	France: Transitioning to Mission-Critical Broadband Through the PCSTROM and RRF Projects
5.3.4	Germany: Planned Rollout of the BDBOS Hybrid Government-Commercial Broadband Network
5.3.5	Belgium: Government-Owned Secure MVNO With Priority & National/Cross-Border Roaming
5.3.6	Netherlands: Growing Acceptance of Secure MVNO Services for Mission-Critical Broadband
5.3.7	Switzerland: Dedicated 700 MHz RAN Trials & Secure MVNO Services With QPP (QoS, Priority & Preemption)
5.3.8	Austria: Possibility to Use Both Dedicated & Commercial RAN Infrastructure Options
5.3.9	Italy: Joint Use of TETRA & LTE Systems for Mission-Critical Communications
5.3.10	Spain: Establishing European Leadership in Dedicated Public Safety LTE Networks
5.3.11	Portugal: Preliminary Trials of 5G for Emergency Services
5.3.12	Sweden: Ongoing Efforts for 700 MHz Spectrum Allocation
5.3.13	Norway: NGN (Next Generation Nødnett) – Mission-Critical Broadband System Using Commercial LTE/5G Networks
5.3.14	Denmark: Secure MVNO Model With Prioritized Access Over Commercial RAN Infrastructure
5.3.15	Finland: VIRVE 2.0 Mission-Critical Broadband Service
5.3.16	Estonia: State-Owned MVNO for Public Safety Broadband
5.3.17	Czech Republic: World’s First 420 MHz LTE Network for Critical Communications
5.3.18	Poland: Leveraging LTE to Modernize Existing Police Radio Communications Systems
5.3.19	Greece: TETRA-Broadband Integration & LTE-Equipped Portable Emergency Command Systems
5.3.20	Turkey: Domestically-Produced LTE/5G-Ready Base Stations for Public Safety & Emergency Communications
5.3.21	Bulgaria: Hybrid TETRA-LTE Implementation to Meet Mission-Critical Communications Needs
5.3.22	Romania: Possible Deployment of a 700 MHz Public Safety Broadband Network
5.3.23	Hungary: Planned Rollout of a 420/450 MHz LTE Network to Supplement TETRA-Based EDR System
5.3.24	Slovenia: Setting 5G PPDR Projects in Motion
5.3.25	Serbia: LTE-Connected Safe City & Surveillance Systems
5.3.26	Russia: Secure 450 MHz LTE Network for Police Forces, Emergency Services & the National Guard
5.4	Middle East & Africa
5.4.1	Saudi Arabia: Unified TETRA-LTE Network for Mission-Critical Communications
5.4.2	United Arab Emirates: Emirate-Wide 700 MHz Public Safety LTE Networks
5.4.3	Qatar: Middle East’s First Dedicated Public Safety Broadband Network
5.4.4	Oman: Nationwide 800 MHz LTE Network for the ROP (Royal Oman Police)
5.4.5	Jordan: Pilot LTE Network for the Jordanian Armed Forces
5.4.6	Iraq: Local LTE-Based Wireless Communications Systems for Security Forces
5.4.7	Egypt: Security-Oriented LTE Networks for Safe City Initiatives
5.4.8	Lebanon: LTE Network for Internal Security Forces
5.4.9	Israel: LTE/5G-Ready Network Rollouts for Military & Public Safety Communications
5.4.10	South Africa: Demand for Access to Sub-1 GHz Public Safety Broadband Spectrum
5.4.11	Kenya: Custom-Built LTE Network for the Kenyan Police Service
5.4.12	Ghana: 1.4 GHz LTE-Based National Security Network
5.4.13	Nigeria: Planned Rollouts of Public Safety LTE Networks for Safe City Initiatives
5.4.14	Angola: TETRA-LTE Integration Through Commercial Mobile Operators
5.4.15	Republic of the Congo: LTE-Equipped ECVs (Emergency Communications Vehicles)
5.4.16	Côte d’Ivoire: Dedicated LTE Network for the Ministry of Interior and Security
5.4.17	Cameroon: LTE Connectivity for Video Surveillance & Broadband Applications
5.4.18	Mali: LTE-Based Safe City Network for Police & Security Forces
5.4.19	Madagascar: LTE-Based Secure Communications Network for the Madagascar National Police
5.4.20	Mauritius: Private LTE Network for the MPF (Mauritius Police Force)
5.5	Latin & Central America
5.5.1	Brazil: 700 MHz LTE Systems for Military Police, Fire Departments & Other Public Safety Agencies
5.5.2	Mexico: Secure MVNO Broadband Services for Public Safety & Defense Authorities
5.5.3	Argentina: Tactical LTE Systems for Incident Response & Major Events
5.5.4	Colombia: LTE Network Field Trials by the National Police of Colombia
5.5.5	Chile: Potential Rollout of a 700 MHz Public Safety LTE Network
5.5.6	Peru: Unified LMR-LTE Implementation for Mission-Critical Voice & Broadband Data Services
5.5.7	Venezuela: LTE-Equipped VEN 911/SIMA Video Surveillance and Emergency Response System
5.5.8	Ecuador: LTE-Based Communications for the ECU-911 Emergency Response Program
5.5.9	Bolivia: Dedicated LTE Networks for the BOL-110 Citizen Security System & Other Safe City Projects
5.5.10	Caribbean Countries: Diverse Operational Models to Deliver Public Safety Broadband Services

6	Chapter 6: Public Safety LTE & 5G Case Studies
6.1	Nationwide Public Safety LTE/5G Projects
6.1.1	United States’ FirstNet (First Responder Network)
6.1.1.1	Operational Model
6.1.1.2	Vendors
6.1.1.3	Deployment Summary
6.1.1.4	Key Applications
6.1.1.5	FirstNet Service Plans & Pricing
6.1.1.6	Integration of Early Builder Band 14 Networks
6.1.1.7	Retrofitted & Purpose-Built FirstNet Cell Sites
6.1.1.8	Rapidly Deployable Cellular Assets for Temporary Coverage & Capacity
6.1.1.9	Certification of Terminal Equipment, Accessories & Applications
6.1.1.10	HPUE Solutions for Coverage Enhancement
6.1.1.11	Controlled Introduction of 3GPP-Complaint MCPTT Service
6.1.1.12	Interoperability With Legacy LMR Systems
6.1.1.13	Supporting COVID-19 Emergency Response Efforts
6.1.2	United Kingdom’s ESN (Emergency Services Network)
6.1.2.1	Operational Model
6.1.2.2	Vendors
6.1.2.3	Deployment Summary
6.1.2.4	Key Applications
6.1.2.5	ESN Products
6.1.2.6	EE’s LTE Network Expansion & Additional Low Band Spectrum
6.1.2.7	Government-Funded RAN Assets for Remote Areas & the London Underground
6.1.2.8	A2G (Air-to-Ground) Network to Deliver ESN Coverage Above 500 Feet
6.1.2.9	Deployable Assets & RRVs (Rapid Response Vehicles)
6.1.2.10	Direct Mode Solution for ESN Terminals
6.1.2.11	Replacement of the Airwave TETRA Network
6.1.3	South Korea’s Safe-Net (National Disaster Safety Communications Network)
6.1.3.1	Operational Model
6.1.3.2	Vendors
6.1.3.3	Deployment Summary
6.1.3.4	Key Applications
6.1.3.5	Government-Owned RAN & Mobile Core Equipment
6.1.3.6	RAN Sharing With Commercial Mobile Operators
6.1.3.7	Planned Evolution Towards 5G
6.1.3.8	Experimentation With D2D Communications
6.1.3.9	Interworking With LTE-Based Railway & Maritime Networks
6.1.4	Royal Thai Police’s LTE Network
6.1.4.1	Operational Model
6.1.4.2	Vendors
6.1.4.3	Deployment Summary
6.1.4.4	Key Applications
6.1.4.5	Broadband Access for Other Government & PPDR Users
6.1.4.6	Use of Deployable LTE Assets During the Tham Luang Cave Rescue
6.1.5	France’s PCSTORM Critical Communications Broadband Project
6.1.5.1	Operational Model
6.1.5.2	Vendors
6.1.5.3	Deployment Summary
6.1.5.4	Key Applications
6.1.5.5	Paving the Way for a Nationwide LTE/5G-Based RRF (Radio Network of the Future)
6.1.5.6	RFIs to Address Direct-Mode, A2G (Air-to-Ground), LSA (Licensed Shared Access) & Other Issues
6.1.5.7	Fully Operational RRF to Support the 2023 Rugby World Cup and 2024 Olympic Games
6.1.5.8	Expansion of the Mission-Critical RRF Network to Overseas Territories
6.1.6	Finland’s VIRVE 2.0 Mission-Critical Broadband Network
6.1.6.1	Operational Model
6.1.6.2	Vendors
6.1.6.3	Deployment Summary
6.1.6.4	Key Applications
6.1.6.5	Legislative Support for the Rollout of VIRVE 2.0
6.1.6.6	Migration From Existing TETRA Network to VIRVE 2.0
6.1.7	Russia’s Secure 450 MHz LTE Network
6.1.7.1	Operational Model
6.1.7.2	Vendors
6.1.7.3	Deployment Summary
6.1.7.4	Key Applications
6.1.7.5	Physical & Cybersecurity Measures to Address National Security Concerns
6.1.7.6	Integration With Russia’s National Broadband Platform for Socially Critical Infrastructure
6.1.8	Slovenia’s 5G PPDR (Public Protection & Disaster Relief) Project
6.1.8.1	Operational Model
6.1.8.2	Vendors
6.1.8.3	5G Pilot Deployment Summary
6.1.8.4	Key Applications
6.1.8.5	Cross-Border Collaboration With Hungary
6.1.8.6	Ongoing Rollout of Hybrid Government-Commercial LTE/5G-Ready Network
6.1.9	Belgium’s ASTRID BLM (Blue Light Mobile)
6.1.9.1	Operational Model
6.1.9.2	Vendors
6.1.9.3	Deployment Summary
6.1.9.4	Key Applications
6.1.9.5	Priority & Preemption Service Levels
6.1.9.6	VPN Tunneling for Secure Connectivity
6.1.9.7	ASTRID Cloud: Application Hosting & Sharing
6.1.9.8	Future Plans for Service Evolution
6.1.9.9	Possible Rollout of Complementary RAN Infrastructure
6.1.10	Qatar MOI’s (Ministry of Interior) LTE Network
6.1.10.1	Operational Model
6.1.10.2	Vendors
6.1.10.3	Deployment Summary
6.1.10.4	Key Applications
6.1.10.5	Integration With the MOI’s TETRA Network
6.1.10.6	Technology-Driven Security for the 2022 FIFA World Cup
6.2	Additional Case Studies of Public Safety LTE/5G Network & Service Rollouts
6.2.1	5G RuralDorset – Coastal Connectivity for First Responders
6.2.2	Abu Dhabi Police
6.2.3	Airbus’ MXLINK
6.2.4	BLUnet
6.2.5	Buenos Aires City Police
6.2.6	City of Sendai
6.2.7	Cochabamba Safe City Project
6.2.8	Dublin Fire Brigade
6.2.9	Ecuador ECU-911
6.2.10	Ghana’s Integrated National Security Communications Network
6.2.11	Guangzhou Hybrid TETRA-5G Network
6.2.12	Halton-Peel Public Safety Broadband Network
6.2.13	Kenyan Police Service
6.2.14	KPN Critical Communications Platform
6.2.15	Lijiang Police
6.2.16	MPF (Mauritius Police Force)
6.2.17	MRC (Mobile Radio Center)
6.2.18	MSB (Civil Contingencies Agency, Sweden)
6.2.19	Nanjing Municipal Government
6.2.20	National Police of Colombia
6.2.21	Nedaa
6.2.22	New Zealand Police
6.2.23	Nordic Telecom
6.2.24	Philippine Red Cross
6.2.25	PrioCom
6.2.26	PSCA (Punjab Safe Cities Authority)
6.2.27	RESCAN (Canary Islands Network for Emergency and Security)
6.2.28	RIKS (State Infocommunication Foundation, Estonia)
6.2.29	Rivas Vaciamadrid City Council
6.2.30	ROP (Royal Oman Police)
6.2.31	Salvador de Bahia Convergent TETRA-LTE System
6.2.32	São Paulo State Military Police
6.2.33	Serbian Ministry of Interior
6.2.34	Shanghai Police Department
6.2.35	Singapore Police Force
6.2.36	Swisscom Broadcast’s Public Safety LTE Platform
6.2.37	Telstra LANES Emergency
6.2.38	Thales’ Eiji
6.2.39	TIM’s (Telecom Italia Mobile) Public Safety LTE Service
6.2.40	TWFRS (Tyne and Wear Fire and Rescue Service)
6.2.41	UN (United Nations)
6.2.42	Verzion’s Responder Private Core
6.2.43	Vientiane Municipal Government
6.2.44	Wujiang Public Security Bureau

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 MHz
7.1.1.1	Japan’s 170 – 202.5 MHz Band
7.1.1.2	Other Non-Traditional Frequency Bands
7.1.2	400 MHz
7.1.2.1	Bands 31, 72 & 73 (450 – 470 MHz)
7.1.2.2	Bands 87 & 88 (410 – 430 MHz)
7.1.2.3	Non-3GPP Bands
7.1.3	700 MHz
7.1.3.1	Band 14 (758 – 798 MHz)
7.1.3.2	Band 28 (703 – 803 MHz)
7.1.3.3	Band 68 (698 – 783 MHz)
7.1.3.4	Other 700 MHz Bands
7.1.4	800 MHz
7.1.4.1	Band 20 (791 – 862 MHz)
7.1.4.2	Band 26 (814 – 894 MHz)
7.1.4.3	Other 800 MHz Bands
7.1.5	900 MHz
7.1.5.1	Band 8 (880 – 960 MHz)
7.1.6	Mid-Band (1 – 6 GHz) Frequencies
7.1.6.1	1.4 GHz
7.1.6.2	1.8 GHz
7.1.6.3	2.3 GHz
7.1.6.4	2.6 GHz
7.1.6.5	3.5 GHz
7.1.6.6	3.6 GHz
7.1.6.7	3.7 GHz
7.1.6.8	4.6 – 4.8 GHz
7.1.6.9	4.9 GHz
7.1.6.10	5 GHz
7.1.6.11	6 GHz
7.1.6.12	Other Bands
7.1.7	High-Band Millimeter Wave Spectrum
7.1.7.1	26 GHz
7.1.7.2	28 GHz
7.1.7.3	37 GHz
7.1.7.4	57 – 71 GHz
7.1.7.5	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	Japan
7.3.6	South Korea
7.3.7	Singapore
7.3.8	Malaysia
7.3.9	Indonesia
7.3.10	Thailand
7.3.11	Myanmar
7.3.12	India
7.3.13	Pakistan
7.3.14	Rest of Asia Pacific
7.4	Europe
7.4.1	United Kingdom
7.4.2	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	Czech Republic
7.4.18	Poland
7.4.19	Bulgaria
7.4.20	Romania
7.4.21	Hungary
7.4.22	Slovenia
7.4.23	Russia
7.4.24	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	Jordan
7.5.6	Israel
7.5.7	South Africa
7.5.8	Kenya
7.5.9	Ghana
7.5.10	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	Chile
7.6.5	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 & Beyond: 5G NR Direct Mode, Multicast-Broadcast, Mission-Critical IOPS & NTN
8.2	450 MHz Alliance
8.2.1	Promoting the Use of Sub-500 MHz Spectrum for Critical Communications LTE Networks
8.3	APCO (Association of Public-Safety Communications Officials) International
8.3.1	Public Safety LTE/5G Advocacy Efforts
8.3.2	ANS 2.106.1-2019: Standard for PSG (Public Safety Grade) Site Hardening Requirements
8.4	ASTRID
8.4.1	Public Safety LTE/5G-Related Standardization Efforts
8.5	ATIS (Alliance for Telecommunications Industry Solutions)
8.5.1	Standardization Efforts Relevant to Public Safety & Critical Communications LTE/5G Networks
8.6	BDBOS (Federal Agency for Public Safety Digital Radio, Germany)
8.6.1	Public Safety LTE/5G-Related Standardization Efforts
8.7	BMWi (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	CATA (Canadian Advanced Technology Alliance)
8.9.1	Public Safety LTE/5G-Related Advocacy Efforts
8.10	CBRS Alliance
8.10.1	OnGo Certification Program
8.11	CITIG (Canadian Interoperability Technology Interest Group)
8.11.1	Public Safety LTE/5G Advocacy Efforts
8.12	Department of Home Affairs, Australia
8.12.1	Leading Australia’s National PSMB (Public Safety Mobile Broadband) Program
8.13	DRDC (Defence Research and Development Canada)
8.13.1	DRDC CSS (DRDC Centre for Security Science)
8.13.1.1	Participation in Canada’s National PSBN (Public Safety Broadband Network) Program
8.13.1.2	R&D Efforts in Public Safety & Military LTE/5G Networks
8.14	DSA (Dynamic Spectrum Alliance)
8.14.1	Advocacy Efforts for the Dynamic Sharing of Spectrum
8.15	DSB (Directorate for Civil Protection, Norway)
8.15.1	Public Safety LTE/5G-Related Standardization Efforts
8.16	Erillisverkot (State Security Networks Group, Finland)/Suomen Virveverkko
8.16.1	Public Safety LTE/5G-Related Standardization Efforts
8.17	ETSI (European Telecommunications Standards Institute)
8.17.1	TCCE (TETRA and Critical Communications Evolution) Technical Committee
8.17.1.1	Standards & Guidelines for Critical Communications Broadband
8.17.2	CTI (Center for Testing and Interoperability)
8.17.2.1	MCX (Mission-Critical PTT, Video & Data) Plugtests
8.17.3	Other Technical Committees & Critical Communications LTE/5G-Related Standards
8.18	EWA (Enterprise Wireless Alliance)
8.18.1	Frequency Coordination & Spectrum Advocacy for Private Wireless Networks
8.19	FirstNet (First Responder Network) Authority
8.19.1	Overseeing the Buildout, Operation & Evolution of the FirstNet Public Safety Broadband Network
8.19.2	Standardization of Mission-Critical Features for 3GPP Technologies
8.19.3	Innovation & Test Lab
8.19.4	PSAC (Public Safety Advisory Committee)
8.20	French Ministry of Interior
8.20.1	Public Safety LTE/5G-Related Standardization Efforts
8.21	GCF (Global Certification Forum)
8.21.1	Certification of LTE/5G Devices for Public Safety & Other Critical Communications Networks
8.22	Home Office, United Kingdom
8.22.1	Public Safety LTE/5G-Related Standardization Efforts
8.23	ICCRA (International Critical Control Rooms Alliance)
8.23.1	LTE/5G Support in Critical Control Room Interface Standards
8.24	IETF (Internet Engineering Task Force)
8.24.1	Standards & Protocols for Mission-Critical Services Over LTE & 5G Networks
8.25	IGOF (International Governmental Operators’ Forum)
8.25.1	Addressing Broadband-Related Issues in Critical Communications
8.26	ISED (Innovation, Science and Economic Development Canada)
8.26.1	Participation in Canada’s National PSBN (Public Safety Broadband Network) Program
8.26.2	Regulation of Public Safety Broadband Spectrum
8.26.3	CRC (Communications Research Centre Canada)
8.26.3.1	Interoperability Research and Evaluation of Public Safety LTE/5G Networks
8.27	ITU (International Telecommunication Union)
8.27.1	Spectrum Harmonization for Public Safety & Critical Communications LTE/5G Networks
8.27.2	Defining the Role of IMT-2020 to Support PPDR Applications
8.28	MCOP (Mission-Critical Open Platform)
8.28.1	Open Platform for the Development of Standards-Compliant MCPTT Applications
8.29	MCS-TaaSting (Mission-Critical Services – Testing-as-a-Service)
8.29.1	Flexible Testing Tools & Certification Procedures for 3GPP’s MCX Standards
8.30	MOIS (Ministry of the Interior and Safety, South Korea)
8.30.1	Public Safety LTE/5G-Related Standardization Efforts
8.31	MulteFire Alliance
8.31.1	Specifications for LTE/5G NR Operation in Unlicensed Spectrum
8.32	National Police of the Netherlands
8.32.1	Public Safety LTE/5G-Related Standardization Efforts
8.33	Nkom (Norwegian Communications Authority)
8.33.1	Standardization Efforts for Critical Communications Over 3GPP Networks
8.34	NSW (New South Wales) Telco Authority
8.34.1	Role in Australia’s National PSMB (Public Safety Mobile Broadband) Program
8.35	OMA (Open Mobile Alliance)
8.35.1	PoC (PTT-over-Cellular): V1.04, V2.0 and V2.1
8.35.2	PCPS (Push-to-Communicate for Public Safety)
8.36	Productivity Commission, Australia
8.36.1	Cost-Benefit Analysis of Delivering a PSMB (Public Safety Mobile Broadband) Capability
8.37	PSBTA (Public Safety Broadband Technology Association)
8.37.1	Public Safety LTE/5G-Related Activities
8.38	PSCE (Public Safety Communications Europe)
8.38.1	Public Safety LTE/5G Standardization
8.38.2	BroadX Projects: Pan-European Interoperable Mobile Broadband for Public Safety
8.38.2.1	BroadMap (2016 – 2017): Specifications & Roadmap for Procurement
8.38.2.2	BroadWay (2018 – 2020): R&D/PCP (Pre-Commercial Procurement)
8.38.2.3	BroadNet (2021/2022 & Beyond): Live Procurement and Sustainable Governance
8.38.3	Other Public Safety LTE/5G-Related Work
8.39	PSTA (Public Safety Technology Alliance)
8.39.1	Certified Open Standards & APIs for Public Safety Communications
8.40	Public Safety Canada
8.40.1	Federal PSBN (Public Safety Broadband Network) Task Team
8.40.2	TNCO (Temporary National Coordination Office) for Canada’s National PSBN
8.41	Safe-Net Forum
8.41.1	Technical/Policy Guidance & Ecosystem Development for Critical Communications LTE/5G Networks
8.42	TCCA (The Critical Communications Association)
8.42.1	CCBG (Critical Communications Broadband Group)
8.42.2	BIG (Broadband Industry Group)
8.43	TIA (Telecommunications Industry Association)
8.43.1	TR-8.8: Subcommittee on Broadband Data Systems
8.43.1.1	Defining Requirements for MCPTT, Priority, QoS Control & Other Critical Communications Capabilities
8.44	TTA (Telecommunications Technology Association, South Korea)
8.44.1	Functional Requirements, Testing & Certification for Public Safety LTE/5G Technologies
8.45	U.S. DHS (Department of Homeland Security)
8.45.1	S&T (Science and Technology) Directorate
8.45.1.1	Public Safety LTE/5G-Related Projects
8.46	U.S. FCC (Federal Communications Commission)
8.46.1	PSHSB (Public Safety and Homeland Security Bureau)
8.46.2	Endorsement of LTE as the Platform for 700 MHz Public Safety LTE Networks
8.46.3	Regulation of Public Safety Broadband Spectrum
8.46.4	Other Engagements Relevant to Public Safety LTE/5G
8.47	U.S. NIST (National Institute of Standards and Technology)
8.47.1	CTL (Communications Technology Laboratory)
8.47.2	PSCR (Public Safety Communications Research): R&D Leadership for FirstNet
8.47.2.1	R&D, Testing & Evaluation of Technologies for Public Safety LTE/5G
8.48	U.S. NPSTC (National Public Safety Telecommunications Council)
8.48.1	Early Leadership in Public Safety LTE
8.48.2	Spectrum Management, 3GPP-LMR Integration, Public Safety Grade Systems & Other Work
8.49	U.S. NTIA (National Telecommunications and Information Administration)
8.49.1	FirstNet Governance & Funding
8.49.2	Other Work Related to Critical Communications LTE/5G Networks
8.50	WInnForum (Wireless Innovation Forum)
8.50.1	SSC (Spectrum Sharing Committee): CBRS Standards
8.50.2	Other Committees
8.51	Vendor-Led Alliances
8.51.1	Huawei’s eLTE Industry Alliance
8.51.2	Nokia’s Mission Critical Communications Alliance
8.51.3	L3Harris’ Mission Critical Alliance
8.52	Others
8.52.1	Government Agencies & National Regulators
8.52.2	Regional & Country-Specific Associations
8.52.3	Academic Institutes, Research Centers & Labs

9	Chapter 9: Future Roadmap & Value Chain
9.1	Future Roadmap
9.1.1	2020 – 2025: 3GPP-Compliant MCX Service Deployments
9.1.2	2025 – 2029: Adoption of 5G NR Systems for Public Safety Communications
9.1.3	2030 & Beyond: Towards the Cannibalization of Legacy Digital LMR Systems
9.2	Value Chain
9.2.1	Enabling Technology Providers
9.2.2	RAN, Mobile Core & Transport Infrastructure Suppliers
9.2.3	Terminal Equipment Vendors
9.2.4	System Integrators
9.2.5	Application Developers
9.2.6	Test, Measurement & Performance Specialists
9.2.7	Mobile Operators
9.2.8	MVNOs
9.2.9	Public Safety & Government Agencies

10	Chapter 10: Key Ecosystem Players
10.1	4K Solutions
10.2	6Harmonics/6WiLInk
10.3	A Beep/Diga-Talk+
10.4	A1 Telekom Austria Group
10.5	A10 Networks
10.6	ABS
10.7	Abside Networks
10.8	AccelerComm
10.9	Accelleran
10.10	Accton Technology Corporation
10.11	Accuver/Qucell/InnoWireless
10.12	Ace Technologies Corporation
10.13	AceAxis
10.14	AceTel (Ace Solutions)
10.15	Achronix Semiconductor Corporation
10.16	Action Technologies (Shenzhen Action Technologies)
10.17	Active911
10.18	Adax
10.19	Adcor Magnet Systems
10.20	ADI (Analog Devices Inc.)
10.21	ADLINK Technology
10.22	ADRF (Advanced RF Technologies)
10.23	ADT
10.24	ADTRAN
10.25	ADVA Optical Networking
10.26	AdvanceTec Industries
10.27	Advantech
10.28	Aegex Technologies
10.29	Aerial Applications
10.30	Affarii Technologies
10.31	Affirmed Networks (Microsoft Corporation)
10.32	Agile (Agile Interoperable Solutions)
10.33	AGIS (Advanced Ground Information Systems)
10.34	AGM Mobile
10.35	AINA Wireless
10.36	Airbus/SLC (Secure Land Communications)
10.37	Airgain
10.38	Airrays
10.39	Airspan Networks/Mimosa Networks
10.40	Airwavz Solutions
10.41	Akoustis Technologies
10.42	Alea/Talkway
10.43	Alepo
10.44	Alibaba Group
10.45	Allen Vanguard Wireless
10.46	Allerio
10.47	Alliander (450connect/Utility Connect)
10.48	Allied Telesis
10.49	Allot
10.50	Alpha Networks
10.51	Alpha Technologies (EnerSys)
10.52	Altaeros
10.53	Altair Semiconductor
10.54	ALTÁN Redes
10.55	Altice USA
10.56	Altice Europe/SFR
10.57	Altiostar Networks
10.58	Altran
10.59	Alvarion Technologies (SuperCom)
10.60	AM Telecom
10.61	Amarisoft
10.62	Amazon
10.63	Ambra Solutions/Ecotel
10.64	Amdocs
10.65	América Móvil
10.66	American Tower Corporation
10.67	Amit Wireless
10.68	AMN (Africa Mobile Networks)
10.69	Amphenol Corporation
10.70	Amtele Communication
10.71	Anktion (Fujian) Technology
10.72	Anokiwave
10.73	Anritsu Corporation
10.74	ANS (Advanced Network Services)
10.75	Antenna Company
10.76	Anterix (pdvWireless)
10.77	Antna Antenna Technology
10.78	Apple
10.79	APSTAR (APT Satellite Company)
10.80	Aqura Technologies (Veris)
10.81	Arabsat
10.82	Arcadyan Technology Corporation
10.83	Archos
10.84	Arete M
10.85	Argela/Netsia
10.86	ArgoNET
10.87	Arista Networks
10.88	ARM
10.89	Armour Communications
10.90	Arqiva (Cellnex Telecom)
10.91	ArrayComm
10.92	Artemis Networks (Rearden)
10.93	Artiza Networks
10.94	Arukona
10.95	Asavie
10.96	ASELSAN/ULAK Communication
10.97	AsiaInfo Technologies
10.98	AsiaSat (Asia Satellite Telecommunications Company)
10.99	Asiatelco Technologies
10.100	ASOCS
10.101	Aspire Technology
10.102	Assured Wireless Corporation
10.103	ASTRI (Hong Kong Applied Science and Technology Research Institute)
10.104	Astronics Corporation/Freedom Communication Technologies
10.105	ASUS (ASUSTeK Computer)/Askey Computer Corporation/Aaeon Technology
10.106	Asylon
10.107	AT&T
10.108	Atel Antennas
10.109	Athonet
10.110	Atlas Telecom
10.111	ATN International/Geoverse
10.112	Atos/Air-Lynx
10.113	AttoCore
10.114	Auden Techno
10.115	Avanti Communications Group
10.116	AVI
10.117	Aviat Networks
10.118	AVM
10.119	AW2S (Advanced Wireless Solutions and Services)/SERMA Group
10.120	Axione
10.121	Axis Communications
10.122	Axon
10.123	Axtel
10.124	Axxcss Wireless Solutions
10.125	Azcom Technology
10.126	Azetti Networks
10.127	B+B SmartWorx (Advantech)
10.128	BAE Systems
10.129	BAI Communications/Transit Wireless
10.130	Baicells Technologies
10.131	Ball Aerospace
10.132	BandRich
10.133	BandwidthX
10.134	Barrett Communications
10.135	Pixavi (BARTEC)
10.136	BATS (Broadband Antenna Tracking Systems)
10.137	Baylin Technologies (Galtronics Corporation, Advantech Wireless Technologies, Alga Microwave)
10.138	BCDVideo
10.139	BCE (Bell Canada)
10.140	Beam Semiconductor
10.141	BEC Technologies
10.142	Beeper Communications
10.143	Beijer Electronics Group
10.144	Belden
10.145	Benetel
10.146	BesoVideo
10.147	BHE (Bonn Hungary Electronics)
10.148	Billion Electric
10.149	Bird Technologies
10.150	Bittium Corporation
10.151	BK Technologies
10.152	Black & Veatch
10.153	Black Box Corporation
10.154	BlackBerry
10.155	Blackned
10.156	Blu Wireless
10.157	Blue Danube Systems
10.158	Blue Wireless
10.159	Bluebird
10.160	Blueforce Development Corporation
10.161	BLUnet (Axpo WZ-Systems)
10.162	Boeing Company/Aurora Flight Sciences
10.163	Boelink (Shanghai Boelink Communication Technology)
10.164	Boingo Wireless
10.165	Booz Allen Hamilton
10.166	Bouygues Telecom
10.167	Boxchip
10.168	BravoCom
10.169	Bredengen
10.170	Bridgewave Communications (REMEC Broadband Wireless Networks)
10.171	Broadcom
10.172	BroadForward
10.173	Broadmobi (Shanghai Broadmobi Communication Technology)/Wutong Group
10.174	Broadpeak
10.175	BTI Wireless
10.176	Bullitt/Cat Phones (Caterpillar)/Land Rover Explore
10.177	Bureau Veritas/7Layers
10.178	BVSystems (Berkeley Varitronics Systems)
10.179	BWT (BlueWaveTel)
10.180	C Spire
10.181	CableFree (Wireless Excellence)
10.182	CableLabs/Kyrio
10.183	CACI International/LGS Innovations
10.184	Cadence Design Systems
10.185	CalAmp/LoJack
10.186	Caliber Public Safety
10.187	Callyo/10-21 Video
10.188	Cambium Networks
10.189	Cambridge Consultants
10.190	Capita
10.191	CapX Nederland
10.192	Carbyne
10.193	Carlson Wireless Technologies
10.194	Casa Systems/NetComm Wireless
10.195	CASIC (China Aerospace Science and Industry Corporation)
10.196	Casio Computer Company
10.197	Catalyst Communications Technologies
10.198	Cavli Wireless
10.199	CCI (Communication Components Inc.)/BLiNQ Networks
10.200	CCI Systems
10.201	CCN (Cirrus Core Networks)
10.202	CCS (Cambridge Communication Systems)
10.203	CCww (Communications Consultants Worldwide)
10.204	Celeno
10.205	Celfinet
10.206	CellAntenna Corporation
10.207	Cellnex Telecom
10.208	cellXica
10.209	Celona
10.210	Centerline Communications
10.211	CENTRA Technology
10.212	CentralSquare Technologies
10.213	CenturyLink
10.214	Ceragon Networks
10.215	CertusNet
10.216	CETC (China Electronics Technology Group Corporation)
10.217	CEVA
10.218	Challenge Networks
10.219	Charter Communications
10.220	Cheerzing (Xiamen Cheerzing IoT Technology)
10.221	Chemring Technology Solutions
10.222	Chengdu NTS
10.223	Cheytec Telecommunications
10.224	China All Access
10.225	China Mobile
10.226	China Satcom (China Satellite Communications)
10.227	China Telecom
10.228	China Unicom
10.229	CHPC (Cirtek Holdings Philippines Corporation)/ Quintel
10.230	Cibicom
10.231	CICT (China Information and Communication Technology Group)/China Xinke Group
10.232	Ciena Corporation
10.233	CIG (Cambridge Industries Group)
10.234	CIO (Connected IO)
10.235	Cirpack
10.236	Cisco Systems
10.237	Citymesh
10.238	CitySwitch
10.239	ClearSky Technologies
10.240	Clever Logic
10.241	CloudMinds Technology
10.242	Cloudstreet
10.243	CMIoT (China Mobile IoT)
10.244	Cobham
10.245	Codan Communications
10.246	Cogisys
10.247	Cohere Technologies
10.248	Coherent Logix
10.249	Collinear Networks
10.250	Comba Telecom
10.251	Comcast Corporation
10.252	Comcores
10.253	COMLAB
10.254	CommAgility
10.255	CommandWear Systems
10.256	CommScope/ARRIS International/Ruckus Networks
10.257	Compal
10.258	Comprod
10.259	Comrod Communication Group
10.260	Comtech Telecommunications Corporation/Comtech EF Data
10.261	CONET Technologies
10.262	Connect Tech
10.263	Contela
10.264	Coolpad
10.265	CopaSAT
10.266	Cornerstone (CTIL)
10.267	Cornet Technology
10.268	Corning
10.269	Cortina Access
10.270	Cosemi Technologies/Optella
10.271	Coweaver
10.272	Cox Communications
10.273	Cradlepoint
10.274	CrisisGo
10.275	Crown Castle International Corporation
10.276	CS Corporation
10.277	Cubic Corporation/Deltenna
10.278	Custom MMIC
10.279	CybertelBridge
10.280	Cyrus Technology
10.281	Dahua Technology
10.282	Dali Wireless
10.283	DAMM Cellular Systems
10.284	DataSoft
10.285	DBcom
10.286	Dejero Labs
10.287	DEKRA
10.288	Dell Technologies
10.289	Delta/Agema
10.290	Dense Air (Airspan Networks)
10.291	Dialogic
10.292	Digi International
10.293	Digital Ally
10.294	Digital Bridge Holdings/Colony Capital
10.295	Digital Colony/Freshwave Group
10.296	Dimetor
10.297	DISH Network Corporation
10.298	DKK (Denki Kogyo)
10.299	D-Link Corporation
10.300	Doogee
10.301	DragonWave-X
10.302	Drakontas
10.303	DriveNets
10.304	Drone Aviation
10.305	DroneSense
10.306	Druid Software
10.307	DSBJ (Suzhou Dongshan Precision Manufacturing)
10.308	DT (Deutsche Telekom)
10.309	Duons
10.310	Durabook (Twinhead International Corporation)
10.311	Duubee
10.312	Eastcom (Eastern Communications)
10.313	Easycom (Shenzhen Easycom Electronics)
10.314	E-Band Communications (Axxcss Wireless Solutions)
10.315	EBlink
10.316	EchoStar Corporation/Hughes Network Systems
10.317	ECI Telecom (Ribbon Communications)
10.318	Ecom Instruments (Pepperl+Fuchs)
10.319	Edgecore Networks (Accton Technology Corporation)
10.320	Edgybees
10.321	Edzcom (Ukkoverkot)
10.322	EE (BT Group)
10.323	EION Wireless
10.324	Eircom
10.325	Ekinops/OneAccess
10.326	Elbit Systems
10.327	Elefante Group
10.328	Elisa
10.329	Elistair
10.330	Elsight
10.331	ELUON Corporation
10.332	Embraer
10.333	Encore Networks
10.334	Enea
10.335	ENENSYS Technologies/Expway
10.336	Energizer Mobile (Avenir Telecom)
10.337	Entropy Solution
10.338	Eravant (SAGE Millimeter)
10.339	Ericsson
10.340	Errigal
10.341	Esharah Etisalat Security Solutions
10.342	Essential Products
10.343	Estalky (K-Mobile Technology)
10.344	ETELM
10.345	eTera Communication/Sinotech R&D Group
10.346	Etherstack
10.347	Ethertronics/AVX Corporation (Kyocera)
10.348	Etisalat Group
10.349	ETRI (Electronics & Telecommunications Research Institute, South Korea)
10.350	Eurotech
10.351	Eutelsat Communications
10.352	Exacom
10.353	Excelerate Group
10.354	EXFO/Astellia
10.355	Expeto
10.356	ExteNet Systems
10.357	Eyecom Telecommunications Group
10.358	F5 Networks
10.359	Facebook
10.360	Fairspectrum
10.361	Fairwaves
10.362	Fastback Networks (CBF Networks)
10.363	FCNT (Fujitsu Connected Technologies)/JEMS (Japan EM Solutions)
10.364	Federal Engineering
10.365	Federated Wireless
10.366	Fenix Group
10.367	Fibocom Wireless
10.368	FIH Mobile
10.369	FII (Foxconn Industrial Internet)/FHK (Fu Hua Ke) Precision Industry
10.370	Filtronic
10.371	Fingu (Wuhan Fingu Electronic Technology)
10.372	Fiplex Communications
10.373	Fishtech Group/Haystax Technology
10.374	FIT (Foxconn Interconnect Technology)/Belkin International/Linksys
10.375	Flash Networks
10.376	Flash Private Mobile Networks
10.377	Fleet Complete
10.378	Flex
10.379	Flightcell International
10.380	FLIR Systems
10.381	Flymotion
10.382	Fortinet
10.383	Four-Faith Communication Technology
10.384	Franklin Wireless
10.385	Fraunhofer FOKUS (Institute for Open Communication Systems)
10.386	Fraunhofer HHI (Heinrich Hertz Institute)
10.387	Fraunhofer IIS (Institute for Integrated Circuits)
10.388	Fraunhofer IPT (Institute for Production Technology)
10.389	FreedomFi
10.390	Frequentis
10.391	FRTek
10.392	Fujian BelFone Communications Technology
10.393	Fujikura
10.394	Fujitsu
10.395	Funk-Electronic Piciorgros
10.396	Furukawa Electric/OFS Fitel
10.397	Future Technologies Venture
10.398	G+D Mobile Security
10.399	Gamma Nu
10.400	Gapwaves
10.401	Gazprom Space Systems
10.402	GCT Semiconductor
10.403	GD (General Devices)
10.404	GE (General Electric)
10.405	Gemalto (Thales)
10.406	Gemtek Technology
10.407	Genaker (Ericsson)
10.408	General Dynamics Mission Systems
10.409	Genesis Group
10.410	GenXComm
10.411	Geotab
10.412	GeoTraq
10.413	Getac Technology Corporation
10.414	Gigabyte Technology
10.415	Gilat Satellite Networks (Comtech Telecommunications Corporation)
10.416	GlobalFoundries
10.417	Globalstar
10.418	Goodman Networks
10.419	Goodmill Systems
10.420	Google/Alphabet
10.421	Goosetown Communications
10.422	Gore (W. L. Gore & Associates)
10.423	Gosuncn Technology Group/Welink
10.424	Green Communications
10.425	Green Packet
10.426	GRENTECH
10.427	GridGears
10.428	GroupTalk
10.429	GS Lab (Great Software Laboratory)
10.430	GSI (GS Instech)/GST (GS Teletech)
10.431	GWT (Global Wireless Technologies)
10.432	H3C (Tsinghua Unigroup)
10.433	HAAS Alert
10.434	Haier
10.435	Halys
10.436	Hancom MDS
10.437	Handheld Group
10.438	Handsfree Group
10.439	Hanswell
10.440	Hanwha Techwin
10.441	HAPSMobile/AeroVironment
10.442	Harvilon (Shenzhen Harvilon Technology)
10.443	HBFEC (Hebei Far East Communication System Engineering)
10.444	HCL Technologies
10.445	Helios (Fujian Helios Technologies)
10.446	Hexagon
10.447	HFR
10.448	Highstreet Technologies
10.449	Hikvision (Hangzhou Hikvision Digital Technology)
10.450	HipLink Software
10.451	Hisense
10.452	HiSilicon Technologies (Huawei)
10.453	HISPASAT Group
10.454	Hitachi Kokusai Electric
10.455	Hitachi Vantara
10.456	HKT (PCCW)
10.457	HMD Global
10.458	HMS Networks
10.459	Hon Hai Precision Industry (Foxconn Technology Group)
10.460	Honeywell International
10.461	Hoverfly Technologies
10.462	HP
10.463	HPE (Hewlett Packard Enterprise)/Aruba Networks
10.464	HQT (Shenzhen HQT Science and Technology)
10.465	HTC Corporation
10.466	Huawei
10.467	Huber+Suhner
10.468	Hytera Communications/Sepura/Teltronic
10.469	i.safe MOBILE
10.470	IAI (Israel Aerospace Industries)/Elta Systems
10.471	IBM Corporation/Red Hat
10.472	iBwave Solutions (Corning)
10.473	Ice Group
10.474	Icom
10.475	IDEMIA
10.476	IDY Corporation
10.477	IFLY Electronics
10.478	IgniteNet (Accton Technology Corporation)
10.479	Imec
10.480	IMPTT
10.481	Indra
10.482	INET (Infrastructure Networks)
10.483	Infineon Technologies
10.484	Infinera/Coriant
10.485	InfiNet Wireless
10.486	Infinite Electronics
10.487	Infomark Corporation
10.488	Infosys
10.489	Infovista
10.490	InHand Networks
10.491	Inmarsat
10.492	Innonet
10.493	Inrico (Shenzhen Inrico Electronics)
10.494	Inseego Corporation
10.495	Inspur
10.496	Instant Connect
10.497	INSYS Microelectronics/INSYS icom
10.498	Intel Corporation
10.499	Intelsat
10.500	InterDigital
10.501	Interop Technologies
10.502	InterTalk Critical Information Systems
10.503	Intracom Telecom
10.504	Intrado Corporation
10.505	Intrepid Networks
10.506	INWIT (Infrastrutture Wireless Italiane)
10.507	IoT4Net
10.508	IoTAS (IoT & Approval Solutions)
10.509	ip.access
10.510	IPAGEON
10.511	IPITEK (Integrated Photonics Technology)
10.512	IPLOOK Networks
10.513	Iradio Electronics
10.514	Iridium Communications
10.515	ISCO International
10.516	Iskratel
10.517	IS-Wireless
10.518	Italtel (Exprivia)
10.519	ITCEN
10.520	ITRI (Industrial Technology Research Institute, Taiwan)
10.521	Jaton Technology
10.522	Jezetek (Sichuan Jiuzhou Electric Group)
10.523	Jiaxun Feihong (Beijing Jiaxun Feihong Electrical)
10.524	Jinan USR IoT Technology (Mokuai/Wenheng)
10.525	JIT (JI Technology)
10.526	JMA Wireless/PHAZR
10.527	JOUAV
10.528	JPS Interoperability Solutions
10.529	JRC (Japan Radio Company)
10.530	JSC Ingenium
10.531	Juni Global
10.532	Juniper Networks
10.533	Junkosha
10.534	Juvare
10.535	JVCKENWOOD Corporation/Zetron
10.536	Kacific Broadband Satellites Group
10.537	Kaloom
10.538	Kathrein Mobile Communication (Ericsson)
10.539	KBR
10.540	KDDI Corporation
10.541	Key Bridge Wireless
10.542	Keysight Technologies
10.543	Kiana Analytics
10.544	Kirisun Communications
10.545	Kisan Telecom
10.546	Klas Telecom
10.547	Klein Electronics
10.548	Kleos
10.549	KMW
10.550	Knightscope
10.551	KPN/KPN Critical Communications
10.552	KT Corporation
10.553	Kudelski Group
10.554	Kumu Networks
10.555	Kymeta Corporation
10.556	Kyocera Corporation
10.557	L3Harris Technologies
10.558	Landmark Dividend
10.559	Lanner Electronics
10.560	Lantronix
10.561	LCR Embedded Systems
10.562	Leenos Corporation
10.563	Leidos
10.564	Lekha Wireless Solutions
10.565	Lemko Corporation
10.566	Lenovo/Motorola Mobility
10.567	Leonardo
10.568	LG Electronics
10.569	LG Uplus
10.570	Lierda Science & Technology Group
10.571	Ligado Networks
10.572	Lime Microsystems
10.573	Lisheng Fujian Communications
10.574	LitePoint (Teradyne)
10.575	LiveU
10.576	Lociva
10.577	Lockheed Martin Corporation
10.578	LogicTree IT Solutions
10.579	Lookout
10.580	LS Mtron
10.581	LS telcom
10.582	Luceor
10.583	Lumineye
10.584	Lynk (Ubiquitilink)
10.585	M1
10.586	M4PS (Mobility 4 Public Safety)
10.587	Macom
10.588	Magister Solutions/Secapp
10.589	Marlink Group
10.590	Martin UAV
10.591	Marvell Technology Group
10.592	Matrix Electrónica/MTXM2M (Flexitron Group)
10.593	Maven Wireless
10.594	Mavenir Systems
10.595	MaxLinear
10.596	MC Technologies
10.597	MCP (Mission Critical Partners)
10.598	MEASAT Satellite Systems
10.599	MECSware
10.600	MediaTek
10.601	MegaFon
10.602	MeiG Smart Technology
10.603	Meizu
10.604	Mellanox Technologies (NVIDIA Corporation)
10.605	Mentura Group
10.606	MER Group
10.607	Metaswitch Networks (Microsoft Corporation)
10.608	Metawave Corporation
10.609	Metismake
10.610	Metro Network Services
10.611	MetTel
10.612	MHD (Muhan Digital)
10.613	MIC Nordic
10.614	MICAS
10.615	Microchip Technology/Microsemi Corporation
10.616	Microlab
10.617	Microsoft Corporation
10.618	Microwave Networks
10.619	MikroTik
10.620	Milestone Systems
10.621	MiMOMax
10.622	MitraStar Technology (Unizyx Holding Corporation)
10.623	MITRE Corporation
10.624	Mitsubishi Electric Corporation
10.625	Mobi Antenna Technologies
10.626	Mobile Mark
10.627	Mobile Tornado
10.628	Mobile Viewpoint
10.629	MobileDemand
10.630	MobileIron
10.631	MobileTek (Shanghai Mobiletek Communication)
10.632	Mobilicom
10.633	Mobilitie
10.634	Motorola Solutions
10.635	Mott MacDonald
10.636	Movandi
10.637	Moxa
10.638	MP Antenna
10.639	MTI (Microelectronics Technology, Inc.)
10.640	MTI Wireless Edge
10.641	MTN Group
10.642	MTS (Mobile TeleSystems)
10.643	Multi-Tech Systems
10.644	Murata Manufacturing
10.645	Mushroom Networks
10.646	Mutualink
10.647	MVM NET
10.648	MYT Electronics
10.649	N.A.T.
10.650	NanoSemi
10.651	Napatech
10.652	Nash Technologies
10.653	NEC Corporation
10.654	Nemergent Solutions
10.655	Nemko
10.656	Neolink Communications Technology
10.657	Neoway Technology
10.658	Neptune Mobile
10.659	Net1 International
10.660	Netas
10.661	NetCity (GEOS Telecom/GEOS Holding)
10.662	NetFoundry
10.663	Netgear
10.664	NetModule
10.665	NetMotion Software
10.666	NetNumber
10.667	NETSCOUT Systems
10.668	Neutral Connect Networks/Connectivity Wireless Solutions/Sky Connect Networks (M/C Partners)
10.669	New Postcom Equipment
10.670	NewEdge Signal Solutions
10.671	Nextivity
10.672	NextNav
10.673	Nextworks
10.674	NI (National Instruments)
10.675	NICE
10.676	NimbeLink
10.677	Node-H
10.678	Nokia
10.679	Nominet
10.680	Nordic Semiconductor
10.681	Nordic Telecom
10.682	Northrop Grumman Corporation
10.683	NPS (Northgate Public Services)/APD Communications
10.684	NTT DoCoMo
10.685	Nubia Technology (ZTE)
10.686	NuRAN Wireless/Nutaq Innovation
10.687	Nurlink Technology
10.688	NVIDIA Corporation
10.689	NXP Semiconductors
10.690	Oceus Networks
10.691	Octasic
10.692	ODN (Orbital Data Network)
10.693	OKI Electric Industry
10.694	Omnitele
10.695	Omnitronics
10.696	One2many
10.697	Onwave
10.698	Ooredoo
10.699	Openet
10.700	OPPO/Vivo/OnePlus/Realme (BBK Electronics Corporation)
10.701	Option/Crescent
10.702	Oracle Communications
10.703	Orange
10.704	Orion Labs
10.705	PacStar (Pacific Star Communications)
10.706	Palo Alto Networks
10.707	Panasonic Corporation
10.708	Panda Electronics
10.709	PanOptis
10.710	Panorama Antennas
10.711	Parallel Wireless
10.712	Parsons Corporation
10.713	PAStech
10.714	Patrocinium Systems
10.715	PCTEL
10.716	PCTEST Lab (PCTEST Engineering Laboratory)
10.717	Pei Tel Communications (Peiker)
10.718	Pelco
10.719	Pepro
10.720	Peraso Technologies
10.721	Percepto
10.722	Perspecta Labs
10.723	Phirst Technologies/xCraft Enterprises
10.724	Phluido
10.725	Picocom Technology
10.726	Pierson Wireless
10.727	Pivotal Commware
10.728	Plextek
10.729	Plover Bay Technologies (Peplink/Pepwave)
10.730	PoCStar (Shanli Tongyi Information Technology)
10.731	Polaris Networks
10.732	Polaris Wireless
10.733	PoLTE Corporation
10.734	Potevio
10.735	PRESCOM
10.736	PrioCom
10.737	Proef
10.738	Proximus
10.739	Pryme Radio Products
10.740	PT INTI (PT Industri Telekomunikasi Indonesia)
10.741	PT LEN Industri
10.742	PTI (Persistent Telecom Inc.)/NetGenuity/RIVA Networks
10.743	Publicis Sapient
10.744	Puloli
10.745	Pulsara
10.746	Pycom
10.747	Qinetiq
10.748	QLC Chain
10.749	Qorvo
10.750	QuadGen Wireless Solutions
10.751	Qualcomm
10.752	Quanta Computer/QCT (Quanta Cloud Technology)
10.753	Quantum Wireless
10.754	Quectel Wireless Solutions
10.755	Qulsar
10.756	Quortus
10.757	Qwake Technologies
10.758	RACOM Corporation
10.759	Radiall
10.760	Radio IP Software
10.761	Radisys Corporation (Reliance Industries)
10.762	RADWIN
10.763	Rafael Advanced Defense Systems
10.764	Rajant Corporation
10.765	Range Networks
10.766	Ranplan Wireless
10.767	RapidDeploy
10.768	RapidSOS
10.769	Rave Mobile Safety
10.770	Raven Aerostar
10.771	Raycap
10.772	Raytheon Technologies Corporation
10.773	Red Lion Controls (Spectris)
10.774	RED Technologies
10.775	REDCOM Laboratories/IMSWorkX
10.776	Redline Communications
10.777	RedZinc
10.778	Renesas Electronics Corporation/IDT (Integrated Device Technology)
10.779	Rescue 42/PodRunner
10.780	Responder Corp
10.781	RF Connect
10.782	RF DSP
10.783	RF Pixels
10.784	RF Window
10.785	RFI Technology Solutions
10.786	RFS (Radio Frequency Systems)
10.787	RFTech
10.788	Ribbon Communications
10.789	Rivada Networks
10.790	Robustel
10.791	Rogers Communications
10.792	Rohde & Schwarz
10.793	Rohill
10.794	Rosenberger
10.795	Royole Corporation
10.796	RSCC (Russian Satellite Communications Company)
10.797	RTX A/S
10.798	RugGear
10.799	Ruijie Networks
10.800	RunEL (Runcom)
10.801	Kontron (S&T Group)
10.802	Saab
10.803	Saankhya Labs
10.804	SAF Tehnika
10.805	Safaricom
10.806	Safe-Com Wireless
10.807	SafeMobile
10.808	SAGE SatCom (REMEC Broadband Wireless Networks)
10.809	Sagemcom
10.810	Saguna Networks
10.811	SAI Technology
10.812	SAIC (Science Applications International Corporation)
10.813	Samji Electronics
10.814	Samsung
10.815	SAMWON FA
10.816	Samyoung Celetra
10.817	Sanechips Technology (ZTE)
10.818	Sanjole
10.819	San-tron
10.820	Sapura Group
10.821	Sasken Technologies
10.822	Savox Communications
10.823	SBA Communications Corporation
10.824	Sceye
10.825	Schneider Electric
10.826	Sectra Communications
10.827	Secured Communications
10.828	Select Spectrum
10.829	Semtech
10.830	Sensorview
10.831	Senstar Corporation
10.832	Sentinel Camera Systems
10.833	Seong Ji Industrial
10.834	Seowon Intech
10.835	Sequans Communications
10.836	Sercomm Corporation
10.837	SES
10.838	SGS
10.839	Sharp Corporation/Dynabook (Foxconn)
10.840	Shenglu (Guangdong Shenglu Telecommunication)
10.841	Shentel (Shenandoah Telecommunications Company)
10.842	Shenzhen CXD Science & Technology
10.843	Shenzhen Recoda Technologies
10.844	SIAE Microelettronica/SM Optics
10.845	Sichuan InnoGence Technology
10.846	Sichuan Tianyi Comheart Telecom
10.847	Siemens
10.848	Sierra Wireless
10.849	Signalchip
10.850	Siklu Communication
10.851	Silicom SAS (France)
10.852	Simoco Wireless Solutions
10.853	Singtel/Optus
10.854	SiRRAN Communications
10.855	SITRONICS
10.856	Sivers IMA
10.857	Siyata Mobile/Uniden
10.858	SK Telecom
10.859	SK Telesys
10.860	SKY Perfect JSAT
10.861	Skyworks Solutions
10.862	SLA Corporation/ESChat
10.863	Smart Communications (PLDT)
10.864	SMART Embedded Computing (Artesyn)
10.865	Smart Mobile Labs
10.866	Smartfren
10.867	SmarTone
10.868	SoftBank Group
10.869	Softil
10.870	Soitec
10.871	SOLiD
10.872	Solidtronic
10.873	Soliton Systems
10.874	Sonim Technologies
10.875	Sony Corporation/Sony Mobile Communications
10.876	Sooktha
10.877	Southern Linc
10.878	Space Data Corporation
10.879	SpaceBridge
10.880	Spacecom
10.881	SpaceX
10.882	Spectra Group
10.883	SpectraRep
10.884	Spectronn
10.885	Spectrum Effect
10.886	Speedcast International
10.887	SPIE Group
10.888	Spirent Communications
10.889	Sporton International
10.890	SRS (Software Radio Systems)
10.891	SS7ware/YaleBTS
10.892	SSC (Shared Spectrum Company)
10.893	ST Engineering iDirect
10.894	Star Microwave
10.895	Star Solutions
10.896	StarPoint (Beijing StarPoint Technology)
10.897	STC (Saudi Telecom Company)/STC Specialized (Bravo)
10.898	Steep
10.899	STL (Sterlite Technologies Ltd)
10.900	STMicroelectronics
10.901	Stop Noise
10.902	StrattoOpencell (Digital Colony/Freshwave Group)
10.903	Streambox
10.904	StreamWIDE
10.905	Sumitomo Electric Industries
10.906	Sunrise Communications
10.907	Sunsea AIoT/SIMCom Wireless Solutions/Longsung Technology
10.908	Sunwave Communications
10.909	Supermicro (Super Micro Computer)
10.910	Suzhou Aquila Solutions (Aquila Wireless)
10.911	Swisscom/Swisscom Broadcast
10.912	Swissphone
10.913	Sylincom
10.914	Symantec Corporation (Broadcom)
10.915	Synctechno
10.916	SYRTEM
10.917	Systech Corporation
10.918	System Innovation Group
10.919	T&W (Shenzhen Gongjin Electronics)
10.920	T2M
10.921	TacSat Networks
10.922	Tait Communications
10.923	Talk-IP International
10.924	Talkpod Technology
10.925	Tampa Microwave (Thales)
10.926	Tampnet
10.927	Tango Tango
10.928	Taoglas
10.929	TASSTA
10.930	Tata Elxsi
10.931	Tatfook (Shenzhen Tatfook Technology)
10.932	TCL Communication (TCL/Alcatel/BlackBerry)
10.933	TCOM
10.934	TD Tech
10.935	TE Connectivity
10.936	Tech Mahindra
10.937	Technicolor
10.938	Tecom
10.939	Tecore Networks
10.940	TEKTELIC Communications
10.941	Telco Systems (BATM Advanced Communications)
10.942	Teldat
10.943	Tele2 Russia/SkyLink
10.944	Telecom26
10.945	Telefield
10.946	Telefónica Group
10.947	Telekom Slovenije
10.948	Telenor Group
10.949	Telent Technology Services
10.950	Telesat
10.951	Telespazio (Leonardo/Thales)
10.952	Teleste Corporation
10.953	Televate
10.954	TeleWare/PMN (Private Mobile Networks)
10.955	Telewave
10.956	Teleworld Solutions
10.957	Telia Company
10.958	Telit Communications
10.959	Tellabs
10.960	Telo Systems Corporation
10.961	Telrad Networks
10.962	Telstra
10.963	Teltonika
10.964	Telus
10.965	Teracom Group/Net1 Sweden (Netett Sverige)
10.966	Teradek
10.967	TESSCO Technologies/Ventev
10.968	Thaicom
10.969	Thales
10.970	Thundercomm Technology
10.971	TI (Texas Instruments)
10.972	Tieto Corporation
10.973	Tillman Infrastructure
10.974	TIM (Telecom Italia Mobile)
10.975	TLC Solutions
10.976	T-Mobile US/Sprint
10.977	TO21COMMS
10.978	TOKIE Solutions/Irvees Technology
10.979	Tongyu Communication
10.980	Toshiba Corporation
10.981	TowerJazz
10.982	TPL Systèmes
10.983	TransPacket
10.984	TriaSys Technologies Corporation
10.985	Triple-9
10.986	Trópico/CPqD (Center for Research and Development in Telecommunications, Brazil)
10.987	TRX Systems
10.988	TSMC (Taiwan Semiconductor Manufacturing Company)
10.989	TST Systems (Thorcom Systems/Sonic Communications/Tioga Electronic Assembly)
10.990	Tupl
10.991	Turkcell
10.992	TÜV SÜD
10.993	Twilio/CND (Core Network Dynamics)
10.994	Two Six Labs
10.995	Tyler Technologies/SceneDoc
10.996	U.S. Cellular
10.997	UANGEL
10.998	Ubicquia
10.999	Ubiwhere
10.1000	U-Blox
10.1001	Ucloudy (Shanghai Ucloudy Information Technology)
10.1002	Ufi Space
10.1003	UHP Networks (Comtech Telecommunications Corporation)
10.1004	UK Broadband/Three UK (CK Hutchison Holdings)
10.1005	UL
10.1006	Umlaut
10.1007	UNIMO Technology
10.1008	Unisoc (Tsinghua Unigroup)
10.1009	UniStrong
10.1010	URSYS
10.1011	US Digital Designs
10.1012	USI (Universal Scientific Industrial)
10.1013	Utility (Utility Associates)
10.1014	UTStarcom
10.1015	V&M (Venus & Mercury) Telecom
10.1016	V5 Systems
10.1017	Valid8
10.1018	Vanu
10.1019	Vapor IO
10.1020	Vavitel (Shenzhen Vavitel Technology)/ZG (Zhongguang Lightning Protection Technologies)
10.1021	VDI (Virginia Diodes, Inc.)
10.1022	VEON
10.1023	Verizon Communications
10.1024	Vertel
10.1025	Vertical Bridge
10.1026	Vertiv
10.1027	Verveba Telecom
10.1028	Viasat
10.1029	Viavi Solutions
10.1030	VINCI Energies/Koning & Hartman/Axians/Sysoco
10.1031	VinSmart (Vingroup)
10.1032	ViPRO Corporation
10.1033	Virtualnetcom/VNC (Virtual Network Communications)
10.1034	Vislink Technologies
10.1035	Visual Labs
10.1036	Vital (New Zealand)
10.1037	VMware
10.1038	VNL (Vihaan Networks Limited)
10.1039	Vodacom Group
10.1040	Vodafone Group
10.1041	Voentelecom
10.1042	Volta Networks
10.1043	Voxer
10.1044	VTT Technical Research Centre of Finland
10.1045	VVDN Technologies
10.1046	WAV4M
10.1047	Wave Computing/MIPS
10.1048	Wave Wireless
10.1049	Wavetel Technology
10.1050	Waycare
10.1051	WCCTV (Wireless CCTV)
10.1052	Westell Technologies
10.1053	Wewins (Shenzhen Wewins Wireless)
10.1054	WH Bence Group
10.1055	Whale Cloud Technology (Alibaba Group)
10.1056	Widelity
10.1057	WIG (Wireless Infrastructure Group)
10.1058	Wildox (Shenzhen Happy Technology)
10.1059	Wingtech Technology
10.1060	WINITECH
10.1061	Winmate Communications
10.1062	Wipro
10.1063	Wireless Technologies Finland
10.1064	Wireless Telecom Group
10.1065	WiSig Networks
10.1066	Wiwynn
10.1067	WNC (Wistron NeWeb Corporation)
10.1068	Wolfspeed (Cree)
10.1069	WooriNet
10.1070	World View
10.1071	Wouxun (Quanzhou Wouxun Electronics)
10.1072	WTL (World Telecom Labs)
10.1073	Wytec International
10.1074	XCOM/M87
10.1075	Xiamen Puxing Electronics Science & Technology
10.1076	Xiamen Sanan Integrated Circuit
10.1077	Xiaomi Corporation
10.1078	Xilinx
10.1079	Xinwei Group
10.1080	XipLink/Sevis Systems
10.1081	Yageo Corporation/Pulse Electronics
10.1082	Yahsat/Thuraya
10.1083	Yanton (Quanzhou Yanton Electronics)
10.1084	Yuge Technology (Shanghai Yuge Information Technology)
10.1085	Zain Group
10.1086	Z-Com
10.1087	Zcomax Technologies
10.1088	Zebra Technologies
10.1089	Zeetta Networks
10.1090	Zello
10.1091	ZenFi Networks
10.1092	Zepcam
10.1093	ZephyrTel/Vasona Networks
10.1094	ZeroEyes
10.1095	Zetel Solutions
10.1096	Zinwave (McWane)
10.1097	Zioncom
10.1098	Zmtel (Shanghai Zhongmi Communication Technology)
10.1099	ZTE/Caltta
10.1100	Zyxel Communications (Unizyx Holding Corporation)

11	Chapter 11: Market Sizing & Forecasts
11.1	Global Outlook for Public Safety LTE & 5G
11.2	Public Safety LTE & 5G Network Infrastructure
11.2.1	Segmentation by Submarket
11.2.1.1	RAN
11.2.1.2	Mobile Core
11.2.1.3	Backhaul & Transport
11.2.2	Segmentation by Technology Generation
11.2.2.1	LTE
11.2.2.2	5G
11.3	RAN
11.3.1	Segmentation by Air Interface Technology Generation
11.3.1.1	LTE eNBs
11.3.1.2	5G NR gNBs
11.3.2	Segmentation by Cell Size
11.3.2.1	Macrocells
11.3.2.2	Small Cells
11.3.3	Segmentation by Mobility
11.3.3.1	Fixed Base Stations
11.3.3.2	Deployable Base Stations
11.3.4	Segmentation by Deployable Form Factor
11.3.4.1	NIB (Network-in-a-Box)
11.3.4.2	Vehicular COWs (Cells-on-Wheels)
11.3.4.3	Aerial Cell Sites
11.3.4.4	Maritime Platforms
11.4	Mobile Core
11.4.1	Segmentation by Technology Generation
11.4.1.1	LTE EPC
11.4.1.2	5GC (5G Core)
11.5	Backhaul & Transport
11.5.1	Segmentation by RAN Air Interface Generation
11.5.1.1	LTE
11.5.1.2	5G NR
11.5.2	Segmentation by Transmission Medium
11.5.2.1	Fiber & Wireline
11.5.2.2	Microwave
11.5.2.3	Satellite
11.6	Public Safety LTE & 5G Terminal Equipment
11.6.1	Segmentation by Air Interface Technology Generation
11.6.1.1	LTE
11.6.1.2	5G NR
11.6.2	Segmentation by Form Factor
11.6.2.1	Smartphones & Handportable Terminals
11.6.2.2	Mobile & Vehicular Routers
11.6.2.3	Fixed CPEs
11.6.2.4	Tablets & Notebook PCs
11.6.2.5	Smart Wearables
11.6.2.6	IoT Modules, Dongles & Others
11.7	Public Safety LTE & 5G Subscriptions/Service Revenue
11.7.1	Segmentation by Air Interface Technology Generation
11.7.1.1	LTE
11.7.1.2	5G NR
11.7.2	Segmentation by Network Type
11.7.2.1	Dedicated & Hybrid Commercial-Private Networks
11.7.2.2	Secure MVNO Networks
11.7.2.3	Commercial Mobile Networks
11.8	Public Safety LTE & 5G Systems Integration & Management Solutions
11.8.1	Segmentation by Submarket
11.8.1.1	Network Integration & Testing
11.8.1.2	Device Management & User Services
11.8.1.3	Managed Services, Operations & Maintenance
11.8.1.4	Cybersecurity
11.9	Public Safety Broadband Applications
11.9.1	Segmentation by Submarket
11.9.1.1	Mission-Critical Voice & Group Communications
11.9.1.2	Real-Time Video Transmission
11.9.1.3	Messaging, File Transfer & Presence Services
11.9.1.4	Mobile Office & Field Applications
11.9.1.5	Location Services & Mapping
11.9.1.6	Situational Awareness
11.9.1.7	Command & Control
11.9.1.8	AR/VR/MR (Augmented, Virtual & Mixed Reality)
11.10	Regional Outlook
11.10.1	Public Safety LTE & 5G Network Infrastructure
11.10.1.1	RAN
11.10.1.2	Mobile Core
11.10.1.3	Backhaul & Transport
11.10.2	Public Safety LTE & 5G Terminal Equipment
11.10.3	Public Safety LTE & 5G Subscriptions/Service Revenue
11.10.4	Public Safety LTE & 5G Systems Integration & Management Solutions
11.10.5	Public Safety Broadband Applications
11.11	North America
11.11.1	Public Safety LTE & 5G Network Infrastructure
11.11.1.1	RAN
11.11.1.2	Mobile Core
11.11.1.3	Backhaul & Transport
11.11.2	Public Safety LTE & 5G Terminal Equipment
11.11.3	Public Safety LTE & 5G Subscriptions/Service Revenue
11.11.4	Public Safety LTE & 5G Systems Integration & Management Solutions
11.11.5	Public Safety Broadband Applications
11.12	Asia Pacific
11.12.1	Public Safety LTE & 5G Network Infrastructure
11.12.1.1	RAN
11.12.1.2	Mobile Core
11.12.1.3	Backhaul & Transport
11.12.2	Public Safety LTE & 5G Terminal Equipment
11.12.3	Public Safety LTE & 5G Subscriptions/Service Revenue
11.12.4	Public Safety LTE & 5G Systems Integration & Management Solutions
11.12.5	Public Safety Broadband Applications
11.13	Europe
11.13.1	Public Safety LTE & 5G Network Infrastructure
11.13.1.1	RAN
11.13.1.2	Mobile Core
11.13.1.3	Backhaul & Transport
11.13.2	Public Safety LTE & 5G Terminal Equipment
11.13.3	Public Safety LTE & 5G Subscriptions/Service Revenue
11.13.4	Public Safety LTE & 5G Systems Integration & Management Solutions
11.13.5	Public Safety Broadband Applications
11.14	Middle East & Africa
11.14.1	Public Safety LTE & 5G Network Infrastructure
11.14.1.1	RAN
11.14.1.2	Mobile Core
11.14.1.3	Backhaul & Transport
11.14.2	Public Safety LTE & 5G Terminal Equipment
11.14.3	Public Safety LTE & 5G Subscriptions/Service Revenue
11.14.4	Public Safety LTE & 5G Systems Integration & Management Solutions
11.14.5	Public Safety Broadband Applications
11.15	Latin & Central America
11.15.1	Public Safety LTE & 5G Network Infrastructure
11.15.1.1	RAN
11.15.1.2	Mobile Core
11.15.1.3	Backhaul & Transport
11.15.2	Public Safety LTE & 5G Terminal Equipment
11.15.3	Public Safety LTE & 5G Subscriptions/Service Revenue
11.15.4	Public Safety LTE & 5G Systems Integration & Management Solutions
11.15.5	Public Safety Broadband Applications

12	Chapter 12: Conclusion & Strategic Recommendations
12.1	Why is the Market Poised to Grow?
12.2	Competitive Industry Landscape: Acquisitions, Alliances & Consolidation
12.2.1	LTE/5G Network Infrastructure & Device Suppliers
12.2.2	Public Safety & Critical Communications Industry
12.2.3	3GPP-LMR Vendor Alliances
12.3	Standardization & Commercial Availability of Key Enabling Technologies
12.3.1	MCPTT, MCVideo & MCData Services
12.3.2	IOPS
12.3.3	ProSe
12.3.4	HPUE
12.3.5	Other Technologies
12.4	Interim Solutions for Off-Network Communications
12.5	Continued Investments in Dedicated, Hybrid Commercial-Private & MVNO Broadband Networks
12.6	Developing Countries: Leapfrogging Directly to LTE-Based Critical Communications Networks
12.7	Continued Use of Digital Radio Systems in the Developed World
12.8	Growing Adoption of Deployable LTE & 5G-Ready Systems
12.9	Which Frequency Bands Dominate the Market?
12.10	International Roaming for Cross-Border Policing & Emergency Response
12.11	The Role of Commercial Mobile Operators
12.11.1	Broadband Access Over Commercial Mobile Networks
12.11.2	Carrier-Integrated PoC (PTT-over-Cellular) and Dispatch Solutions
12.11.3	Operator Built & Managed Nationwide Public Safety Broadband Networks
12.11.4	Private MVNO Arrangements
12.11.5	Priority & Preemption Service Offerings
12.11.6	Operator Branded LTE/5G Critical Communications Platforms
12.11.7	Dedicated Access to Licensed Spectrum
12.11.8	BYON (Build-Your-Own-Network) Solutions
12.11.9	Private LTE/5G Data Processing With Edge Computing
12.11.10	Logical Slicing of Mobile Operator Network Assets
12.12	Critical Communications Service Providers: Becoming Secure MVNOs
12.13	TCO Comparison: Independent Public Safety Broadband Networks vs. PPPs (Public-Private Partnerships)
12.14	Ensuring the Economic Viability of Public Safety Broadband Networks
12.14.1	Monetizing Unused Network Capacity Through Secondary Commercial Users
12.14.2	Industry Solutions for Other Critical Communications User Groups
12.14.3	Dynamic Spectrum Sharing with Tiered-Priority Access
12.15	The Benefits of 5G for Public Safety Communications
12.16	4.9 GHz 5G NR Systems for Incident Scene Management
12.17	Public Safety Application Sector Trends
12.17.1	Mission-Critical Group Communications
12.17.2	Fixed, Mobile & Aerial Video Surveillance
12.17.3	Situational Awareness & Common Operating Picture
12.17.4	Data-Intensive Field Applications for First Responders
12.17.5	The IoLST (Internet of Life Saving Things)
12.17.6	5G-Era Applications: UHD Video, AR/VR/MR, Drones & Robotics
12.17.7	Public Safety Application Stores & Developer Programs
12.17.8	5G Labs for First Responders
12.18	Strategic Recommendations
12.18.1	Public Safety & Government Agencies
12.18.2	LTE/5G Infrastructure, Device & Chipset Suppliers
12.18.3	LMR Vendors & System Integrators
12.18.4	Commercial & Private Mobile Operators

List of Figures
	Figure 1: Global LMR Subscriptions by Technology: 2020 – 2030 (Millions)
	Figure 2: Global Analog LMR Subscriptions: 2020 – 2030 (Millions)
	Figure 3: Global DMR Subscriptions: 2020 – 2030 (Millions)
	Figure 4: Global dPMR, NXDN & PDT Subscriptions: 2020 – 2030 (Millions)
	Figure 5: Global P25 Subscriptions: 2020 – 2030 (Millions)
	Figure 6: Global TETRA Subscriptions: 2020 – 2030 (Millions)
	Figure 7: Global Tetrapol Subscriptions: 2020 – 2030 (Millions)
	Figure 8: Global Other LMR Technology Subscriptions: 2020 – 2030 (Millions)
	Figure 9: LTE Connection Speed Compared to 3G & Wi-Fi Networks (Mbps)
	Figure 10: Global LTE & 5G Subscriptions: 2020 – 2030 (Millions)
	Figure 11: 5G Performance Requirements
	Figure 12: Public Safety Communications Over Commercial LTE/5G Networks
	Figure 13: Independent Private LTE/5G Network
	Figure 14: Managed Private LTE/5G Network
	Figure 15: Shared Core Private LTE/5G Network
	Figure 16: Hybrid Commercial-Private LTE/5G Network
	Figure 17: Secure MVNO Network With a Private Mobile Core
	Figure 18: Public Safety LTE & 5G Network Architecture
	Figure 19: 5G NR-RAN Architecture
	Figure 20: 5GC (5G Core) Service-Based Architecture
	Figure 21: Sidelink Air Interface for ProSe (Proximity Services)
	Figure 22: Transition From Normal Backhaul Connectivity to IOPS
	Figure 23: Telefónica’s Portable LTE NIB (Network-in-Box) System
	Figure 24: Use Cases of eMTC and NB-IoT Technologies
	Figure 25: E2E (End-to-End) Security in Public Safety LTE & 5G Networks
	Figure 26: Conceptual Architecture for Network Slicing in 5G Networks
	Figure 27: NFV (Network Functions Virtualization) Concept
	Figure 28: C-RAN (Centralized RAN) Architecture
	Figure 29: FirstNet Deployment Timeline
	Figure 30: FirstNet Flying COW (Cell-on-Wheels)
	Figure 31: United Kingdom’s ESN Deployment Timeline
	Figure 32: ESN Product Functionality & Release Dates
	Figure 33: South Korea’s Safe-Net Deployment Timeline
	Figure 34: Royal Thai Police’s LTE Network Deployment Timeline
	Figure 35: Deployable LTE Platform & Terminals for the Tham Luang Cave Rescue
	Figure 36: France’s PCSTORM & RRF Deployment Timeline
	Figure 37: Finland’s VIRVE 2.0 Deployment Timeline
	Figure 38: PrioCom’s Critical Communications MVNO Solution
	Figure 39: User Segments and Applications of the RESCAN LTE Network
	Figure 40: Key Architectural Elements of the Rivas Vaciamadrid Smart eLTE Network
	Figure 41: Shanghai Police Convergent Command Center
	Figure 42: Swisscom’s Public Safety LTE Platform
	Figure 43: Telstra LANES for Emergency Services
	Figure 44: Thales’ Eiji Secure MVNO Service
	Figure 45: TWFRS’ (Tyne and Wear Fire and Rescue Service) LTE-Equipped Command & Control Vehicle
	Figure 46: ETSI’s Critical Communications System Reference Model
	Figure 47: SpiceNet (Standardized PPDR Interoperable Communication Service for Europe) Reference Architecture
	Figure 48: Future Roadmap for Public Safety LTE & 5G: 2020 – 2030
	Figure 49: Public Safety LTE & 5G Value Chain
	Figure 50: Global Public Safety LTE & 5G Network Infrastructure Revenue: 2020 – 2030 ($ Million)
	Figure 51: Global Public Safety LTE & 5G Network Infrastructure Revenue by Submarket: 2020 – 2030 ($ Million)
	Figure 52: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2020 – 2030
	Figure 53: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 54: Global Public Safety LTE & 5G Mobile Core Revenue: 2020 – 2030 ($ Million)
	Figure 55: Global Public Safety LTE & 5G Backhaul & Transport Revenue: 2020 – 2030 ($ Million)
	Figure 56: Global Public Safety LTE & 5G Network Infrastructure Revenue by Technology Generation: 2020 – 2030 ($ Million)
	Figure 57: Global Public Safety LTE Network Infrastructure Revenue: 2020 – 2030 ($ Million)
	Figure 58: Global Public Safety 5G Network Infrastructure Revenue: 2021 – 2030 ($ Million)
	Figure 59: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments by Air Interface Technology Generation: 2020 – 2030
	Figure 60: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue by Air Interface Technology Generation: 2020 – 2030 ($ Million)
	Figure 61: Global Public Safety LTE Base Station (eNB) Unit Shipments: 2020 – 2030
	Figure 62: Global Public Safety LTE Base Station (eNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 63: Global Public Safety 5G NR Base Station (gNB) Unit Shipments: 2021 – 2030
	Figure 64: Global Public Safety 5G NR Base Station (gNB) Unit Shipment Revenue: 2021 – 2030 ($ Million)
	Figure 65: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments by Cell Size: 2020 – 2030
	Figure 66: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue by Cell Size: 2020 – 2030 ($ Million)
	Figure 67: Global Public Safety LTE & 5G Macrocell Base Station (eNB/gNB) Unit Shipments: 2020 – 2030
	Figure 68: Global Public Safety LTE & 5G Macrocell Base Station (eNB/gNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 69: Global Public Safety LTE & 5G Small Cell Base Station (eNB/gNB) Unit Shipments: 2020 – 2030
	Figure 70: Global Public Safety LTE & 5G Small Cell Base Station (eNB/gNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 71: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments by Mobility: 2020 – 2030
	Figure 72: Global Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue by Mobility: 2020 – 2030 ($ Million)
	Figure 73: Global Fixed Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2020 – 2030
	Figure 74: Global Fixed Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 75: Global Deployable Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2020 – 2030
	Figure 76: Global Deployable Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 77: Global Deployable Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments by Form Factor: 2020 – 2030
	Figure 78: Global Deployable Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue by Form Factor: 2020 – 2030 ($ Million)
	Figure 79: Global Public Safety LTE & 5G NIB (Network-in-a-Box) Unit Shipments: 2020 – 2030
	Figure 80: Global Public Safety LTE & 5G NIB (Network-in-a-Box) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 81: Global Public Safety LTE & 5G Vehicular COW (Cell-on-Wheels) Unit Shipments: 2020 – 2030
	Figure 82: Global Public Safety LTE & 5G Vehicular COW (Cell-on-Wheels) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 83: Global Public Safety LTE & 5G Aerial Cell Site Unit Shipments: 2020 – 2030
	Figure 84: Global Public Safety LTE & 5G Aerial Cell Site Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 85: Global Public Safety LTE & 5G Maritime Cellular Platform Unit Shipments: 2020 – 2030
	Figure 86: Global Public Safety LTE & 5G Maritime Cellular Platform Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 87: Global Public Safety LTE & 5G Mobile Core Revenue by Technology Generation: 2020 – 2030 ($ Million)
	Figure 88: Global Public Safety LTE EPC Revenue: 2020 – 2030 ($ Million)
	Figure 89: Global Public Safety 5GC (5G Core) Revenue: 2021 – 2030 ($ Million)
	Figure 90: Global Public Safety LTE & 5G Backhaul & Transport Revenue by Air Interface Technology Generation: 2020 – 2030
	Figure 91: Global Public Safety LTE Backhaul & Transport Revenue: 2020 – 2030 ($ Million)
	Figure 92: Global Public Safety 5G NR Backhaul & Transport Revenue: 2021 – 2030 ($ Million)
	Figure 93: Global Public Safety LTE & 5G Backhaul & Transport Revenue by Transmission Medium: 2020 – 2030 ($ Million)
	Figure 94: Global Public Safety LTE & 5G Fiber/Wireline-Based Backhaul & Transport Revenue: 2020 – 2030 ($ Million)
	Figure 95: Global Public Safety LTE & 5G Microwave-Based Backhaul & Transport Revenue: 2020 – 2030 ($ Million)
	Figure 96: Global Public Safety LTE & 5G Satellite-Based Backhaul & Transport Revenue: 2020 – 2030 ($ Million)
	Figure 97: Global Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 98: Global Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 99: Global Public Safety LTE & 5G Terminal Equipment Unit Shipments by Air Interface Technology Generation: 2020 – 2030 (Thousands of Units)
	Figure 100: Global Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue by Air Interface Technology Generation: 2020 – 2030 ($ Million)
	Figure 101: Global Public Safety LTE Terminal Equipment Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 102: Global Public Safety LTE Terminal Equipment Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 103: Global Public Safety 5G NR Terminal Equipment Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 104: Global Public Safety 5G NR Terminal Equipment Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 105: Global Public Safety LTE & 5G Terminal Equipment Unit Shipments by Form Factor: 2020 – 2030 (Thousands of Units)
	Figure 106: Global Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue by Form Factor: 2020 – 2030 ($ Million)
	Figure 107: Global Public Safety LTE & 5G Smartphone/Handportable Terminal Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 108: Global Public Safety LTE & 5G Smartphone/Handportable Terminal Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 109: Global Public Safety LTE& 5G Mobile/Vehicular Router Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 110: Global Public Safety LTE & 5G Mobile/Vehicular Router Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 111: Global Public Safety LTE & 5G Fixed CPE Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 112: Global Public Safety LTE & 5G Fixed CPE Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 113: Global Public Safety LTE & 5G Tablet/Notebook PC Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 114: Global Public Safety LTE & 5G Tablet/Notebook PC Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 115: Global Public Safety LTE & 5G Smart Wearable Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 116: Global Public Safety LTE & 5G Smart Wearable Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 117: Global Public Safety LTE & 5G IoT Module, Dongle & Other Device Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 118: Global Public Safety LTE & 5G IoT Module, Dongle & Other Device Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 119: Global Public Safety LTE & 5G Subscriptions: 2020 – 2030 (Millions)
	Figure 120: Global Public Safety LTE & 5G Service Revenue: 2020 – 2030 ($ Million)
	Figure 121: Global Public Safety LTE & 5G Subscriptions by Air Interface Technology Generation: 2020 – 2030 (Millions)
	Figure 122: Global Public Safety LTE & 5G Service Revenue by Air Interface Technology Generation: 2020 – 2030 ($ Million)
	Figure 123: Global Public Safety LTE Subscriptions: 2020 – 2030 (Millions)
	Figure 124: Global Public Safety LTE Service Revenue: 2020 – 2030 ($ Million)
	Figure 125: Global Public Safety 5G NR Subscriptions: 2020 – 2030 (Millions)
	Figure 126: Global Public Safety 5G NR Service Revenue: 2020 – 2030 ($ Million)
	Figure 127: Global Public Safety LTE & 5G Subscriptions by Network Type: 2020 – 2030 (Millions)
	Figure 128: Global Public Safety LTE & 5G Service Revenue by Network Type: 2020 – 2030 ($ Million)
	Figure 129: Global Public Safety LTE & 5G Subscriptions Over Dedicated & Hybrid Commercial-Private Networks: 2020 – 2030 (Millions)
	Figure 130: Global Public Safety LTE & 5G Service Revenue Over Dedicated & Hybrid Commercial-Private Networks: 2020 – 2030 ($ Million)
	Figure 131: Global Public Safety LTE & 5G Subscriptions Over Secure MVNO Networks: 2020 – 2030 (Millions)
	Figure 132: Global Public Safety LTE & 5G Service Revenue Over Secure MVNO Networks: 2020 – 2030 ($ Million)
	Figure 133: Global Public Safety LTE & 5G Subscriptions Over Commercial Mobile Networks: 2020 – 2030 (Millions)
	Figure 134: Global Public Safety LTE & 5G Service Revenue Over Commercial Mobile Networks: 2020 – 2030 ($ Million)
	Figure 135: Global Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2020 – 2030 ($ Million)
	Figure 136: Global Public Safety LTE & 5G Systems Integration & Management Solutions Revenue by Submarket: 2020 – 2030 ($ Million)
	Figure 137: Global Public Safety LTE & 5G Network Integration & Testing Revenue: 2020 – 2030 ($ Million)
	Figure 138: Global Public Safety LTE & 5G Device Management & User Services Revenue: 2020 – 2030 ($ Million)
	Figure 139: Global Public Safety LTE & 5G Managed Services, Operations & Maintenance Revenue: 2020 – 2030 ($ Million)
	Figure 140: Global Public Safety LTE & 5G Cybersecurity Revenue: 2020 – 2030 ($ Million)
	Figure 141: Global Public Safety Broadband Applications Revenue: 2020 – 2030 ($ Million)
	Figure 142: Global Public Safety Broadband Applications Revenue by Submarket: 2020 – 2030 ($ Million)
	Figure 143: Global Mission-Critical Voice & Group Communications Revenue for Public Safety Broadband: 2020 – 2030 ($ Million)
	Figure 144: Global Real-Time Video Transmission Revenue for Public Safety Broadband: 2020 – 2030 ($ Million)
	Figure 145: Global Messaging, File Transfer & Presence Services Revenue for Public Safety Broadband: 2020 – 2030 ($ Million)
	Figure 146: Global Mobile Office & Field Applications Revenue for Public Safety Broadband: 2020 – 2030 ($ Million)
	Figure 147: Global Location Services & Mapping Revenue for Public Safety Broadband: 2020 – 2030 ($ Million)
	Figure 148: Global Situational Awareness Applications Revenue for Public Safety Broadband: 2020 – 2030 ($ Million)
	Figure 149: Global Command & Control Applications Revenue for Public Safety Broadband: 2020 – 2030 ($ Million)
	Figure 150: Global AR/VR/MR (Augmented, Virtual & Mixed Reality) Revenue for Public Safety Broadband: 2020 – 2030 ($ Million)
	Figure 151: Public Safety LTE & 5G Network Infrastructure Revenue by Region: 2020 – 2030 ($ Million)
	Figure 152: Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments by Region: 2020 – 2030
	Figure 153: Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue by Region: 2020 – 2030 ($ Million)
	Figure 154: Public Safety LTE & 5G Mobile Core Revenue by Region: 2020 – 2030 ($ Million)
	Figure 155: Public Safety LTE & 5G Backhaul & Transport Revenue by Region: 2020 – 2030 ($ Million)
	Figure 156: Public Safety LTE & 5G Terminal Equipment Unit Shipments by Region: 2020 – 2030 (Thousands of Units)
	Figure 157: Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue by Region: 2020 – 2030 ($ Million)
	Figure 158: Public Safety LTE & 5G Subscriptions by Region: 2020 – 2030 (Millions)
	Figure 159: Public Safety LTE & 5G Service Revenue by Region: 2020 – 2030 ($ Million)
	Figure 160: Public Safety LTE & 5G Systems Integration & Management Solutions Revenue by Region: 2020 – 2030 ($ Million)
	Figure 161: Public Safety Broadband Applications Revenue by Region: 2020 – 2030 ($ Million)
	Figure 162: North America Public Safety LTE & 5G Network Infrastructure Revenue: 2020 – 2030 ($ Million)
	Figure 163: North America Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2020 – 2030
	Figure 164: North America Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 165: North America Public Safety LTE & 5G Mobile Core Revenue: 2020 – 2030 ($ Million)
	Figure 166: North America Public Safety LTE & 5G Backhaul & Transport Revenue: 2020 – 2030 ($ Million)
	Figure 167: North America Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 168: North America Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 169: North America Public Safety LTE & 5G Subscriptions: 2020 – 2030 (Millions)
	Figure 170: North America Public Safety LTE & 5G Service Revenue: 2020 – 2030 ($ Million)
	Figure 171: North America Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2020 – 2030 ($ Million)
	Figure 172: North America Public Safety Broadband Applications Revenue: 2020 – 2030 ($ Million)
	Figure 173: Asia Pacific Public Safety LTE & 5G Network Infrastructure Revenue: 2020 – 2030 ($ Million)
	Figure 174: Asia Pacific Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2020 – 2030
	Figure 175: Asia Pacific Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 176: Asia Pacific Public Safety LTE & 5G Mobile Core Revenue: 2020 – 2030 ($ Million)
	Figure 177: Asia Pacific Public Safety LTE & 5G Backhaul & Transport Revenue: 2020 – 2030 ($ Million)
	Figure 178: Asia Pacific Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 179: Asia Pacific Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 180: Asia Pacific Public Safety LTE & 5G Subscriptions: 2020 – 2030 (Millions)
	Figure 181: Asia Pacific Public Safety LTE & 5G Service Revenue: 2020 – 2030 ($ Million)
	Figure 182: Asia Pacific Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2020 – 2030 ($ Million)
	Figure 183: Asia Pacific Public Safety Broadband Applications Revenue: 2020 – 2030 ($ Million)
	Figure 184: Europe Public Safety LTE & 5G Network Infrastructure Revenue: 2020 – 2030 ($ Million)
	Figure 185: Europe Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2020 – 2030
	Figure 186: Europe Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 187: Europe Public Safety LTE & 5G Mobile Core Revenue: 2020 – 2030 ($ Million)
	Figure 188: Europe Public Safety LTE & 5G Backhaul & Transport Revenue: 2020 – 2030 ($ Million)
	Figure 189: Europe Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 190: Europe Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 191: Europe Public Safety LTE & 5G Subscriptions: 2020 – 2030 (Millions)
	Figure 192: Europe Public Safety LTE & 5G Service Revenue: 2020 – 2030 ($ Million)
	Figure 193: Europe Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2020 – 2030 ($ Million)
	Figure 194: Europe Public Safety Broadband Applications Revenue: 2020 – 2030 ($ Million)
	Figure 195: Middle East & Africa Public Safety LTE & 5G Network Infrastructure Revenue: 2020 – 2030 ($ Million)
	Figure 196: Middle East & Africa Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2020 – 2030
	Figure 197: Middle East & Africa Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 198: Middle East & Africa Public Safety LTE & 5G Mobile Core Revenue: 2020 – 2030 ($ Million)
	Figure 199: Middle East & Africa Public Safety LTE & 5G Backhaul & Transport Revenue: 2020 – 2030 ($ Million)
	Figure 200: Middle East & Africa Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 201: Middle East & Africa Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 202: Middle East & Africa Public Safety LTE & 5G Subscriptions: 2020 – 2030 (Millions)
	Figure 203: Middle East & Africa Public Safety LTE & 5G Service Revenue: 2020 – 2030 ($ Million)
	Figure 204: Middle East & Africa Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2020 – 2030 ($ Million)
	Figure 205: Middle East & Africa Public Safety Broadband Applications Revenue: 2020 – 2030 ($ Million)
	Figure 206: Latin & Central America Public Safety LTE & 5G Network Infrastructure Revenue: 2020 – 2030 ($ Million)
	Figure 207: Latin & Central America Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipments: 2020 – 2030
	Figure 208: Latin & Central America Public Safety LTE & 5G Base Station (eNB/gNB) Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 209: Latin & Central America Public Safety LTE & 5G Mobile Core Revenue: 2020 – 2030 ($ Million)
	Figure 210: Latin & Central America Public Safety LTE & 5G Backhaul & Transport Revenue: 2020 – 2030 ($ Million)
	Figure 211: Latin & Central America Public Safety LTE & 5G Terminal Equipment Unit Shipments: 2020 – 2030 (Thousands of Units)
	Figure 212: Latin & Central America Public Safety LTE & 5G Terminal Equipment Unit Shipment Revenue: 2020 – 2030 ($ Million)
	Figure 213: Latin & Central America Public Safety LTE & 5G Subscriptions: 2020 – 2030 (Millions)
	Figure 214: Latin & Central America Public Safety LTE & 5G Service Revenue: 2020 – 2030 ($ Million)
	Figure 215: Latin & Central America Public Safety LTE & 5G Systems Integration & Management Solutions Revenue: 2020 – 2030 ($ Million)
	Figure 216: Latin & Central America Public Safety Broadband Applications Revenue: 2020 – 2030 ($ Million)
	Figure 217: Distribution of Public Safety LTE/5G Engagements by Frequency Band: Q2’2020 (%)
	Figure 218: TCO Comparison Between Fully-Independent LTE/5G Networks & PPPs (Public-Private Partnerships)

The Public Safety LTE & 5G Market: 2020 – 2030 – Opportunities, Challenges, Strategies & Forecasts

Description

Public Safety LTE & 5G Market

Topics Covered

Forecast Segmentation

Key Questions Answered

Key Findings

Additional information

Table of Contents

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