COVID-19: Potential impact on The Public Safety LTE & Mobile Broadband Market: 2017 – 2030 – Opportunities, Challenges, Strategies & Forecasts

Until recently, LTE has predominantly been considered a supplementary mobile broadband technology in the public safety sector, to provide high-bandwidth data applications that cannot be delivered over existing narrowband LMR (Land Mobile Radio) systems. However, with the standardization of capabilities such as MCPTT (Mission-Critical PTT) by the 3GPP, LTE is increasingly being viewed as an all-inclusive critical communications platform for the delivery of multiple mission-critical services ranging from PTT group communications to real-time video surveillance.

A number of dedicated public safety LTE networks are already operational across the globe, ranging from nationwide systems in the oil-rich GCC (Gulf Cooperation Council) region to citywide networks in Spain, China, Pakistan, Laos and Kenya. Among other notable engagements, several “”early builder”” networks are operational in the United States – that will subsequently merge with the wider FirstNet nationwide system; early pilot LTE networks for the Sate-Net program are in the process of being commercialized in South Korea; and Canada is beginning to see its first dedicated LTE network deployments, starting with the Halton Regional Police Service.

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However, the use of LTE in the public safety sector is not restricted to dedicated networks alone. For example, the United Kingdom Home Office is in the process of deploying an ESN (Emergency Services Network) that will use British mobile operator EE’s commercial LTE RAN and a dedicated mobile core to eventually replace the country’s existing nationwide TETRA system. The secure MVNO (Mobile Virtual Network Operator) model is already being used in multiple European countries, albeit at a smaller scale – to complement existing TETRA networks with broadband capabilities. In addition, this approach also beginning to gain traction in other parts of the world, such as Mexico.

Driven by demand for both dedicated and secure MVNO networks, SNS Research estimates that annual investments in public safety LTE infrastructure will surpass $800 Million by the end of 2017, supporting ongoing deployments in multiple frequency bands across the 400/450 MHz, 700 MHz, 800 MHz, and higher frequency ranges. The market – which includes base stations (eNBs), mobile core and transport network equipment – is further expected to grow at a CAGR of nearly 45% over the next three years. By 2020, these infrastructure investments will be complemented by up to 3.8 Million LTE device shipments, ranging from smartphones and ruggedized handheld terminals to vehicular routers and IoT modules.

The “Public Safety LTE & Mobile Broadband Market: 2017 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents an in-depth assessment of the global public safety LTE market, besides touching upon the wider LMR and mobile broadband industries. In addition to covering the business case, market drivers, challenges, enabling technologies, applications, key trends, standardization, spectrum availability/allocation, regulatory landscape, deployment case studies, opportunities, future roadmap, value chain, ecosystem player profiles and strategies for public safety LTE, the report presents comprehensive forecasts for mobile broadband, LMR, and public safety LTE subscriptions from 2017 till 2030. Also covered are unit shipment and revenue forecasts for public safety LTE infrastructure, devices, integration services and management solutions. In addition, the report tracks public safety LTE service revenues, over both private and commercial networks.

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 190 global public safety LTE engagements – as of Q4’2017.

Topics Covered

The report covers the following topics:

Business case for public safety LTE and mobile broadband including market drivers, barriers, deployment models, economics, and funding strategies
LTE network architecture and key elements comprising devices, RAN, mobile core (EPC, policy and application functions), and transport networks
Key enabling technologies including group communications, MCPTT, ProSe (Proximity Services), IOPS (Isolated E-UTRAN operation for Public Safety), deployable LTE systems, HPUE (High-Power User Equipment), QPP (QoS, Priority & Preemption), and end-to-end security
Public safety LTE application usage including mission-critical voice, mobile video, situational awareness, aerial surveillance, bandwidth-intensive field data applications, and emerging applications such as AR (Augmented Reality)
Case studies of over 20 public safety LTE engagements worldwide, and analysis of large-scale nationwide projects including FirstNet in the United States, ESN in the United Kingdom, and Safe-Net in South Korea
Opportunities for commercial mobile operators including spectrum leasing, priority service offerings, BYON (Build Your Own Network) platforms, and operator-branded public safety LTE platforms
Spectrum availability and allocation for public safety LTE across the global, regional and national regulatory domains
Standardization, regulatory and collaborative initiatives
Industry roadmap and value chain
Profiles and strategies of over 570 ecosystem players including LTE infrastructure & device OEMs, public safety system integrators, and application specialists
Exclusive interview transcripts from 11 ecosystem players across the public safety LTE value chain: DSB (Directorate for Civil Protection, Norway), Ericsson, Airbus Defence and Space, Harris Corporation, CND (Core Network Dynamics), Bittium, Sepura, Sierra Wireless, Sonim Technologies, Kodiak Networks, and Soliton Systems
Strategic recommendations for LMR equipment suppliers, public safety system integrators, LTE infrastructure, device & chipset suppliers, public safety agencies & stakeholders, and commercial & private mobile operators
Market analysis and forecasts from 2017 till 2030

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Forecast Segmentation

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

Public Safety LTE Infrastructure

Submarkets

RAN (Radio Access Network)
Mobile Core (EPC, Policy & Application Functions)
Mobile Backhaul & Transport
RAN Base Station (eNB) Mobility Categories

Fixed Base Stations
Deployable Base Stations
RAN Base Station (eNB) Cell Size Categories

Macrocells
Small Cells
Deployable RAN Base Station (eNB) Form Factor Categories

NIB (Network-in-a-Box)
Vehicular Platforms
Airborne Platforms
Maritime Platforms
Mobile Backhaul & Transport Network Technology Categories

Fiber & Wireline
Microwave
Satellite
Public Safety LTE Management & Integration Solutions

Submarkets

Network Integration & Testing
Device Management & User Services
Managed Services, Operations & Maintenance
Cybersecurity
Public Safety LTE Devices

Submarkets

Private LTE
Commercial LTE
Form Factor Categories

Smartphones & Handportable Terminals
Vehicle-Mounted Routers & Terminals
Stationary CPEs
Tablets & Notebook PCs
USB Dongles, Embedded IoT Modules & Others
Public Safety LTE Subscriptions & Service Revenue

Submarkets

Private LTE
Commercial LTE
Public Safety Broadband over Private Mobile Networks

Submarkets

Private LTE
Private WiMAX
Public Safety Broadband Subscriptions over Commercial Mobile Networks

Submarkets

3G
WiMAX
LTE
Mobile Broadband Subscriptions

Submarkets

3G
WiMAX
LTE
5G NR (New Radio)
LMR Subscriptions

Submarkets

Analog
DMR
dPMR, NXDN & PDT
P25
TETRA
Tetrapol
Others
LMR Narrowband Data Subscriptions

Submarkets

P25 Phase 1
P25 Phase 2
TETRA
TEDS
Tetrapol
Others
Public Safety LTE Applications

Submarkets

Mission-Critical HD Voice & Group Communications
Video & High-Resolution Imagery
Messaging & Presence Services
Secure Mobile Broadband Access
Location Services & Mapping
Enhanced CAD (Computer Aided Dispatching)
Situational Awareness
Telemetry, Control and Remote Diagnostics
AR (Augmented Reality) & Emerging Applications
Regional Segmentation

The following regional markets are covered:

Asia Pacific
Eastern Europe
Latin & Central America
Middle East & Africa
North America
Western Europe
Key Questions Answered

The report provides answers to the following key questions:

How big is the public safety LTE opportunity?
What trends, challenges and barriers are influencing its growth?
How is the market evolving by segment and region?
What will the market size be in 2020 and at what rate will it grow?
Which regions and submarkets will see the highest percentage of growth?
How does standardization impact the adoption of LTE for public safety?
What is the status of dedicated public safety LTE networks and secure MVNO offerings across the globe?
When will the public safety sector witness the large-scale commercialization of key enabling technologies such as MCPTT, ProSe, IOPS, and HPUE?
What opportunities exist for commercial LTE service providers and private LMR network operators?
What are the prospects of NIB (Network-in-a-Box), vehicular, airborne and maritime deployable LTE platforms?
Is there a substantial market opportunity for public safety LTE networks operating in Band 31 (450 MHz), and newer frequency bands such as Bands 68 and 72?
How can public safety stakeholders leverage unused spectrum capacity to ensure the economic viability of dedicated LTE networks?
Who are the key market players and what are their strategies?
What strategies should system integrators, vendors, and mobile operators adopt to remain competitive?
Key Findings

The report has the following key findings:

SNS Research estimates that annual investments in public safety LTE infrastructure will surpass $800 Million by the end of 2017. The market – which includes base stations (eNBs), mobile core and transport network equipment – is further expected to grow at a CAGR of nearly 45% over the next three years.
By 2020, these infrastructure investments will be complemented by up to 3.8 Million LTE device shipments, ranging from smartphones and ruggedized handheld terminals to vehicular routers and IoT modules.
A number of dedicated public safety LTE networks are already operational across the globe, ranging from nationwide systems in the oil-rich GCC region to citywide networks in Spain, China, Pakistan, Laos and Kenya.
At present, more than 45% of all public safety LTE engagements – including in-service, planned, pilot, and demo networks – utilize spectrum in the 700 MHz range, primarily Bands 14 and 28.
Due to the unavailability of ProSe-capable chipsets and devices, several public safety stakeholders including the United Kingdom Home Office are considering the continued use of LMR terminals to support direct-mode operation, as they migrate to LTE networks.
The wider critical communications industry is continuing to consolidate with several prominent M&A deals such as Motorola Solutions’ recent acquisition of carrier-integrated PTT-over-cellular platform provider Kodiak Networks, and Hytera Communications’ takeover of the Sepura Group – a well known provider of TETRA, DMR, P25 and LTE systems.

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List of Companies Mentioned

3GPP (Third Generation Partnership Project)
3M
450 MHz Alliance
450connect
4K Solutions
6Harmonics
A10 Networks
Aaeon
AAS (Amphenol Antenna Solutions)
Abu Dhabi Police
Accedian Networks
Accelleran
Accuver
Ace Technologies Corporation
AceAxis
ACMA (Australian Communications and Media Authority)
Actelis Networks
Aculab
Adax
ADCOM911 (Adams County Communications Center)
ADLINK Technology
ADRF (Advanced RF Technologies)
ADTRAN
ADVA Optical Networking
AdvanceTec Industries
Advantech
Advantech Wireless
Aeroflex
AeroMobile
Affarii Technologies
Affirmed Networks
Agile Networks
Aicox Solutions
Airbus Defence and Space
Airbus Group
Air-Lynx
Airspan Networks
Airvana
Airwave Solutions
Ajman Police
Alcatel-Lucent
Alea
Alepo
Alliander
Allied Telesis
Allot Communications
Alpha Networks
Alpha Technologies
Alphabet
Altaeros Energies
Altair Semiconductor
ALTÁN Redes
Altiostar Networks
Alvarion Technologies
AM Telecom
Amarisoft
Amdocs
América Móvil
American Tower Corporation
Anatel (Agencia Nacional de Telecomunicacoes)
Anritsu Corporation
APCO (Association of Public-Safety Communications Officials) International
Apple
APT (Asia-Pacific Telecommunity)
Aptica
ARASKOM
Arcadyan
ARCEP (Autorité de Régulation des Communications Électroniques)
Archos
Argela
ArgoNET
ARIB (Association of Radio Industries and Businesses, Japan)
Aricent
ARItel
ARM Holdings
Armasuisse (Federal Office for Defence Procurement, Switzerland)
Armour Communications
Arqiva
Artemis Networks
Artesyn Embedded Technologies
Artiza Networks
ASELSAN
ASMG (Arab Spectrum Management Group)
ASOCS
Assured Wireless Corporation
ASTRI (Hong Kong Applied Science and Technology Research Institute)
ASTRID
ASTRO Solutions
ASUS (ASUSTeK Computer)
AT&T
ATDI
Atel Antennas
Athonet
ATIS (Alliance for Telecommunications Industry Solutions)
Atlas Telecom
Atos
AttoCore
ATU (African Telecommunications Union)
Avanti Communications Group
Avaya
AVI
Aviat Networks
Avigilon Corporation
Avtec
Axell Wireless
Axis Communications
Axon
Axxcelera Broadband Wireless
Azcom Technology
Azetti Networks
BAE Systems
Baicells Technologies
BandRich
Barrett Communications
BASE (Telenet)
BATS (Broadband Antenna Tracking Systems)
Baylin Technologies
BayRICS (Bay Area Regional Interoperable Communications Systems Authority)
BayWEB (Bay Area Wireless Enhanced Broadband System)
BCDVideo
BCE (Bell Canada)
BDBOS (Federal Agency for Public Safety Digital Radio, Germany)
BEC Technologies
Benetel
BeyondTrust Software
BFDX (BelFone)
BHE (Bonn Hungary Electronics)
Bilbao Metro
Bird Technologies
Bittium Corporation
BK Technologies
Black & Veatch
Black Box Corporation
BlackBerry
BlackBerry AtHoc
Blackhawk Imaging
Blackned
BLiNQ Networks
Bluebird
Blueforce Development Corporation
BMI (Federal Ministry of Interior, Germany)
BMVg (Federal Ministry of Defense, Germany)
Boise Police Department
Bosch Security Systems
Boston Police Department
Bravo (Public Telecommunication Company)
Brazilian Army
Brazos County Sheriff’s Office
Bridgewater
BridgeWave Communications
British Army
Broadcom
BroadSoft
Brocade Communications Systems
BRTI (Indonesian Telecommunications Regulatory Authority)
BT Group
BTI Wireless
Bullitt Mobile
Bundesnetzagentur (Federal Network Agency, Germany)
Bundeswehr (Armed Forces, Germany)
C Spire
C4i
CACI International
CACP (Canadian Association of Chiefs of Police)
CAFC (Canadian Association of Fire Chiefs)
CalAmp Corporation
Calgary Police Service
Cambium Networks
Camden County Public Safety
Canadian Advanced Technology Alliance
Capita
Carlson Wireless Technologies
Casa Systems
Casio Computer Company
Catalyst Communications Technologies
Caterpillar
Cavium
CCI (Communication Components Inc.)
CCI (Competitive Companies, Inc.)
CCI Systems
CCN (Cirrus Core Networks)
CCSA (China Communications Standards Association)
Cellvine
cellXica
CelPlan Technologies
CEPT (European Conference of Postal and Telecommunications Administrations)
Ceragon Networks
Certes Networks
Challenge Networks
Chemring Group
Chemring Technology Solutions
Chicago Police Department
Cielo Networks
Ciena Corporation
Cirpack
Cisco Systems
CITC (Communications and Information Technology Commission, Saudi Arabia)
CITEL (Inter-American Telecommunication Commission)
CITIG (Canadian Interoperability Technology Interest Group)
City of Charlotte
City of Fort Worth
City of Huntsville
City of Irving
City of New Orleans
City of Oakland
City of Pembroke Pines
City of Sendai
Cloudstreet
CND (Core Network Dynamics)
Cobham
Cobham SATCOM
Cobham Wireless
Codan Radio Communications
Collinear Networks
Colorado Parks and Wildlife
Comba Telecom
COMLAB
CommAgility
CommandWear Systems
CommScope
Comrod Communication Group
Comtech EF Data
Comtech TCS
Comtech Telecommunications Corporation
CONET Technologies
Connect Tech
Contela
Coolpad Group
Coriant
Cornet Technology
Corning
Covia Labs
CPqD (Center for Research and Development in Telecommunications, Brazil)
Cradlepoint
CRC (Communications Research Centre Canada)
Crown Castle International Corporation
CS Corporation
CybertelBridge
Cyfas Systems
CyPhy Works
Dahua Technology (Zhejiang Dahua Technology)
Dali Wireless
DAMM Cellular Systems
Datang Mobile
Datang Telecom
DDPS (Federal Department of Defence, Civil Protection and Sport, Switzerland)
DeKalb Police Department
Dell Technologies
Delta Electronics
DEPEN (National Prison Department, Brazil)
DFW (Dallas/Fort Worth) International Airport
Dialogic
DNA
DND (Department of National Defence, Canada)
DNK (Norwegian Directorate for Emergency Communication)
DragonWave-X
DRDC (Defence Research and Development Canada)
DRDC CSS (Defence Research and Development Canada’s Centre for Security Science)
Druid Software
DSB (Directorate for Civil Protection, Norway)
DSTL (Defence Science and Technology Laboratory, United Kingdom)
Dubai Police
Duons
Eastcom (Eastcom Communications Company)
EchoStar Corporation
EchoStar Mobile
EchoStar Satellite Services
Ecom Instruments
EE
EF Johnson Technologies
EION Wireless
Elbit Systems
Elta Systems
ELUON Corporation
Embraer
EMC Corporation
ENENSYS Technologies
éolane DOUARNENEZ
Ercom
Ericsson
Ericsson LG
ETELM
Etherstack
Ethertronics
ETRI (Electronics & Telecommunications Research Institute, South Korea)
ETSI (European Telecommunications Standards Institute)
Ewing Police Department
EXACOM
Exalt Wireless
Excelerate Technology
Exelis
EXFO
Expeto Wireless
Expway
ExteNet Systems
Eyecom Telecommunications Group
FAB (Brazilian Air Force)
Facebook
Fairwaves
Falu Municipality
Fastback Networks
Federated Wireless
Fenix Group
FFI (Defence Research Establishment, Norway)
FiberHome Technologies
Finavia
FinnHEMS (Helicopter Emergency Medical Services, Finland)
Finnish Border Guard
Finnish Defence Forces
Finnish State Railways
FireEye
Flash Private Mobile Networks
FLIR Systems
Forcepoint
Fortinet
Foxcom
Fraunhofer FOKUS (Institute for Open Communication Systems)
Fraunhofer HHI (Heinrich Hertz Institute)
FreeWave Technologies
French Armed Forces
Frequentis
FRTek
Fujian Sunnada Network Technology
Fujitsu
Funkwerk
Future Technologies
Galtronics
GCT Semiconductor
GE (General Electric)
Gemalto
Gemtek Technology
Genaker
GENBAND
General Dynamics Corporation
General Dynamics Mission Systems
Genesis Group
GenXComm
GeoSafe
Getac Technology Corporation
GIKO GROUP
Gilat Satellite Networks
Global Invacom Group
Globalstar
Goodman Networks
Goodmill Systems
Google
Grant County Sheriff’s Office
GRENTECH
Groupe ADP (Aéroport de Paris)
GroupTalk
GSI (GS Instech)
Guangzhou Iplook Technologies
GWT (Global Wireless Technologies)
Halton Regional Police Service
Hanwha Techwin
Harris Corporation
Harris County
Harris County Fire Marshal’s Office
Harris County Sheriff’s Office
Haystax Technology
HCL Technologies
HFRS (Hampshire Fire & Rescue Service)
Hikvision (Hangzhou Hikvision Digital Technology)
HISPASAT Group
Hitachi
Hoimyung Corporation
Hoimyung ICT
Home Office, United Kingdom
Honeywell International
Hong Kong Police Force
Horsebridge Defence & Security
Houston Police Department
HPE (Hewlett Packard Enterprise)
HQT (Shenzhen HQT Science and Technology)
HTC Corporation
Huawei
Hub One
Hughes Network Systems
Hunter Technology
Hytera Communications
IAI (Israel Aerospace Industries)
iBwave Solutions
ICCRA (International Critical Control Rooms Alliance)
Icom
ICT (Islamabad Capital Territory)
IDEMIA
IDF (Israel Defense Forces)
IDY Corporation
IFT (Federal Institute of Telecommunications, Mexico)
IMDA (Info-communications Media Development Authority of Singapore)
IMPTT
Indian Army
Indiana DHS (Department of Homeland Security)
Indianapolis Fire Department
Indianapolis Metropolitan Police Department
Indra
Infinova
InfoVista
INL (Idaho National Laboratory)
Inmarsat
InnerWireless
InnoWireless
Insta Group
Intel Corporation
Intercede
InterDigital
Intersec
Intracom Telecom
Intrepid Networks
ip.access
IPITEK
Iridium Communications
IRIS (Red Nacional de Radiocomunicación de Misión Crítica Tetrapol)
Irvees Technology
ISCO International
ISED (Innovation, Science and Economic Development Canada)
IS-Wireless
Italtel
ITCEN
ITELAZPI
ITRI (Industrial Technology Research Institute, Taiwan)
ITS Ibelem
ITU (International Telecommunication Union)
JMA Wireless
Johnson Controls
Jolla
Jordanian Armed Forces
JPS Interoperability Solutions
JRC (Japan Radio Company)
Juni Global
Juniper Networks
JVCKENWOOD Corporation
Kantonspolizei Zürich (Cantonal Police of Zurich)
Kapsch CarrierCom
Kathrein-Werke KG
KBR
KCC (Korea Communications Commission)
Kenyan Police Service
Keysight Technologies
Kirisun Communications
Kisan Telecom
Klas Telecom
Klein Electronics
Kleos
KMW
Kodiak Networks
Koning & Hartman
Kontron S&T
KPN
KPN Critical Communications
KRNA (Korea Rail Network Authority)
KRTnet Corporation
KT Corporation
Kudelski Group
Kudelski Security
Kumu Networks
Kyocera Corporation
L-3 Communication Systems-West
L-3 Technologies
Laos Police
LA-RICS (Los Angeles Regional Interoperable Communications System)
Las Vegas Metropolitan Police Department
LCR Embedded Systems
Leenos Corporation
Lemko Corporation
Lenovo
Leonardo
LG CNS
LG Electronics
LG Group
LG Uplus
LGS Innovations
Ligado Networks
Lijiang Police
Lime Microsystems
LOCIVA
Lockheed Martin Corporation
Logic Instrument
London’s Air Ambulance
LS telcom
Luminate Wireless
M87
Macquarie Group
MadCo 911 (Madison County Alabama’s 911 Dispatch Center)
Magister Solutions
Martin UAV
Mavenir Systems
MBIE (Ministry of Business, Innovation and Employment, New Zealand)
McAfee
MCMC (Malaysian Communications and Multimedia Commission)
MCTIC (Ministry of Science, Technology and Innovation and Communications, Brazil)
McWane
MediaTek
MegaFon
Mellanox Technologies
Mentura Group
MER Group
Metaswitch Networks
MetroPCS
MHA (Ministry of Home Affairs, Singapore)
Miami-Dade County
Miami-Dade Police Department
MIC (Ministry of Internal Affairs and Communications, Japan)
MIC Nordic
Micro Focus
Microlab
Microsoft Corporation
Microwave Networks
MIIT (Ministry of Industry and Information Technology, China)
Milestone Systems
MIMOon
Minas Gerais State Military Police
Ministry of Defence, Sweden
Ministry of Industry and Information Technology, China
Ministry of Interior & Coordination of National Government, Kenya
Ministry of Interior, Angola
Ministry of Interior, France
Ministry of Justice, Sweden
MitraStar Technology Corporation
Mitsubishi Electric Corporation
Mobile Tornado
MobileDemand
MobileIron
Mobilicom
MoD (Ministry of Defence, United Kingdom)
ModUcom (Modular Communication Systems)
MOI Qatar (Ministry of Interior, Qatar)
MoMe
Monmouth County Sheriff’s Office
Moscow Police
Moseley Associates
Motorola Mobility
Motorola Solutions
Moxtra Public Safety
MP Antenna
MPS (Ministry of Public Security, China)
MPSS (Ministry of Public Safety and Security, South Korea)
MRC (Mobile Radio Center)
MRV Communications
MSB (Civil Contingencies Agency, Sweden)
MTI (Microelectronics Technology, Inc.)
Mutualink
N.A.T.
Nash Technologies
NATO (North Atlantic Treaty Organization)
Naval Postgraduate School
NBTC (National Broadcasting and Telecommunications Commission, Thailand)
NCRIC (Northern California Regional Information Center)
NDOT (Nevada Department of Transportation)
NEC Corporation
Nedaa
Nemergent Solutions
Neptune Mobile
Net4Mobility
Netas
NetMotion
NETSCOUT Systems
New Hampshire Department of Safety
New Jersey Office of Homeland Security and Preparedness
New Jersey ROIC (Regional Operations Intelligence Center)
New Jersey State Police
New Mexico DoIT (Department of Information Technology)
New Postcom Equipment
New Zealand Police
NewCore Wireless
NextG Networks
Nextivity
NextNav
NI (National Instruments)
NICE Systems
Nigeria Police Force
NIKSUN
Nkom (Norwegian Communications Authority)
Node-H
Nokia
Nokia Networks
Norsat International
Northglenn Police Department
Northrop Grumman Corporation
NTT DoCoMo
NuRAN Wireless
Nutaq Innovation
NVIS Communications
NXP Semiconductors
O3b Networks
Oakland Fire Department
Oceus Networks
Octasic
ODN (Orbital Data Network)
OFCOM (Federal Office of Communications, Switzerland)
Ohio State University
OMA (Open Mobile Alliance)
Oman Royal Office
Omnitele
Omoco
One2many
Ontario Ministry of Transportation
Ooredoo
Openet
OpenSignal
Optiway
Optus
Oracle Communications
Orange
Orange Belgium (Mobistar)
Ottawa Fire Services
PacStar (Pacific Star Communications)
Palo Alto Networks
Panasonic Avionics Corporation
Panasonic Corporation
Panda Electronics Group
Panorama Antennas
Parallel Wireless
PCC (Paramedic Chiefs of Canada)
PCTEL
pdvWireless
Pelco
Pennsylvania State Police
Pepperl+Fuchs
Pepro
Persistent Telecom
Philadelphia Police Department
Phluido
Pikewerks Corporation
Plover Bay Technologies
PMN (Private Mobile Networks)
Polaris Networks
Police Federation of Australia
Police of the Netherlands
Polizia di Stato (State Police, Italy)
PoLTE Corporation
Portalify
Potevio
PowerTrunk
PRISMA Telecom Testing
Productivity Commission, Australia
PROMTEL (Office for the Promotion of Investments in Telecommunications, Mexico)
Proximus
Pryme Radio Products
PSCA (Punjab Safe Cities Authority)
PSCE (Public Safety Communications Europe)
PSP (Potomac Spectrum Partners)
PTS (Post and Telecom Authority, Sweden)
Public Safety Canada
Publicis
Pulse Electronics
Qatar Armed Forces
Qinetiq
Qingdao Police
Qiqihar Municipal Public Security Bureau
Qiqihar Police
Qualcomm
Quanta Computer
Qucell
Quintel
Quortus
RACOM Corporation
RAD Data Communications
Radio IP Software
Radisys Corporation
RADWIN
RAF (Royal Air Force)
Rafael Advanced Defense Systems
Range Networks
Rave Mobile Safety
Raycap
Raytheon Company
RCC (Regional Commonwealth in the Field of Communications)
RCMP (Royal Canadian Mounted Police)
Reality Mobile
Rebel Alliance
Red Hat
RED Technologies
REDCOM Laboratories
Redline Communications
Redwall Technologies
RESCAN (Canary Islands Network for Emergency and Security)
Rescue 42
RF Window
RFS (Radio Frequency Systems)
RIKS (State Infocommunication Foundation)
Rio de Janeiro Fire Department
RIVA Networks
Rivada Networks
Rockwell Collins
Rogers Communications
Rohde & Schwarz
Rohill
ROK Mobile
ROKAF (Republic of Korea Air Force)
Roper Industries
Rosenberger
Royal Thai Police
R-TRON
RugGear
Saab
Safaricom
SafeMobile
Safe-Net Forum
SAI Technology
SAIC (Science Applications International Corporation)
Samji Electronics
Samsung Electronics
Samsung Group
Samsung SDS
San Diego Fire-Rescue Department
San Diego Police Department
SANG (Saudi Arabian National Guard)
São Paulo State Military Police
Sapient Consulting
Sapura Secured Technologies
Saudi MOI (Ministry of Interior)
Savis
Savox Communications
Schneider Electric
SCT (Mexican Ministry of Communications and Transport, Mexico)
Senstar Corporation
Sepura
Sequans Communications
SerComm Corporation
SES
SETAR
Sevis Systems
SFR
Shanghai Police Department
Shentel (Shenandoah Telecommunications Company)
Sheriff’s Department of Suffolk County
SIAE Microelettronica
Siemens
Siemens Convergence Creators
Sierra Wireless
Signal Entertainment Group
Signal Information & Communication Corporation
Siklu Communication
Silicom
Simoco Wireless Solutions
Singapore Police Force
Singtel
SiRRAN Communications
Sistelbanda
SITRONICS
Siyata Mobile
SK Telecom
SK Telesys
SLA Corporation
SLC (Secure Land Communications)
SmartSky Networks
Smith Micro Software
SoftBank Group
Softil
SOLiD
Soliton Systems
Sonim Technologies
Sonus Networks
Sony Corporation
Sony Mobile Communications
Sooktha
SOTI
Southern Company
Southern Linc
Space Data Corporation
Spanish Army
Spectra Group
SpiderCloud Wireless
Spillman Technologies
Spirent Communications
Spreadtrum Communications
Sprint Corporation
SRS (Software Radio Systems)
Stadtpolizei Zürich (Zurich City Police)
Star Solutions
State of Colorado
State of Louisiana
State of Minnesota
State of Mississippi
State of New Jersey
State of New Mexico
State of Ohio
State of Oklahoma
State of Texas
State Security Networks Group
STC (Saudi Telecom Company)
STMicroelectronics
Stop Noise
sTraffic
StreamWIDE
SUBTEL (Subsecretaría de Telecomunicaciones de Chile)
Sumitomo Electric Industries
Surrey Police
Swedish Police Authority
Swiss Army
Swisscom
Swisscom Broadcast
Symantec Corporation
Sysoco Group
SyTech (Systems Engineering Technologies) Corporation
TacSat Networks
Tait Communications
Tampa Microwave
Taqua
TASSTA
Tata Elxsi
TCCA (TETRA and Critical Communications Association)
TCL Communication
TCOM
Tech Mahindra
Técnicas Competitivas
Tecore Networks
TEKTELIC Communications
Telcel
Telco Systems
Telefónica Group
Televate
Tellabs
Telo Systems Corporation
Telos Corporation
Telrad Networks
Telstra
Teltronic
Telum
Telus Corporation
TESSCO
TETRATAB
Texas A&M University
Texas National Guard
Thales
TI (Texas Instruments)
TIA (Telecommunications Industry Association)
Tieto Corporation
TIM (Telecom Italia Mobile)
Titan Securite
TLC Solutions
T-Mobile USA
Tokyo Metropolitan Police Department
Toshiba Corporation
TOURTech
TPL Systèmes
TRAI (Telecom Regulatory Authority of India)
Trópico
TRX Systems
TSDSI (Telecommunications Standards Development Society, India)
TTA (Telecommunications Technology Association of Korea)
TTC (Telecommunication Technology Committee, Japan)
Turk Telekom
Turkish National Police Force
Twinhead International Corporation
Twisted Pair Solutions
TxDPS (Texas Department of Public Safety)
U.S. Air Force
U.S. Army
U.S. CBP (Customs and Border Protection)
U.S. Cellular
U.S. Coast Guard
U.S. Department of Commerce
U.S. DHS (Department of Homeland Security)
U.S. DIA (Defense Intelligence Agency)
U.S. DoD (Department of Defense)
U.S. FBI (Federal Bureau of Investigation)
U.S. FCC (Federal Communications Commission)
U.S. FEMA (Federal Emergency Management Agency)
U.S. FirstNet (First Responder Network Authority)
U.S. Marine Corps
U.S. Navy
U.S. NIST (National Institute of Standards and Technology)
U.S. NPSTC (National Public Safety Telecommunications Council)
U.S. NTIA (National Telecommunications and Information Administration)
UANGEL
UCLA (University of California, Los Angeles)
Ukkoverkot
UNIMO Technology
University of Ottawa
UPMC (University Pierre and Marie CURIE)
Uppsala Ambulance Services
UPV/EHU (University of the Basque Country)
URSYS
US Digital Designs
USSOCOM (U.S. Special Operations Command)
Utility Associates
Vanu
Vencore Labs
Verint Systems
Verizon Communications
ViaSat
Viavi Solutions
Victoria Police
Vidyo
Vientiane Municipal Government
Village of Schaumburg
VIRVE
Vision Technologies
Visual Labs
Vmware
VNC (Virtual Network Communications)
VNL (Vihaan Networks Limited)
Vodafone Group
Vodafone Hutchison Australia
Vodafone Netherlands
Vodafone New Zealand
Voxer
West Corporation
Westell Technologies
Western Australia Police
Wildox (Shenzhen Happy Technology)
WINITECH
WinMate
Wireless Technologies Finland
Wireless Telecom Group
Wireless Telecom Group Company
WNC (Wistron NeWeb Corporation)
WTL (World Telecom Labs)
Wytec International
xG Technology
Xiamen Puxing Electronics Science & Technology
Xilinx
Xplore Technologies Corporation
Zain Saudi Arabia
Z-Com
Zello
Zetel Solutions
Zetron
Zhengzhou Metro
Zhengzhou Municipal Public Security Bureau
Zhengzhou Police
Zinwave
ZMTel (Shanghai Zhongmi Communication Technology)
ZTE
Countires Covered

Afghanistan
Albania
Algeria
Andorra
Angola
Anguilla
Antigua & Barbuda
Argentina
Armenia
Aruba
Australia
Austria
Azerbaijan
Bahamas
Bahrain
Bangladesh
Barbados
Belarus
Belgium
Belize
Benin
Bermuda
Bhutan
Bolivia
Bosnia Herzegovina
Botswana
Brazil
British Virgin Islands
Brunei
Bulgaria
Burkina Faso
Burundi
Cambodia
Cameroon
Canada
Cape Verde
Cayman Islands
Central African Republic
Chad
Chile
China
Cocos Islands
Colombia
Comoros Islands
Congo
Cook Islands
Costa Rica
Côte d’Ivoire
Croatia
Cuba
Cyprus
Czech Republic
Democratic Rep of Congo (ex-Zaire)
Denmark
Djibouti
Dominica
Dominican Republic
East Timor
Ecuador
Egypt
El Salvador
Equatorial Guinea
Eritrea
Estonia
Ethiopia
Faroe Islands
Federated States of Micronesia
Fiji
Finland
France
French Guiana
French Polynesia (ex-Tahiti)
French West Indies
Gabon
Gambia
Georgia
Germany
Ghana
Gibraltar
Greece
Greenland
Grenada
Guam
Guatemala
Guernsey
Guinea Republic
Guinea-Bissau
Guyana
Haiti
Honduras
Hong Kong
Hungary
Iceland
India
Indonesia
Iran
Iraq
Ireland
Isle of Man
Israel
Italy
Jamaica
Japan
Jersey
Jordan
Kazakhstan
Kenya
Kirghizstan
Kiribati
Korea
Kosovo
Kuwait
Laos
Latvia
Lebanon
Lesotho
Liberia
Libya
Liechtenstein
Lithuania
Luxembourg
Macau
Macedonia
Madagascar
Malawi
Malaysia
Maldives
Mali
Malta
Marshall Islands
Mauritania
Mauritius
Mayotte
Mexico
Moldova
Monaco
Mongolia
Montenegro
Montserrat
Morocco
Mozambique
Myanmar
Namibia
Nepal
Netherlands
Netherlands Antilles
New Caledonia
New Zealand
Nicaragua
Niger
Nigeria
Niue
North Korea
Northern Marianas
Norway
Oman
Pakistan
Palau
Palestine
Panama
Papua New Guinea
Paraguay
Peru
Philippines
Poland
Portugal
Puerto Rico
Qatar
Réunion
Romania
Russia
Rwanda
Samoa
Samoa (American)
Sao Tomé & Principe
Saudi Arabia
Senegal
Serbia
Seychelles
Sierra Leone
Singapore
Slovak Republic
Slovenia
Solomon Islands
Somalia
South Africa
Spain
Sri Lanka
St Kitts & Nevis
St Lucia
St Vincent & The Grenadines
Sudan
Suriname
Swaziland
Sweden
Switzerland
Syria
Tajikistan
Taiwan
Tanzania
Thailand
Togo
Tonga
Trinidad & Tobago
Tunisia
Turkey
Turkmenistan
Turks & Caicos Islands
UAE
Uganda
UK
Ukraine
Uruguay
US Virgin Islands
USA
Uzbekistan
Vanuatu
Venezuela
Vietnam
Yemen
Zambia
Zimbabwe
Table of Contents

1 Chapter 1: Introduction 43
1.1 Executive Summary 43
1.2 Topics Covered 45
1.3 Forecast Segmentation 47
1.4 Key Questions Answered 51
1.5 Key Findings 52
1.6 Methodology 53
1.7 Target Audience 54
1.8 Companies & Organizations Mentioned 55

2 Chapter 2: An Overview of the Public Safety Mobile Broadband Market 65
2.1 Narrowband LMR (Land Mobile Radio) Systems in Public Safety 65
2.1.1 LMR Market Size 66
2.1.1.1 Analog LMR 67
2.1.1.2 DMR 67
2.1.1.3 dPMR, NXDN & PDT 68
2.1.1.4 P25 68
2.1.1.5 TETRA 69
2.1.1.6 Tetrapol 69
2.1.1.7 Other LMR Technologies 70
2.1.2 The Limitations of LMR Networks for Non-Voice Services 70
2.2 Adoption of Commercial Mobile Broadband Technologies for Public Safety 71
2.2.1 Why Use Commercial Mobile Broadband Technologies? 71
2.2.2 The Perceived Role of Mobile Broadband in Public Safety Scenarios 71
2.2.2.1 Partnerships with Commercial Mobile Operators 72
2.2.2.2 Private LTE and WiMAX Networks 72
2.2.3 Can Mobile Broadband Technologies Replace LMR Systems? 72
2.2.4 How Big is the Commercial Mobile Broadband Market? 73
2.2.5 Will the Public Safety Witness the Same Level of Growth as the Consumer Sector? 73
2.2.6 What are the Growth Drivers? 74
2.3 Why LTE? 74
2.3.1 Performance Metrics 75
2.3.2 Coexistence, Interoperability and Spectrum Flexibility 75
2.3.3 A Thriving Ecosystem 76
2.3.4 Economic Feasibility 76
2.4 Public Safety LTE Technology & Architecture 77
2.4.1 UE (User Equipment) 77
2.4.1.1 Smartphones & Handportable Terminals 78
2.4.1.2 Vehicle-Mounted Routers & Terminals 78
2.4.1.3 Stationary CPEs 79
2.4.1.4 Tablets & Notebook PCs 79
2.4.1.5 USB Dongles, Embedded IoT Modules & Others 79
2.4.2 E-UTRAN – The LTE RAN (Radio Access Network) 80
2.4.2.1 eNB Base Stations 80
2.4.2.2 TDD vs. FDD 81
2.4.3 Transport Network 81
2.4.4 EPC (Evolved Packet Core) – The LTE Mobile Core 81
2.4.4.1 SGW (Serving Gateway) 82
2.4.4.2 PGW (Packet Data Network Gateway) 82
2.4.4.3 MME (Mobility Management Entity) 82
2.4.4.4 HSS (Home Subscriber Server) 82
2.4.4.5 PCRF (Policy Charging and Rules Function) 83
2.4.5 IMS (IP-Multimedia Subsystem), Application & Service Elements 83
2.4.5.1 IMS Core & VoLTE 83
2.4.5.2 eMBMS (Enhanced Multimedia Broadcast Multicast Service) 84
2.4.5.3 ProSe (Proximity Services) 84
2.4.5.4 Group Communication & Mission-Critical Services 85
2.4.6 Gateways for LTE-LMR Interworking 85
2.5 LTE-Advanced & 5G: Implications for Public Safety 86
2.5.1 The Move Towards LTE-Advanced Networks 86
2.5.2 LTE Advanced Pro: Accelerating Public Safety LTE Rollouts 87
2.5.3 5G Requirements: Looking Towards the Future 87
2.5.4 5G Applications for Public Safety 89
2.6 Support for Roaming in Public Safety LTE Networks 90
2.6.1 Inter-System Roaming 90
2.6.2 Intra-System Roaming with External LTE Networks 90
2.7 Public Safety LTE Deployment Models 91
2.7.1 Private Public Safety LTE 91
2.7.2 Shared Commercial Public Safety LTE: Private-Public Partnerships 91
2.7.3 Public Safety LTE Access over Commercial Mobile Networks 92
2.7.4 Hosted-Core Public Safety LTE Networks 92
2.8 Funding Models for Private Public Safety LTE Network Deployments 92
2.8.1 BOO (Built, Owned and Operated) by Integrator/Vendor 92
2.8.2 Owned and Operated by the Government Authority 93
2.8.3 Local Agency Hosted Core 93
2.8.4 Multiple Networks 93
2.9 Market Growth Drivers 94
2.9.1 Higher Throughput and Low Latency 94
2.9.2 Economic Feasibility 94
2.9.3 Bandwidth Flexibility 94
2.9.4 Spectral Efficiency 95
2.9.5 Regional Interoperability 95
2.9.6 Lack of Competition from Other Standards 95
2.9.7 Endorsement from the Public Safety Community 96
2.9.8 Commitments by Infrastructure and Device Vendors 96
2.9.9 QoS (Quality of Service), Priority & Preemption Provisioning 96
2.9.10 Group Voice & Multimedia Communications Support 97
2.10 Market Barriers 97
2.10.1 Spectrum Allocation 97
2.10.2 Budgetary Issues 98
2.10.3 Delayed Standardization 98
2.10.4 Dependency on New Chipsets & Devices for Dedicated Public Safety Features 99
2.10.5 Smaller Coverage Footprint than LMR Systems 99

3 Chapter 3: Key Enabling Technologies for Public Safety LTE 100
3.1 Mission-Critical Voice & Group Communications 100
3.1.1 Group Communications 100
3.1.1.1 GCSE (Group Communication System Enablers) 100
3.1.1.2 eMBMS (Multimedia Broadcast Multicast Service) 101
3.1.1.3 Additional Group-Based Enhancements 102
3.1.2 MCPTT (Mission-Critical PTT) 102
3.1.2.1 Architecture & Functional Capabilities 102
3.1.2.2 Performance Comparison with LMR Voice Services 103
3.1.3 Mission-Critical Data & Video 104
3.2 D2D (Device-to-Device) Functionality 105
3.2.1 ProSe (Proximity Services) for D2D Connectivity & Communications 105
3.2.2 ProSe Service Classification 106
3.2.2.1 Discovery 106
3.2.2.2 Direct Communication 106
3.2.3 Public Safety Applications for ProSe 107
3.2.3.1 Direct Communication for Coverage Extension 107
3.2.3.2 Direct Communication within Network Coverage 108
3.2.3.3 Infrastructure Failure & Emergency Situations 108
3.2.3.4 Additional Capacity for Incident Response & Special Events 108
3.2.3.5 Discovery Services for Disaster Relief 108
3.3 IOPS (Isolated E-UTRAN Operation for Public Safety) 109
3.3.1 Ensuring Resilience and Service Continuity for Public Safety LTE Users 109
3.3.2 Localized EPC & Application Capabilities 110
3.3.3 Support for Regular & Nomadic eNBs 110
3.3.4 Isolated E-UTRAN Scenarios 110
3.3.4.1 No Backhaul 110
3.3.4.2 Limited Backhaul for Signaling Only 111
3.3.4.3 Limited Backhaul for Signaling & User Data 111
3.4 Deployable LTE Systems 111
3.4.1 Key Operational Capabilities 111
3.4.1.1 eNB-Only Systems for Coverage & Capacity Enhancement 111
3.4.1.2 Mobile Core Integrated Systems for Autonomous Operation 111
3.4.1.3 Backhaul Connectivity 112
3.4.2 NIB (Network-in-a-Box): Self-Contained Portable Systems 112
3.4.2.1 Backpacks 112
3.4.2.2 Tactical Cases 112
3.4.3 Vehicular Platforms 113
3.4.3.1 COW (Cell-on-Wheels) 113
3.4.3.2 COLT (Cell-on-Light Truck) 113
3.4.3.3 SOW (System-on-Wheels) 114
3.4.3.4 VNS (Vehicular Network System) 114
3.4.4 Airborne Platforms 114
3.4.4.1 Drones 115
3.4.4.2 Balloons 115
3.4.4.3 Other Aircraft 116
3.4.5 Maritime Platforms 116
3.5 UE Enhancements 116
3.5.1 Ruggedization for Meet Public Safety Usage Requirements 116
3.5.2 Dedicated PTT-Buttons & Functional Enhancements 117
3.5.3 Long-Lasting Batteries 117
3.5.4 HPUE (High-Power User Equipment) 117
3.6 QPP (QoS, Priority & Preemption) 118
3.6.1 3GPP Specified QPP Capabilities 118
3.6.1.1 Access Priority: ACB (Access Class Barring) 118
3.6.1.2 Admission Priority & Preemption: ARP (Allocation and Retention Priority) 118
3.6.1.3 Traffic Scheduling Priority: QCI (QoS Class Indicator) 119
3.6.1.4 Emergency Scenarios: eMPS (Enhanced Multimedia Priority Service) 119
3.6.2 Additional QPP Enhancements 119
3.7 End-to-End Security 120
3.7.1 3GPP Specified LTE Security Architecture 120
3.7.1.1 Device Security 120
3.7.1.2 Air Interface & E-UTRAN Security 121
3.7.1.3 Mobile Core & Transport Network Security 121
3.7.2 Application Domain Protection & E2EE (End-to-End Encryption) 122
3.7.3 Enhancements to Support National Security & Additional Requirements 123
3.8 Complimentary Technologies & Concepts 124
3.8.1 Satellite Communications 124
3.8.2 High Capacity Microwave Links 124
3.8.3 Spectrum Sharing & Aggregation 125
3.8.4 MOCN (Multi-Operator Core Network) 125
3.8.5 DECOR (Dedicated Core) 125
3.8.6 Network Slicing 126
3.8.7 NFV (Network Functions Virtualization) 127
3.8.8 SDN (Software Defined Networking) 128
3.8.9 C-RAN (Centralized RAN) 128
3.8.10 MEC (Multi-Access Edge Computing) 129

4 Chapter 4: Review of Major Public Safety LTE Engagements 131
4.1 FirstNet (First Responder Network) Authority 131
4.1.1 Contract Award 132
4.1.1.1 Leveraging AT&T’s Commercial LTE Network Assets 132
4.1.1.2 Band 14 Nationwide Public Safety Broadband Network Buildout 132
4.1.1.3 Interoperability with Opt-Out Statewide Networks 133
4.1.2 Present Status 134
4.1.2.1 Buildout Activity 134
4.1.2.2 Disaster Preparedness & Network Hardening 134
4.1.2.3 Readiness of Deployable Network Assets 135
4.1.2.4 Opt-In States & Territories 136
4.1.2.5 Alternative Network Plans & Potential Opt-Outs 137
4.1.2.6 App & Device Ecosystem 137
4.1.3 Pricing for FirstNet Subscription Packages 138
4.1.4 Deployment Plan 139
4.1.4.1 2017: IOC (Initial Operating Capability) Stage 1 & Initial Buildout 139
4.1.4.2 2018 – 2021: IOC Stages 2 – 5 140
4.1.4.3 2022: FOC (Final Operational Capability) 141
4.1.4.4 2023 & Beyond: Additional Technology Upgrades 141
4.1.5 Key Applications 141
4.1.6 Status of “Early Builder” Ventures 142
4.1.6.1 LA-RICS (Los Angeles Regional Interoperable Communications System) 142
4.1.6.2 ADCOM-911 (Adams County Communications Center) 143
4.1.6.3 NMFirstNet (New Mexico FirstNet) 144
4.1.6.4 JerseyNet 145
4.1.6.5 HCLTE (Harris County LTE) 146
4.2 United Kingdom’s ESN (Emergency Services Network) 149
4.2.1 Rationale for Leveraging Commercial Networks 149
4.2.2 Major Contract Awards 149
4.2.2.1 Project Delivery 150
4.2.2.2 Mobile Services 150
4.2.2.3 User Services 151
4.2.3 Enabling Projects 151
4.2.4 Present Status 152
4.2.4.1 Operational Testing & Feature Implementation 152
4.2.4.2 Infrastructure Rollout 152
4.2.4.3 Rapid Response Vehicles for Coverage Extension 153
4.2.4.4 User Device Procurement 154
4.2.5 Deployment Plan 154
4.2.5.1 Design, Testing, Functional Trials & Service Readiness 154
4.2.5.2 Mobilization & Major Operational Trials 155
4.2.5.3 Airwave-to-ESN Transition 155
4.2.6 Key Applications 155
4.2.7 Possibility Continuity of Airwave 156
4.3 South Korea’s Safe-Net (National Disaster Safety Communications Network) 157
4.3.1 Initial Contract Awards 157
4.3.2 Present Status 158
4.3.2.1 Pilot Rollout & Initial Testing 158
4.3.2.2 Public Safety Support for the 2018 PyeongChang Winter Olympics 158
4.3.3 Deployment Plan 159
4.3.3.1 Phase I 159
4.3.3.2 Phase II 159
4.3.3.3 Phase III 160
4.3.4 Key Applications 160
4.3.5 Integration with Railway & Maritime Networks 162
4.4 Other Deployment Case Studies 163
4.4.1 Abu Dhabi Police 163
4.4.2 ALTÁN Redes 164
4.4.3 ASTRID 166
4.4.4 French Army 167
4.4.5 German Armed Forces (Bundeswehr) 168
4.4.6 Kenyan Police Service 169
4.4.7 Lijiang Police 171
4.4.8 MRC (Mobile Radio Center) 172
4.4.9 MSB (Swedish Civil Contingencies Agency) 173
4.4.10 Nedaa 174
4.4.11 Persistent Telecom 175
4.4.12 PSCA (Punjab Safe Cities Authority) 176
4.4.13 Qatar MOI (Ministry of Interior) 177
4.4.14 RESCAN (Canary Islands Network for Emergency and Security) 178
4.4.15 Rivas Vaciamadrid City Council 179
4.4.16 Shanghai Police Department 180
4.4.17 Singapore MHA (Ministry of Home Affairs) 182
4.4.18 Southern Linc 183
4.4.19 State Security Networks Group 185
4.4.20 Telstra LANES (LTE Advanced Network for Emergency Services) 187
4.4.21 Ukkoverkot 189

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