2020 – 2030 – Opportunities, Challenges, Strategies, Industry Verticals & Forecasts

With the standardization of features such as MCX (Mission-Critical PTT, Video & Data) services and URLCC (Ultra-Reliable Low-Latency Communications) by the 3GPP, LTE and 5G NR (New Radio) networks are rapidly gaining recognition as an all-inclusive critical communications platform for the delivery of both mission and business critical applications.

By providing authority over wireless coverage and capacity, private LTE and 5G networks ensure guaranteed and secure connectivity, while supporting a wide range of applications – ranging from PTT group communications and real-time video delivery to wireless control and automation in industrial environments. Organizations across the critical communications and industrial IoT (Internet of Things) domains – including public safety agencies, militaries, utilities, oil & gas companies, mining groups, railway & port operators, manufacturers and industrial giants – are making sizeable investments in private LTE networks.

The very first private 5G networks are also beginning to be deployed to serve a diverse array of usage scenarios spanning from connected factory robotics and massive-scale sensor networking to the control of AVGs (Automated Guided Vehicles) and AR/VR (Augmented & Virtual Reality). For example, Daimler’s Mercedes-Benz Cars division is establishing a local 5G network to support automobile production processes at its “”Factory 56″” in Sindelfingen, while the KMA (Korea Military Academy) is installing a dedicated 5G network in its northern Seoul campus to facilitate mixed reality-based military training programs – with a primary focus on shooting and tactical simulations.

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In addition, with the emergence of neutral-host small cells, multi-operator connectivity and unlicensed/shared spectrum access schemes, the use of private LTE and 5G networks in enterprise buildings, campuses and public venues is expected to grow significantly over the coming years. The practicality of spectrum sharing schemes such as the three-tiered CBRS (Citizens Broadband Radio Service) framework and Japan’s unlicensed sXGP (Shared Extended Global Platform) has already been proven with initial rollouts in locations such as corporate campuses, golf courses, race tracks, stadiums, airports and warehouses.

A number of independent neutral-host and wholesale operators are also stepping up with pioneering business models to provide LTE and 5G connectivity services to both mobile operators and enterprises, particularly in indoor settings and locations where it is technically or economically not feasible for traditional operators to deliver substantial wireless coverage and capacity.

Expected to reach $4.7 Billion in annual spending by the end of 2020, private LTE and 5G networks are increasingly becoming the preferred approach to deliver wireless connectivity for critical communications, industrial IoT, enterprise & campus environments, and public venues. The market will further grow at a CAGR of 19% between 2020 and 2023, eventually accounting for nearly $8 Billion by the end of 2023.

SNS Telecom & IT estimates that as much as 30% of these investments – approximately $2.5 Billion – will be directed towards the build-out of private 5G networks which will become preferred wireless connectivity medium to support the ongoing Industry 4.0 revolution for the automation and digitization of factories, warehouses, ports and other industrial premises, in addition to serving other verticals.

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The “Private LTE & 5G Network Ecosystem: 2020 – 2030 – Opportunities, Challenges, Strategies, Industry Verticals & Forecasts” report presents an in-depth assessment of the private LTE and 5G network ecosystem including market drivers, challenges, enabling technologies, vertical market opportunities, applications, key trends, standardization, spectrum availability/allocation, regulatory landscape, deployment case studies, opportunities, future roadmap, value chain, ecosystem player profiles and strategies. The report also presents forecasts for private LTE and 5G network infrastructure investments from 2020 till 2030. The forecasts cover three submarkets, two air interface technologies, 10 vertical markets and six regions.

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

Topics Covered

The report covers the following topics:

Private LTE and 5G network ecosystem
Market drivers and barriers
System architecture and key elements of private LTE and 5G networks
Analysis of vertical markets and applications – ranging from mobile broadband and mission-critical voice to domain-specific applications such as CBTC (Communications-Based Train Control) and connected robotics for factory automation
Operational models for private LTE and 5G networks including independent, managed, shared core, hybrid commercial-private and private MVNO networks
Mission-critical PTT/video/data services, deployable LTE/5G systems, cellular IoT, TSN (Time Sensitive Networking), URLLC (Ultra-Reliable Low-Latency Communications) techniques, quantum cryptography, unlicensed/shared spectrum, neutral-host/multi-operator small cells, network slicing, MEC (Multi-Access Edge Computing) and other enabling technologies
Key trends including the adoption of local and shared spectrum licensing, commercial readiness of private 5G systems for Industry 4.0, nationwide and city-wide public safety broadband network build-outs, regional mission/business-critical LTE networks for utilities and energy companies, localized private LTE/5G networks for railway infrastructure, ports, airports, mines, factories, warehouses, buildings, campuses and public venues, and pioneering neutral-host business models for enterprise and public wireless connectivity.
Review of private LTE and 5G network engagements worldwide, including case studies of more than 40 live networks
Spectrum availability, allocation and usage for private 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 over 600 ecosystem players including LTE/5G network infrastructure suppliers and vertical-domain specialists
Strategic recommendations for end users, LTE/5G network infrastructure suppliers, 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:

Submarkets

RAN (Radio Access Network)

Mobile Core
Backhaul & Transport

Air Interface Technologies

Spectrum Types

Licensed Spectrum
Unlicensed/Shared Spectrum

Unlicensed/Shared Spectrum Frequency Bands

1.9 GHz sXGP/DECT
2.4 GHz
3.5 GHz CBRS
5 GHz
Other Bands

Vertical Markets

Critical Communications & Industrial IoT
Public Safety
Military
Energy
Utilities
Mining
Transportation
Factories & Warehouses
Others
Enterprise & Campus Environments
Public Venues & Other Neutral Hosts

Regional Markets

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

Key Questions Answered

The report provides answers to the following key questions:

How big is the private LTE and 5G network 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 vertical markets and regions will see the highest percentage of growth?
What is the status of private LTE and 5G network adoption worldwide, and what are the primary usage scenarios of these networks?
What are the practical applications of private 5G networks – based on early commercial rollouts and pilot deployments?
How are private LTE and 5G networks delivering broadband and IoT connectivity for smart cities in areas such as public safety, transportation, utilities, waste management and environmental monitoring?
What are the existing and candidate licensed, unlicensed and shared spectrum bands for the operation of private LTE and 5G networks?
How will CBRS, sXGP, MulteFire and other unlicensed/shared spectrum access schemes and technologies accelerate the adoption of private LTE and 5G networks in the coming years?
How does standardization impact the adoption of LTE and 5G networks for critical communications and industrial IoT?
When will mission-critical PTT/video/data, 3GPP-LMR interworking, URLLC for industrial IoT, railway/maritime communications and other 3GPP-specified vertical-domain capabilities become commercially mature for implementation?
How will the integration of TSN (Time Sensitive Networking) enable private 5G networks to deliver reliable, low-latency connectivity across a broad range of time-critical industrial applications?
Do IEEE 802.16s, AeroMACS, WiGRID and other technologies pose a threat to private LTE and 5G networks?
What opportunities exist for commercial mobile operators in the private LTE and 5G network ecosystem?
Will FirstNet, Safe-Net, ESN and other nationwide public safety broadband networks eventually replace existing digital LMR networks?
When will private LTE and 5G networks supersede GSM-R as the predominant radio bearer for railway communications?
What are the future prospects of rapidly deployable LTE and 5G systems?
Who are the key ecosystem players, and what are their strategies?
What strategies should LTE/5G infrastructure suppliers, system integrators, vertical-domain specialists and mobile operators adopt to remain competitive?

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Key Findings

The report has the following key findings:

Expected to reach $4.7 Billion in annual spending by the end of 2020, private LTE and 5G networks are increasingly becoming the preferred approach to deliver wireless connectivity for critical communications, industrial IoT, enterprise & campus environments, and public venues. The market will further grow at a CAGR of 19% between 2020 and 2023, eventually accounting for nearly $8 Billion by the end of 2023.
SNS Telecom & IT estimates that as much as 30% of these investments – approximately $2.5 Billion – will be directed towards the build-out of private 5G networks which will become preferred wireless connectivity medium to support the ongoing Industry 4.0 revolution for the automation of factories, warehouses, ports and other industrial premises, besides serving additional verticals.
Favorable spectrum licensing regimes – such as the German Government’s decision to reserve frequencies in the 3.7 – 3.8 GHz range for localized 5G networks – will be central to the successful adoption of private 5G networks.
A number of other countries – including Sweden, United Kingdom, Japan, Hong Kong and Australia – are also moving forward with their plans to identify and allocate spectrum for localized, private 5G networks with a primary focus on the 3.7 GHz, 26 GHz and 28 GHz frequency bands.
The very first private 5G networks are also beginning to be deployed to serve a diverse array of usage scenarios spanning from connected factory robotics and massive-scale sensor networking to the control of AVGs (Automated Guided Vehicles) and AR/VR (Augmented & Virtual Reality).
For example, Daimler’s Mercedes-Benz Cars division is establishing a local 5G network to support automobile production processes at its “”Factory 56″” in Sindelfingen, while the KMA (Korea Military Academy) is installing a dedicated 5G network in its northern Seoul campus to facilitate mixed reality-based military training programs – with a primary focus on shooting and tactical simulations.
The private LTE network submarket is well-established with operational deployments across multiple segments of the critical communications and industrial IoT (Internet of Things) industry, as well as enterprise buildings, campuses and public venues. China alone has hundreds of small to medium scale private LTE networks, extending from single site systems through to city-wide networks – predominantly to support police forces, local authorities, power utilities, railways, metro systems, airports and maritime ports.
Private LTE networks are expected to continue their upward trajectory beyond 2020, with a spate of ongoing and planned network rollouts – from nationwide public safety broadband networks to usage scenarios as diverse as putting LTE-based communications infrastructure on the Moon.
In addition to the high-profile FirstNet, South Korea’s Safe-Net, Britain’s ESN (Emergency Services Network) nationwide public safety LTE network projects, a number of other 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 planned secure 450 MHz LTE network for police forces, emergency services and the national guard.
Other segments within the critical communications industry have also seen growth in the adoption of private LTE networks – with recent investments focused on mining, port and factory automation, deployable broadband systems for military communications, mission-critical voice, broadband and train control applications for railways and metro systems, ATG (Air-to-Ground) and airport surface wireless connectivity for aviation, field area networks for utilities, and maritime LTE platforms for vessels and offshore energy assets.
In the coming months and years, we expect to see significant activity in the 1.9 GHz sXGP, 3.5 GHz CBRS, 5 GHz and other unlicensed/shared spectrum bands to support the operation of private LTE and 5G networks across a range of environments, particularly enterprise buildings, campuses, public venues, factories and warehouses.
Leveraging their extensive spectrum assets and mobile networking expertise combined with a growing focus on vertical industries, mobile operators are continuing to retain a strong foothold in the wider private LTE and 5G network ecosystem – with active involvement in projects ranging from large-scale nationwide public safety LTE networks to highly localized 5G networks for industrial environments.
A number of independent neutral-host and wholesale operators are also stepping up with pioneering business models to provide LTE and 5G connectivity services to both mobile operators and enterprises. For example, using strategically acquired 2.6 GHz and 3.6 GHz spectrum licenses, Airspan’s operating company Dense Air plans to provide wholesale wireless connectivity in Ireland, Belgium, Portugal, New Zealand and Australia.
Cross-industry partnerships are becoming more commonplace as LTE/5G network equipment suppliers wrestle to gain ground in key vertical domains. For example, Nokia has partnered with Komatsu, Sandvik, Konecranes and Kalmar to develop tailored private LTE and 5G network solutions for the mining and transportation industries.

List of Companies Mentioned

3GPP (Third Generation Partnership Project)
450 MHz Alliance
450connect
4K Solutions
5G PPP (5G Infrastructure Public Private Partnership)
5GAA (5G Automotive Association)
5G-ACIA (5G Alliance for Connected Industries and Automation)
5G-IA (5G Infrastructure Association)
7Layers
A1 Telekom Austria Group
Aaeon Technology
AAR (American Association of Railroad)
ABB
Abu Dhabi Police
Accelleran
Accenture
ACCF (Australasian Critical Communications Forum)
Accton Technology Corporation
Accuver
Ace Technologies Corporation
AceAxis
ACMA (Australian Communications and Media Authority)
Adax
Addis Ababa Light Rail
ADF (Australian Defence Force)
ADLINK Technology
ADNOC (Abu Dhabi National Oil Company)
ADR (Aeroporti di Roma)
ADRF (Advanced RF Technologies)
ADTRAN
ADVA Optical Networking
Advantech
Advantech Wireless
Aegex Technologies
AEP Renewables
AeroMobile Communications
AeroVironment
Affarii Technologies
Affirmed Networks
Agnico Eagle
AGURRE (Association of Major Users of Operational Radio Networks, France)
Air France
Airbus
Airgain
Air-Lynx
Airrays
Airspan Networks
Airwavz Solutions
Ajman Police
AKOS (Agency for Communication Networks and Services of the Republic of Slovenia)
Alcobendas City Council
Alcom (Alands Telecommunications)
Alea/Talkway
Alepo
Alga Microwave
Alliander
Allied Telesis
Alpha Networks
Alpha Technologies
Alphabet
Alstom
Altaeros
Altair Semiconductor
ALTÁN Redes
Altice France
Altice USA
Altiostar Networks
Altran
Alvarion Technologies
AM Telecom
Amaggi
Amarisoft
Amazon
Ambra Solutions
Amdocs
Ameren Corporation
América Móvil
American Tower Corporation
Amit Wireless
Amphenol Corporation
An Garda Síochána (Irish National Police Service)
Anktion (Fujian) Technology
Anritsu Corporation
ANS (Advanced Network Services)
Antenna Company
Anterix (pdvWireless)
APCO (Association of Public-Safety Communications Officials) International
API (American Petroleum Institute)
APPA (American Public Power Association)
Apple
Aptel (Association of Proprietary Infrastructure and Private Telecommunications Systems Companies, Brazil)
Aptica
Aqura Technologies (Veris)
Arcadyan Technology Corporation
ARCEP (Autorité de Régulation des Communications Électroniques)
Archos
ARCIA (Australian Radio and Communications Industry Association)
Arete M
AREU (Azienda Regionale Emergenza Urgenza)
Argela/Netsia
ArgoNET
ARIB (Association of Radio Industries and Businesses, Japan)
ARM
Armasuisse (Federal Office for Defence Procurement, Switzerland)
Arqiva
ARRIS International
Arrow Energy
Artemis Networks
Artesyn Embedded Computing
Artiza Networks
ASELSAN
Askey Computer Corporation
ASOCS
Assured Wireless Corporation
Astellia
ASTRI (Hong Kong Applied Science and Technology Research Institute)
ASTRID
ASUS (ASUSTeK Computer)
AT&T
Atel Antennas
Athonet
ATIS (Alliance for Telecommunications Industry Solutions)
Atlas Telecom
ATN International
Atos
AttoCore
Ausgrid
Avanti Communications Group
AVI
Aviat Networks
AVX Corporation
AWWA (American Water Works Association)
Axon
Axxcelera Broadband Wireless
Axxcss Wireless Solutions
Azcom Technology
Azetti Networks
BABS/FOCP (Federal Office for Civil Protection, Switzerland)
BAE Systems
BAI Communications
Baicells Technologies
BAKOM/OFCOM (Federal Office of Communications, Switzerland)
BandRich
BandwidthX
Barrett Communications
BARTEC
BASE (Telenet)
BASF
BATM Advanced Communications
BATS (Broadband Antenna Tracking Systems)
Baylin Technologies
BBB (BB Backbone Corporation)
BBK Electronics Corporation
BC Hydro
BCE (Bell Canada)
BDBOS (Federal Agency for Public Safety Digital Radio, Germany)
BDEW (Federal Association of Energy and Water Industries, Germany)
Beach Energy
BEC Technologies
Beeline Armenia
Beeper Communications
Benetel
BesoVideo
BHP
Bilbao Metro
Billion Electric
Bird Technologies
Bittium Corporation
Black & Veatch
Black Box Corporation
Blackned
BLiNQ Networks
Blue Danube Systems
Blue Wireless
Bluebird
BLUnet (Axpo WZ-Systems)
BNetzA (Federal Network Agency, Germany)
BNPB (Indonesian National Board for Disaster Management).
Boingo Wireless
Boliden
Bombardier
Booz Allen Hamilton
BorgWarner
Bosch Rexroth
Bouygues Telecom
Boxchip
Brazilian Army
Bridgewave Communications
British Army
Broadcom
BroadForward
Broadpeak
BRTI (Indonesian Telecommunications Regulatory Authority)
BSNL
BT Group
BTG (Dutch Association of Large-Scale ICT & Telecommunications Users)
BTI Wireless
B-TrunC (Broadband Trunking Communication) Industry Alliance
Buenos Aires City Police
Bullitt
Bureau Veritas
Busan Transportation Corporation
BVSystems (Berkeley Varitronics Systems)
BYD
C Spire
CableFree (Wireless Excellence)
CableLabs
CACI International
CalAmp
Caltta
Cambium Networks
Cambridge Consultants
CAMET (China Association of Metros)
Canadian Army
CapX Nederland
Cargotec
Casa Systems
Casio Computer Company
Cat Phones (Caterpillar)
CBRS Alliance
CCI (Communication Components Inc.)
CCI Systems
CCN (Cirrus Core Networks)
CCSA (China Communications Standards Association)
CDE (Clarksville Department of Electricity) Lightband
CEA (Canadian Electricity Association)
CellAntenna Corporation
Cellcom
Cellnex Telecom
cellXica
Cemig (Companhia Energetica de Minas Gerais)
Centerline Communications
CEPT (European Conference of Postal and Telecommunications Administrations)
Ceragon Networks
CFE (Comisión Federal de Electricidad)
Challenge Networks
Charter Communications
Chemring Technology Solutions
Cheytec Telecommunications
China Mobile
China Southern Power Grid
China Telecom
China Unicom
Chongqing Dima
CHPC (Cirtek Holdings Philippines Corporation)
Cibicom
CICT (China Information and Communication Technology Group)/China Xinke Group
Ciena Corporation
Cirpack
Cisco Systems
CITIC Pacific Mining
City of London Police
CK Hutchison Holdings
Claro
Cloudstreet
CLP Power Hong Kong
CN (Canadian National Railway Company)
CND (Core Network Dynamics)
CNOOC (China National Offshore Oil Corporation)
CNPC (China National Petroleum Corporation)
Cobham Wireless
Codan Communications
Coherent Logix
Collinear Networks
Collins Aerospace
Colony Capital
Comba Telecom
Comcast Corporation
COMLAB
CommAgility
CommScope
Comrod Communication Group
Comtech Telecommunications Corporation
CONET Technologies
Connect Tech
Connectivity Wireless Solutions
Contela
Contour Networks
Coolpad
Copel (Companhia Paranaense de Energia)
Coriant
Cornet Technology
Corning
Cox Communications
CPqD (Center for Research and Development in Telecommunications, Brazil)
Cradlepoint
CRC (Communications Research Centre Canada)
Crown Castle International Corporation
CS Corporation
Cubic Corporation
Cubic Telecom
CybertelBridge
Daimler
Dali Wireless
Dalton Utilities
DAMM Cellular Systems
DART (Dallas Area Rapid Transit)
Datang Telecom Technology & Industry Group
DBcom
DDPS (Federal Department of Defence, Civil Protection and Sport, Switzerland)
DEKRA
Dell Technologies
Delta/Agema
Deltenna
Dense Air
DEPEN (National Penitentiary Department, Brazil)
Dhaka Mass Transit Company
Dialogic
Digi International
Digital Bridge Holdings
Digital Colony/Freshwave Group
D-Link Corporation
DMI
Dongguan Electric Power Company
DragonWave-X
DRDC (Defence Research and Development Canada)
Druid Software
DSA (Dynamic Spectrum Alliance)
DSB (Directorate for Civil Protection, Norway)
DSTL (Defence Science and Technology Laboratory, United Kingdom)
DT (Deutsche Telekom)
Dublin City Council
Duke Energy Corporation
Duons
Durabook (Twinhead International Corporation)
Dynabook
e.GO Mobile
EA Networks (Electricity Ashburton)
Easycom (Shenzhen Easycom Electronics)
E-Band Communications
EchoStar Corporation
ECI Telecom
Ecom Instruments
Ecotel
ECT (Hutchison Ports ECT Rotterdam)
EDF (Électricité de France)
EDF Energy
EDP (Energias de Portugal)
EE
EEI (Edison Electric Institute)
EF Johnson Technologies
EION Wireless
Ekinops
Elbit Systems
Elefante Group
Elektro
Elisa
Elistair
Elta Systems
ELUON Corporation
Embraer
EMERCOM (Ministry for Civil Defense, Emergencies and Disaster Relief, Russia)
Emerson
ENA (Energy Networks Association)
Encore Networks
Enel Distribución Río
Enel Group
ENENSYS Technologies
Energex
EnerSys
Enexis
ENLETS (European Network of Law Enforcement Technology Services)
ENTELEC (Energy Telecommunications and Electrical Association)
Epiroc
ERA (European Union Agency for Railways)
Ericsson
Erillisverkot (State Security Networks Group, Finland)
EsalqTec
Esharah Etisalat Security Solutions
Eskom
Essential Products
Estalky (K-Mobile Technology)
ETELM
eTera Communication/Sinotech R&D Group
Etherstack
Ethertronics
Etisalat
ETRI (Electronics & Telecommunications Research Institute, South Korea)
ETSI (European Telecommunications Standards Institute)
Etteplan
Eurona Wireless Telecom
EUTC (European Utilities Telecom Council)
EWA (Enterprise Wireless Alliance)
Excelerate Group
EXFO
Expeto
Exprivia
Expway
ExRobotics
ExteNet Systems
Eyecom Telecommunications Group
FAB (Brazilian Air Force)
Facebook
Fairspectrum
Fairwaves
Fastback Networks (CBF Networks)
FAW Group
FCNT (Fujitsu Connected Technologies)
Federal Police of Mexico
Federated Wireless
FedEx
Fenix Group
FFI (Defence Research Establishment, Norway)
FiberHome Technologies
Fibocom Wireless
Finavia
FinnHEMS (Finnish Helicopter Emergency Medical Services)
Finnish Border Guard
Finnish Defence Forces
FirstNet (First Responder Network) Authority
Flash Private Mobile Networks
Flightcell International
Foshan Power Supply Bureau
FPInnovations
Fraunhofer FOKUS (Institute for Open Communication Systems)
Fraunhofer HHI (Heinrich Hertz Institute)
Fraunhofer IIS (Institute for Integrated Circuits)
Fraunhofer IPT (Institute for Production Technology)
French Army
French Ministry of Defense
French Ministry of Interior
French National Gendarmerie
French National Police
Frequentis
FRTek
Fujian BelFone Communications Technology
Fujitsu
Funk-Electronic Piciorgros
Funkwerk
Future Technologies Venture
Galtronics Corporation
GCF (Global Certification Forum)
GCT Semiconductor
GE (General Electric)
Gemalto
Gemtek Technology
Genaker
General Dynamics Mission Systems
GenXComm
Geotab
Geoverse
German Armed Forces (Bundeswehr)
Getac Technology Corporation
Gilat Satellite Networks
Glencore Coal
Globalstar
GO Internet
Gogo
Gold Fields
Goodman Networks
Goodmill Systems
Google
Green Packet
GRENTECH
Groupe ADP (Aéroport de Paris)
GroupTalk
GSI (GS Instech)/GST (GS Teletech)
Guangzhou Power Supply Bureau
GWT (Global Wireless Technologies)
GWTCA (Government Wireless Technology & Communications Association)
Haikou Electric Power Bureau
Hainan Power Grid Company
Halton Regional Police Service
Halys
Handheld Group
Hanjin Newport
HAPSMobile
Harbor Max
Harwich International Port
HBFEC (Hebei Far East Communication System Engineering)
HCL Technologies
Heathrow Airport Holdings
Heathrow Commercial Telecoms
HFR
HiSilicon
HISPASAT Group
Hitachi
Hitachi Rail STS
HKT
HMD Global
Hoimyung ICT
Home Office, United Kingdom
Hon Hai Precision Industry/Foxconn Technology Group
Honeywell International
Hong Kong Police Force
Hoverfly Technologies
HP
HPA (Hamburg Port Authority)
HPE (Hewlett Packard Enterprise)
HTC Corporation
Huawei
Hub One
Huber+Suhner
Hughes Network Systems
Hungarian Ministry of Interior
Hunter Technology
Huntsville Police Department
Hydro-Québec
Hytera Communications
Hytera Mobilfunk
IAI (Israel Aerospace Industries)
Iberdrola
IBM Corporation
IB-RED
iBwave Solutions
Ice Group
Ice Norge
Icom
ICT (Islamabad Capital Territory)
IDEMIA
IDF (Israel Defense Forces)
IDY Corporation
IETF (Internet Engineering Task Force)
IgniteNet
IGOF (International Governmental Operators’ Forum)
IIJ (Internet Initiative Japan)
Imaginet International
IMDA (Info-communications Media Development Authority of Singapore)
IMPTT
IMSWorkX
Indian Army
Indra
INET (Infrastructure Networks)
Infinera
Infomark Corporation
Infovista
Inmarsat
Innogy
InnoWireless
Inrico (Shenzhen Inrico Electronics)
Inseego Corporation
Instant Connect
Intel Corporation
Intelsat
InterDigital
Internal Security Forces, Lebanon
Interop Technologies
Intracom Telecom
IoT4Net
ip.access
IPITEK (Integrated Photonics Technology)
IPLOOK Networks
Iradio Electronics
Iridium Communications
IRIS (Red Nacional de Radiocomunicación de Misión Crítica Tetrapol)
Isala Klinieken Hospital
ISC (International Speedway Corporation)
ISCO International
ISED (Innovation, Science and Economic Development Canada)
Iskratel
Israel Police
Israel Railways
IS-Wireless
Italian Army
Italian Ministry of Interior
Italtel
ITELAZPI
ITRI (Industrial Technology Research Institute, Taiwan)
ITU (International Telecommunication Union)
IWT (Innovative Wireless Technologies)
Jaton Technology
Jazz (Pakistan Mobile Communications)
JCI (Japan Communications Inc.)
JEMS (Japan EM Solutions)
JMA Wireless
Jordanian Armed Forces
JRC (Japan Radio Company)
JRC (Joint Radio Company)
Juni Global
Juniper Networks
JVCKENWOOD Corporation
Kalmar
Kantonspolizei Zürich (Cantonal Police of Zurich)
Kapsch CarrierCom
Kathrein Mobile Communication (Ericsson)
KBR
KCC (Korea Communications Commission) has
Kenyan Police Service
Key Bridge Wireless
Keysight Technologies
Kirisun Communications
Kisan Telecom
Klas Telecom
Klein Electronics
Kleos
KMA (Korea Military Academy)
KMBG (Dutch Critical Mobile Broadband Users) Expert Group
KMW
Kodiak Networks
Komatsu
Konecranes
Koning & Hartman
Kontron
KPCN (Korps Politie Caribisch Nederland)
KPN
KPN Critical Communications
KRNA (Korea Rail Network Authority)
KRRI (Korea Railroad Research Institute)
KT Corporation
Kudelski Group
KUKA
Kumu Networks
K-Won
Kymeta Corporation
Kyocera Corporation
Kyrio
L&T (Larsen & Toubro)
L3Harris Technologies
Land Rover Explore
Landmark Dividend
LCR Embedded Systems
Leidos
Lemko Corporation
Lenovo
Leonardo
LG Chem
LG CNS
LG Corporation
LG Electronics
LG Innotek
LG Uplus
LGS Innovations
Ligado Networks
Lime Microsystems
Lisheng Fujian Communications
LMCC (Land Mobile Communications Council)
Lociva
Lockheed Martin Corporation
LoJack
Longsung Technology
LS telcom
M/C Partners
M1
M87
Madagascar National Police
Marlink Group
Martin UAV
Marubeni
Marvell Technology Group
Masmovil
Mavenir Systems
MCMC (Malaysian Communications and Multimedia Commission)
McWane
MediaTek
MegaFon
Mellanox Technologies
MER Group
Mercedes-Benz Cars
Metaswitch Networks
Metro Network Services
MIC (Ministry of Internal Affairs and Communications, Japan)
Microlab
Microsoft Corporation
Microwave Networks
MIIT (Ministry of Industry and Information Technology, China)
Mimosa Networks
Minas Gerais State Military Police
Ministry of Citizen Protection & Public Order, Greece
Ministry of Interior and Security, Côte d’Ivoire
Ministry of National Security, Trinidad & Tobago
Ministry of Public Security, Madagascar
MitraStar Technology Corporation
Mitsubishi Electric Corporation
MMG
MND (Ministry of National Defense, South Korea)
Mobile Tornado
MobileDemand
Mobilicom
Mobilitie
Modular Mining Systems
MOF (Ministry of Oceans and Fisheries, South Korea)
MOIS (Ministry of the Interior and Safety, South Korea)
MOLIT (Ministry of Land, Infrastructure, and Transport, South Korea)
Moscow Police
Motorola Mobility
Motorola Solutions
MP Antenna
MPA (Maritime and Port Authority of Singapore)
MPF (Mauritius Police Force)
MRC (Mobile Radio Center)
MSB (Civil Contingencies Agency, Sweden)
MT (Mauritius Telecom)
MTC (Ministry of Transport and Communications, Peru)
MTI (Microelectronics Technology, Inc.)
MTN Group
MTS (Mobile TeleSystems)
MulteFire Alliance
Multi-Tech Systems
Mushroom Networks
Mutualink
MVM Group
MVM NET
MYT Electronics
N.A.T.
NAKIT (National Agency for Communication, Czech Republic)
Nash Technologies
National Guard of the Russian Federation
National Police of Colombia
National Police of Peru
National Police of the Netherlands
Naval Group (DCNS)
NBA (National Basketball Association)
NEC Corporation
Nedaa
Nemergent Solutions
Neoenergia
Neolink Communications Technology
Neptune Mobile
Neste
Net1 International
Net1 PH
Net1 Sweden (Netett Sverige)
Netas
NetCity (GEOS Telecom/GEOS Holding)
NetComm Wireless
Netgear
NetGenuity
NetMotion Software
NetNumber
NETSCOUT Systems
Neutral Connect Networks
New Postcom Equipment
New Zealand Police
Newport Utilities
Nextivity
NFL (National Football League)
NI (National Instruments)
Nigeria Police Force
Nkom (Norwegian Communications Authority)
Node-H
Nokia
Nominet
Nordic Telecom
Norsat International
Northern Michigan University
Northern Star Resources
Northrop Grumman Corporation
Norwegian Police Service
NRECA (National Rural Electric Cooperative Association)
NS (Nederlandse Spoorwegen)
Nsight
NSW (New South Wales) Telco Authority
NU Connect
Nubia Technology
NuRAN Wireless
Nutaq Innovation
NVision Group
NXP Semiconductors
Ocado
Oceus Networks
Octasic
ODN (Orbital Data Network)
Ofcom (Office of Communications, United Kingdom)
Oi
OMA (Open Mobile Alliance)
Oman Royal Office
Omnitele
ONCF (Moroccan National Railway Office)
One2many
OneAccess
OnePlus
OneWeb
Ooredoo
OPPO
Optus
Oracle Communications
Orange
Orange Belgium
Orange Poland
Origin Energy
Orion Labs
Ørsted
OSRAM
O?arowice Government
PacStar (Pacific Star Communications)
Panasonic Avionics Corporation
Panasonic Corporation
Panda Electronics
Panorama Antennas
Parallel Wireless
Parks Canada
Parsons Corporation
Pavlov Media
PCCW
PCTEL
PCTEST Lab (PCTEST Engineering Laboratory)
PEA (Provincial Electricity Authority, Thailand)
Peel Regional Police
Pei Tel Communications
Peiker
Pemex (Petróleos Mexicanos)
Pentonet
Pepperl+Fuchs
Pepro
Perspecta Labs
Petrobras (Petroleo Brasileiro)
PetroChina
PGA Tour
PGE Systemy
PHAZR
Philippine Red Cross
Phluido
Pierson Wireless
Pixavi
PLA (People’s Liberation Army)
Plover Bay Technologies (Peplink/Pepwave)
PMN (Private Mobile Networks)
PoCStar (Shanli Tongyi Information Technology)
Polaris Networks
Polizia di Stato (State Police, Italy)
Port of Durban
Port of Felixstowe
Port of HaminaKotka
Port of Immingham
Port of Kokkola
Port of Oulu
Port of Qingdao
Port of Rotterdam Authority
Potevio
PRESCOM
PrioCom
Proximus
PSBTA (Public Safety Broadband Technology Association)
PSCA (Punjab Safe Cities Authority)
PSCE (Public Safety Communications Europe)
PSTA (Public Safety Technology Alliance)
PTA (Public Transport Authority) of Western Australia
PTI (Persistent Telecom Inc.)
Public Safety Canada
Publicis Sapient
Puloli
Pulse Electronics
Qatar Armed Forces
Qatar MOI (Ministry of Interior)
QCT (Quanta Cloud Technology)
Qinetiq
QuadGen Wireless Solutions
Qualcomm
Quanta Computer
Quantum Wireless
Qucell
Quectel Wireless Solutions
Quintel
Qulsar
Quortus
RAC (Railway Association of Canada)
RACOM Corporation
RAD Data Communications
Radio IP Software
Radisys Corporation
RADWIN
RAF (Royal Air Force)
Rafael Advanced Defense Systems
Rai Way
RailTel/Indian Railways
Raizen
Rajant Corporation
Range Networks
RATP Group
Raycap
Raytheon Company
Realme
Rearden
Red Hat
Red Rover
RED Technologies
REDCOM Laboratories
Redline Communications
Reliance Industries
REMEC Broadband Wireless Networks
Repsol
RESCAN (Canary Islands Network for Emergency and Security)
Rescue 42/PodRunner
Resolute Forest Products (Produits Forestiers Resolu)
RF Window
RFS (Radio Frequency Systems)
Ribbon Communications
RIKS (State Infocommunication Foundation, Estonia)
Rio de Janeiro Fire Department
Rio Tinto Group
RIVA Networks
Rivada Networks
Rivas Vaciamadrid City Council
Robert Bosch
Robustel
Rogers Communications
Rohde & Schwarz
Rohill
ROK (Republic of Korea) Army
ROKAF (Republic of Korea Air Force)
ROP (Royal Oman Police)
Rosenberger
Rostelecom
Roy Hill Holdings
Royal Dutch Shell
Royal Thai Police
RTRS (Russian Television and Radio Broadcasting Network)
RTX A/S
Ruckus Networks
RugGear
Ruijie Networks
Rush University Medical Center
Russian Army
Russian Ministry of Defense
Russian Ministry of Internal Affairs
Russian Railways
RWG (Rotterdam World Gateway)
S&T
Saab
SAF (Singapore Armed Forces)
Safari Telecom
Safaricom
SafeMobile
Safe-Net Forum
Safer Buildings Coalition
Safran
SAGE SatCom
SAI Technology
SAIC (Science Applications International Corporation)
Samji Electronics
Samsung
Sandvik
Sanjole
Santos
São Paulo State Military Police
Saudi Aramco
Saudi MOI (Ministry of Interior)
SBA Communications Corporation
Scania
SCF (Small Cell Forum)
Schneider Electric
SCRF (State Commission for Radio Frequencies, Russia)
SDG&E (San Diego Gas & Electric Company)
Seamless Air Alliance
Secure Chorus
Sempra Energy
Seoul Metro
Seowon Intech
Sepura
Sequans Communications
Serbian Ministry of Interior
Sercomm Corporation
SES
SETAR
Sevis Systems
SFR
SGCC (State Grid Corporation of China)
SGP (Société du Grand Paris)
SGS
Shanghai Pearl Oriental Group
Shanghai Police Department
Sharp Corporation
Shentel (Shenandoah Telecommunications Company)
Shenzhen Power Supply Bureau
Shenzhen Recoda Technologies
Shift2Rail
SHR (Shuohuang Railway)
SIAE Microelettronica
Siemens
Siemens Mobility
Sierra Wireless
Signal Information & Communication Corporation
Siklu Communication
Silicom SAS (France)
SIMCom Wireless Solutions
Simoco Wireless Solutions
Sinclair Technologies
Singapore Police Force
Singtel
SiRRAN Communications
Sitarail
SITRONICS
Siyata Mobile/Uniden
SK Telecom
SK Telesys
SLA Corporation/ESChat
SLC (Secure Land Communications)
Slovenian Ministry of Public Administration
SM Optics
Smart Cities Council
Smart Communications
SMART Global Holdings
Smartfren
SmarTone
SmartSky Networks
SNCF (French National Railways)
SoftBank Group
Softil
SOLiD
Soliton Systems
Sonim Technologies
Sony Corporation
Sony Mobile Communications
Sooktha
South32
Southern Adriatic Sea Port Authority
Southern Company
Southern Linc
Space Data Corporation
Spanish Army
Spanish Ministry of Interior
Spectra Group
Speedcast International
SpiderCloud Wireless
SPIE Group
Spirent Communications
Sporton International
Sprint Corporation
SRS (Software Radio Systems)
ST Engineering iDirect
ST Engineering Land Systems
Stadtpolizei Zürich (Zurich City Police)
Star Microwave
Star Solutions
STC (Saudi Telecom Company)
STC Specialized (Bravo)
STEALTH Concealment Solutions
Stedin
Steep
Steveco
STI (Sampoerna Telekomunikasi Indonesia)
STMicroelectronics
sTraffic
StrattoOpencell
StreamWIDE
STS (Special Telecommunication Service, Romania)
Sumitomo Electric Industries
Sunrise Communications
Sunsea AIoT
SuperCom
Suzhou Aquila Solutions (Aquila Wireless)
Swedish Armed Forces
Swedish Ministry of Justice
Swedish Police Authority
Swisscom
Swisscom Broadcast
Syniverse Technologies
Sysoco
System Innovation Group
T&W (Shenzhen Gongjin Electronics)
TacSat Networks
Tait Communications
Talk-IP International
Talkpod Technology
Tampa Microwave
Tampnet
Tango Networks
Taoglas
TASSTA
Tata Elxsi
TCCA (The Critical Communications Association)
TCL Communication (TCL/Alcatel/BlackBerry)
TCOM
TD Tech
Tech Mahindra
Technicolor
Técnicas Competitivas
Tecom
Tecore Networks
TEKTELIC Communications
Tel Aviv Light Rail
Telco Systems
Teldat
Tele2 Russia/SkyLink
Telecom26
Telefónica Deutschland
Telefónica Group
Telenor Group
Telenor Maritime
Telent Technology Services
Telespazio
TeleWare
Teleworld Solutions
Telia Company
Telit Communications
Tellabs
Telo Systems Corporation
Telrad Networks
Telstra
Teltronic
Telus
TEN (Texas Energy Network)
Teracom Group
TESSCO Technologies/Ventev
Thales
Three UK
TI (Texas Instruments)
TIA (Telecommunications Industry Association)
Tillman Infrastructure
TIM (Telecom Italia Mobile)
TIM Brasil
TLC Solutions
T-Mobile US
TOKIE Solutions/Irvees Technology
Tokyo Metro
Toshiba Corporation
TRAI (Telecom Regulatory Authority of India)
Transit Wireless
Transnet
Trópico
TSDSI (Telecommunications Standards Development Society, India)
T-Systems
TTA (Telecommunications Technology Association, South Korea)
TTC (Telecommunication Technology Committee, Japan)
Turk Telekom
Turkcell
Turkish National Police Force
Twilio
Tyne and Wear Fire and Rescue Service
U.S. Air Force
U.S. Army
U.S. Cellular
U.S. Coast Guard
U.S. Department of Commerce
U.S. DHS (Department of Homeland Security)
U.S. DOD (Department of Defense)
U.S. DOE (Department of Energy)
U.S. FCC (Federal Communications Commission)
U.S. Marines Corps
U.S. Navy
U.S. NIST (National Institute of Standards and Technology)
U.S. NPSTC (National Public Safety Telecommunications Council)
U.S. NREL (National Renewable Energy Laboratory)
U.S. NTIA (National Telecommunications and Information Administration)
UANGEL
UBBA (Utility Broadband Alliance)
Ubicquia
U-Blox
UGL
UIC (International Union of Railways)
UK Broadband
Ukkoverkot
UL
UMC (University Medical Centre) Utrecht
UN (United Nations)
UNIFE (The European Rail Supply Industry Association)
UNIMO Technology
Unisoc
UniStrong
United Kingdom MoD (Ministry of Defence)
United Technologies Corporation
URSYS
USSOCOM (U.S. Special Operations Command)
UTC (Utilities Technology Council)
UTCAL (Utilities Telecom & Technology Council América Latina)
Utility (Utility Associates)
Utility Connect
Vanu
Vattenfall
VDE (Association for Electrical, Electronic & Information Technologies, Germany)
VEON
Verizon Communications
Vertical Bridge
Verveba Telecom
VHA (Vodafone Hutchison Australia)
Viasat
Viavi Solutions
Victoria Police
Vientiane Municipal Government
Vientiane Municipal Police
VINCI Energies
VinSmart/Vingroup
Virtualnetcom/VNC (Virtual Network Communications)
Vislink Technologies
Vital NZ
Vivint Internet
Vivo
VKU (Association of Local Public Utilities, Germany)
VMware
VNL (Vihaan Networks Limited)
Vodacom Group
Vodafone Germany
Vodafone Group
Vodafone New Zealand
Voentelecom
Volkswagen Group
Volvo CE (Construction Equipment)
Voxer
Voyage Auto
VR Group (Finnish State Railways)
VTT Technical Research Centre of Finland
VVDN Technologies
Vy Group
Wave Wireless
Wavetel Technology
Westell Technologies
Western Power Distribution
WH Bence Group
Widelity
WIG (Wireless Infrastructure Group)
Wildox (Shenzhen Happy Technology)
WiMAX Forum
Wind Tre
WInnForum (Wireless Innovation Forum)
Wipro
Wireless Logic Group
Wireless Technologies Finland
Wireless Telecom Group
WNC (Wistron NeWeb Corporation)
Wouxun (Quanzhou Wouxun Electronics)
WTL (World Telecom Labs)
Wytec International
XCOM
XGP (eXtended Global Platform) Forum
Xiaomi Corporation
Xilinx
XipLink
Yageo Corporation
Yanton (Quanzhou Yanton Electronics)
Yokogawa Electric Corporation
Yongin Severance Hospital
YUHS (Yonsei University Health System)
Yunnan Electric Power Company
Zain Saudi Arabia
Z-Com
Zcomax Technologies
Zebra Technologies
Zello
ZenFi Networks
Zetel Solutions
Zetron
ZF
Zhengzhou Metro
Zhuhai Power Supply Bureau
ZII (Zodiac Inflight Innovations)
Zinwave
Zmtel (Shanghai Zhongmi Communication Technology)
ZTE
Zyxel Communications Corporation

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Table of Contents

1 Chapter 1: Introduction 43
1.1 Executive Summary 43
1.2 Topics Covered 46
1.3 Forecast Segmentation 48
1.4 Key Questions Answered 50
1.5 Key Findings 52
1.6 Methodology 56
1.7 Target Audience 57
1.8 Companies & Organizations Mentioned 58

2 Chapter 2: An Overview of Private LTE/5G Networks 64
2.1 Private Wireless Networks 64
2.1.1 Addressing the Needs of the Critical Communications Industry 64
2.1.2 The Limitations of LMR (Land Mobile Radio) Networks 65
2.1.3 Growing Use of Commercial Mobile Broadband Technologies 66
2.1.4 Connectivity Requirements for the Industrial IoT (Internet of Things) 67
2.1.5 Localized Mobile Networks for Buildings, Campuses & Public Venues 67
2.2 LTE & 5G for Private Networking 68
2.2.1 Why LTE & 5G? 68
2.2.2 Performance Metrics 69
2.2.3 Coexistence, Interoperability and Spectrum Flexibility 69
2.2.4 A Thriving Ecosystem of Chipsets, Devices & Network Equipment 70
2.2.5 Economic Feasibility of Operation 70
2.2.6 Moving Towards LTE-Advanced & LTE-Advanced Pro 71
2.2.7 Private LTE Support in LTE-Advanced Pro 71
2.2.8 5G NR (New Radio) Capabilities & Usage Scenarios 72
2.2.8.1 eMBB (Enhanced Mobile Broadband) 73
2.2.8.2 URLCC (Ultra-Reliable Low-Latency Communications) 73
2.2.8.3 mMTC (Massive Machine-Type Communications) 74
2.3 Private LTE & 5G Network Operational Models 75
2.3.1 Independent Private Network 75
2.3.2 Managed Private Network 76
2.3.3 Shared Core Private Network 77
2.3.4 Hybrid Commercial-Private Network 78
2.3.5 Private MVNO: Commercial Network with a Private Mobile Core 79
2.3.6 Other Approaches 80
2.4 Key Applications of Private LTE & 5G Networks 80
2.4.1 Secure & Seamless Mobile Broadband Access 80
2.4.2 Bandwidth-Intensive & Latency-Sensitive Field Applications 80
2.4.3 Bulk Multimedia & Data Transfers 81
2.4.4 In-Building Coverage & Capacity 81
2.4.5 Seamless Roaming & Mobile VPN Access 82
2.4.6 Mission-Critical HD Voice & Group Communications 82
2.4.7 Video & High-Resolution Imagery 83
2.4.8 Massive-Scale Video Surveillance & Analytics 84
2.4.9 Messaging & Presence Services 84
2.4.10 Location Services & Mapping 85
2.4.11 Command & Control Systems 85
2.4.12 Smart Grid Operations 86
2.4.13 Environmental Monitoring 86
2.4.14 Industrial Automation 87
2.4.15 Connected Robotics 87
2.4.16 Machine Vision 87
2.4.17 AR/VR (Augmented & Virtual Reality) 88
2.4.18 Telehealth & Remote Surgery 88
2.4.19 High-Speed Railway Connectivity 88
2.4.20 PIS (Passenger Information Systems) 89
2.4.21 Delay-Sensitive Control of Railway Infrastructure 89
2.4.22 In-Flight Connectivity for Passengers & Airline Operators 90
2.4.23 Maritime Connectivity for Vessels & Offshore Facilities 90
2.4.24 Telemetry, Control & Remote Diagnostics 90
2.4.25 Unmanned Ground, Marine & Aerial Vehicles 91
2.5 Market Drivers 92
2.5.1 Recognition of LTE & 5G as the De-Facto Platform for Wireless Connectivity 92
2.5.2 Spectral Efficiency & Bandwidth Flexibility 92
2.5.3 Regional Interoperability & Cost Efficiency 93
2.5.4 Endorsement from the Critical Communications Industry 93
2.5.5 Emergence of Unlicensed & Shared Spectrum Technologies 94
2.5.6 Growing Demand for High-Speed & Low-Latency Data Applications 94
2.5.7 Limited Coverage in Indoor, Industrial & Remote Environments 95
2.5.8 Favorable Licensing Schemes for Localized LTE & 5G Networks 95
2.5.9 Control over QoS (Quality-of-Service) 96
2.5.10 Privacy & Security 96
2.6 Market Barriers 97
2.6.1 Lack of Licensed Spectrum for Wide-Area Coverage 97
2.6.2 Funding Challenges for Large-Scale Networks 97
2.6.3 Technical Complexities of Implementation & Operation 98
2.6.4 Smaller Coverage Footprint Than Legacy LMR Systems 98
2.6.5 Competition from IEEE 802.16s, AeroMACS, WiGRID & Other Technologies 98
2.6.6 Delayed Standardization 99

3 Chapter 3: System Architecture & Technologies for Private LTE/5G Networks 100
3.1 Architectural Components of Private LTE & 5G Networks 100
3.1.1 UE (User Equipment) 101
3.1.2 E-UTRAN – LTE RAN (Radio Access Network) 102
3.1.2.1 eNBs – LTE Base Stations 102
3.1.3 NG-RAN – 5G NR (New Radio) Access Network 103
3.1.3.1 gNBs – 5G NR Base Stations 104
3.1.3.2 en-gNBs – Secondary Node 5G NR Base Stations 104
3.1.3.3 ng-eNBs – Next Generation LTE Base Stations 105
3.1.4 Transport Network 105
3.1.4.1 Backhaul 105
3.1.4.2 Fronthaul & Midhaul 105
3.1.5 EPC (Evolved Packet Core) – The LTE Mobile Core 105
3.1.5.1 SGW (Serving Gateway) 106
3.1.5.2 PGW (Packet Data Network Gateway) 106
3.1.5.3 MME (Mobility Management Entity) 106
3.1.5.4 HSS (Home Subscriber Server) 107
3.1.5.5 PCRF (Policy Charging and Rules Function) 107
3.1.6 5GC (5G Core)/NGC (Next-Generation Core) 107
3.1.6.1 AMF (Access & Mobility Management Function) 109
3.1.6.2 UPF (User Plane Function) 109
3.1.6.3 SMF (Session Management Function) 109
3.1.6.4 PCF (Policy Control Function) 110
3.1.6.5 NEF (Network Exposure Function) 110
3.1.6.6 NRF (Network Repository Function) 110
3.1.6.7 UDM (Unified Data Management) 110
3.1.6.8 UDR (Unified Data Repository) 111
3.1.6.9 AUSF (Authentication Server Function) 111
3.1.6.10 AF (Application Function) 111
3.1.6.11 NSSF (Network Slice Selection Function) 111
3.1.6.12 NWDAF (Network Data Analytics Function) 112
3.1.6.13 Other Elements 112
3.1.7 IMS (IP-Multimedia Subsystem), Application & Service Elements 113
3.1.7.1 IMS Core & VoLTE/VoNR 113
3.1.7.2 eMBMS/FeMBMS – Broadcasting/Multicasting over LTE/5G Networks 114
3.1.7.3 ProSe (Proximity Services) 115
3.1.7.4 Group Communication & Mission-Critical Services 115
3.1.8 Gateways for LTE/5G-External Network Interworking 116
3.2 Key Enabling Technologies & Concepts 117
3.2.1 Critical Communications 117
3.2.1.1 MCPTT (Mission-Critical PTT) Voice & Group Communications 117
3.2.1.2 Mission-Critical Video & Data 117
3.2.1.3 ProSe (Proximity Services) for D2D Connectivity & Communications 118
3.2.1.4 IOPS (Isolated E-UTRAN Operation for Public Safety) 119
3.2.1.5 Deployable LTE & 5G Systems 120
3.2.1.6 UE Enhancements 121
3.2.2 Industrial IoT 122
3.2.2.1 eMTC, NB-IoT & mMTC: Wide Area & High Density IoT Applications 122
3.2.2.2 Techniques for URLLC 123
3.2.2.3 TSN (Time Sensitive Networking) 123
3.2.3 QPP (QoS, Priority & Preemption) 124
3.2.4 High-Precision Positioning 124
3.2.5 End-to-End Security 125
3.2.6 Quantum Cryptography Technologies 126
3.2.7 Licensed Spectrum Sharing & Aggregation 126
3.2.8 Unlicensed & Shared Spectrum Usage 127
3.2.8.1 CBRS (Citizens Broadband Radio Service): Three-Tiered Sharing 127
3.2.8.2 LSA (Licensed Shared Access): Two-Tiered Sharing 128
3.2.8.3 sXGP (Shared Extended Global Platform): Non-Tiered Unlicensed Access 129
3.2.8.4 LTE-U/LAA (License Assisted Access) & eLAA (Enhanced LAA): Licensed & Unlicensed Spectrum Aggregation 129
3.2.8.5 MulteFire 130
3.2.8.6 5G NR-U 131
3.2.9 SDR (Software-Defined Radio) 131
3.2.10 Cognitive Radio & Spectrum Sensing 131
3.2.11 Wireless Connection Bonding 132
3.2.12 Network Sharing & Slicing 132
3.2.12.1 MOCN (Multi-Operator Core Network) 132
3.2.12.2 DECOR (Dedicated Core) 132
3.2.12.3 Network Slicing 133
3.2.13 Software-Centric Networking 134
3.2.13.1 NFV (Network Functions Virtualization) 134
3.2.13.2 SDN (Software Defined Networking) 134
3.2.14 Small Cells 135
3.2.15 C-RAN (Centralized RAN) 136
3.2.16 SON (Self-Organizing Networks) 137
3.2.17 MEC (Multi-Access Edge Computing) 137
3.2.18 Artificial Intelligence & Machine Learning 138
3.2.19 Big Data & Advanced Analytics 139

4 Chapter 4: Vertical Markets, Case Studies & Private LTE/5G Engagements 140
4.1 Vertical Markets 140
4.1.1 Critical Communications & Industrial IoT 140
4.1.1.1 Public Safety 140
4.1.1.2 Military 142
4.1.1.3 Energy 143
4.1.1.4 Utilities 143
4.1.1.5 Mining 144
4.1.1.6 Transportation 145
4.1.1.7 Factories & Warehouses 146
4.1.1.8 Others 147
4.1.2 Enterprise & Campus Environments 148
4.1.3 Public Venues & Other Neutral Hosts 148
4.2 Private LTE & 5G Network Case Studies 150
4.2.1 Agnico Eagle 150
4.2.2 Air France 152
4.2.3 ASTRID’s BLM (Blue Light Mobile) Service 155
4.2.4 BBB (BB Backbone Corporation) 157
4.2.5 Beach Energy 159
4.2.6 Busan Transportation Corporation 162
4.2.7 China Southern Power Grid 164
4.2.8 Daimler/Mercedes-Benz Cars 166
4.2.9 EAN (European Aviation Network) 168
4.2.10 Elektro (Neoenergia/Iberdrola) 171
4.2.11 Enel Group 173
4.2.12 FirstNet (First Responder Network) Authority 176
4.2.13 France’s PCSTORM Critical Communications Broadband Project 180
4.2.14 French Army 183
4.2.15 German Armed Forces (Bundeswehr) 186
4.2.16 Gold Fields 188
4.2.17 Halton Regional Police Service 190
4.2.18 Heathrow Airport 192
4.2.19 INET (Infrastructure Networks) 194
4.2.20 Kenyan Police Service 197
4.2.21 KMA (Korea Military Academy) 199
4.2.22 KRNA (Korea Rail Network Authority) 201
4.2.23 LG Chem 204
4.2.24 Nedaa 206
4.2.25 Ocado 208
4.2.26 PGA Tour 210
4.2.27 Port of Rotterdam 212
4.2.28 PSCA (Punjab Safe Cities Authority) 214
4.2.29 Qatar MOI (Ministry of Interior) 216
4.2.30 RESCAN (Canary Islands Network for Emergency and Security) 218
4.2.31 Rio Tinto Group 220
4.2.32 Rivas Vaciamadrid City Council 223
4.2.33 Royal Thai Police 225
4.2.34 Shanghai Police Department 228
4.2.35 South Korea’s Safe-Net (National Disaster Safety Communications Network) 230
4.2.36 Southern Linc 233
4.2.37 Tampnet 236
4.2.38 U.S. Navy 239
4.2.39 Ukkoverkot 241
4.2.40 UN (United Nations) 245
4.2.41 United Kingdom’s ESN (Emergency Services Network) 247
4.2.42 Zhengzhou Metro 252
4.3 Review of Other Private LTE & 5G Network Engagements 254
4.3.1 Asia Pacific 254
4.3.1.1 Bangladesh 254
4.3.1.2 Australia 254
4.3.1.3 China 256
4.3.1.4 Hong Kong 258
4.3.1.5 India 258
4.3.1.6 Indonesia 259
4.3.1.7 Japan 260
4.3.1.8 Laos 261
4.3.1.9 Malaysia 262
4.3.1.10 New Zealand 262
4.3.1.11 Pakistan 263
4.3.1.12 Philippines 264
4.3.1.13 Singapore 265
4.3.1.14 South Korea 266
4.3.1.15 Thailand 269
4.3.1.16 Other Countries 270
4.3.2 Europe 270
4.3.2.1 Austria 270
4.3.2.2 Belgium 271
4.3.2.3 Czech Republic 271
4.3.2.4 Denmark 272
4.3.2.5 Estonia 272
4.3.2.6 Finland 273
4.3.2.7 France 274
4.3.2.8 Germany 278
4.3.2.9 Hungary 280
4.3.2.10 Ireland 280
4.3.2.11 Italy 281
4.3.2.12 Netherlands 282
4.3.2.13 Norway 285
4.3.2.14 Poland 286
4.3.2.15 Portugal 286
4.3.2.16 Russia 286
4.3.2.17 Serbia 288
4.3.2.18 Slovenia 288
4.3.2.19 Spain 289
4.3.2.20 Sweden 291
4.3.2.21 Switzerland 293
4.3.2.22 Turkey 294
4.3.2.23 United Kingdom 295
4.3.2.24 Other Countries 298
4.3.3 Latin & Central America 298
4.3.3.1 Argentina 298
4.3.3.2 Bolivia 299
4.3.3.3 Brazil 299
4.3.3.4 Chile 301
4.3.3.5 Colombia 301
4.3.3.6 Ecuador 302
4.3.3.7 Mexico 302
4.3.3.8 Peru 303
4.3.3.9 Trinidad & Tobago 304
4.3.3.10 Venezuela 304
4.3.3.11 Other Countries 305
4.3.4 Middle East & Africa 305
4.3.4.1 Algeria 305
4.3.4.2 Cameroon 306
4.3.4.3 Côte d’Ivoire 306
4.3.4.4 Egypt 306
4.3.4.5 Ethiopia 306
4.3.4.6 GCC (Gulf Corporation Council) Countries 306
4.3.4.6.1 Oman 306
4.3.4.6.2 Qatar 307
4.3.4.6.3 Saudi Arabia 307
4.3.4.6.4 United Arab Emirates 308
4.3.4.7 Ghana 310
4.3.4.8 Iraq 310
4.3.4.9 Israel 310
4.3.4.10 Jordan 311
4.3.4.11 Kenya 311
4.3.4.12 Lebanon 312
4.3.4.13 Madagascar 312
4.3.4.14 Mali 312
4.3.4.15 Mauritius 312
4.3.4.16 Morocco 312
4.3.4.17 Nigeria 313
4.3.4.18 Republic of the Congo 313
4.3.4.19 South Africa 313
4.3.4.20 Zambia 314
4.3.4.21 Other Countries 315
4.3.5 North America 315
4.3.5.1 Canada 315
4.3.5.2 United States 318

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