Private Lte Market To Show Startling Growth During Forecast Period 2020–2027 : Huawei Technologies, Qualcomm Technologies Inc, Future Technologies, Comba Telecom Systems Holdings Ltd

The “Global Private Lte Market” report 2020 gives data to advertise players, partners, financial specialists, and business tacticians to accomplish a main situation in the market. It keeps up the record of Unusual development techniques received by different organizations that are making new guidelines for rivalry in the worldwide Private Lte Market. Organizations around the globe are targeting expanding their net revenue and building up a fortress in the worldwide market. The effect of the predominant administrative situation on both provincial and overall Private Lte Market is given in detail in the report.

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Top Companies which drives Private Lte Market Are:

  • Huawei Technologies
  • Qualcomm Technologies Inc
  • Future Technologies
  • Comba Telecom Systems Holdings Ltd
  • Nokia
  • Qualcomm Technologies Inc
  • Future Technologies


Global Private Lte Market Scope and Market Size:

Global Private Lte Market is segmented based on commodity, utilization and end- user. The growth amongst these sections will help you to investigate meagre extension segments in the industries, and provide the users with valuable market summary and Industry insights to help them in making strategic determinations for identification of core business applications.

Prominent Points in Private Lte Market Businesses Segmentation:

  • Market Classification
  • Private LTE Market, By Product Type, Estimates and Forecast, 2016-2027
  • Long-term Evolution Frequency Division Duplex (LTE-FDD)
  • Long-term Evolution Time Division Duplex (LTE-TDD)
  • Private LTE Market, By Industry Verticals, Estimates and Forecast, 2016-2027
  • Military and Defense
  • il and Gas
  • Healthcare
  • Transportation
  • Manufacturing and Industrial
  • Energy and Mining
  • thers
  • Private LTE Market

Regional Analysis: What Market breakdown Would be Covered by geographies, Classes & End-users:

  • North America Region
  • Europe Region
  • Asia-Pacific Region
  • South America Region
  • The Middle East & Africa Region

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Global Private Lte Market Infrastructure growth Established base and New Technology Penetration:

Global Private Lte Market also renders you with comprehensive market analysis for every country completion in worldwide market expenditure for capital equipment’s, installed base of different kind of products for Private Lte Market, impact of technology using life line curves and changes in Industry regulatory scenarios and their impact on the Private Lte Market. The data is available for historic period 2016 to 2027.

Competing Landscape:

Global Private Lte Market competitive view provides details by opponent. Accessories included are company survey, company financials, revenue produced, business potential, expenditure in research and development, new market actions, global appearance, creation sites and facilities, production abilities, company strengths and tendencies, product launch, product width and breadth, statement dominance. The above data features provided are only related to the organizations’ focus related to Private Lte Market.

Global Private Lte Market Significant Factors:

  • Market Environment: Government Policies, Technological Changes, Market Prospects.
  • Market Drivers: Rising Demand, Conversion in Cost, Market Possibilities, and Challenges.
  • Industry Bearings: the United States and Other Regions Revenue, Status, and Outlook.
  • Competing Scenery: By Manufacturers, Growth Trends, Marketing Area.
  • Market Segment: By Classes, By Applications, By Geography.
  • Sales Income: Market Share, Growth Rate, Current Market Analysis.

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This investigation is altered to meet your particular requirements:

  • o By Segment
  • o By Sub-fragment
  • o By Region/Country
  • o Product Specific Competitive Analysis
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    Market Reports News

    Private LTE Market Report Expected Massive Growth By 2020-2025 | Nokia, Ericsson, Huawei, NEC, Verizon

    The most recent report on Private LTE Market issued by DecisionDatabases, numerous aspects of the current market scenario has been taken into consideration and a concise analysis has been put together to bring you with a study that has pre and post COVID analysis. It is essential to address the current outbreak of COVID-19 in the current market scenario. The complete shutdown in many parts of the globe has directly or indirectly has been impacted included supply chain operations, new product development, and other activities. Our team of an analyst is watching continuously the market movement and offers real-time analysis regarding growth, decline, and opportunities which help you to make a fruitful decision for your businesses.

    Final Report will cover the impact of COVID-19 on this industry.

    The global Private LTE market report presents a complete research-based study of the industry including details such as company shares, forecast data, in-depth analysis and an outlook of the market on a worldwide platform. The report further highlights the market drivers, restraints and the top manufacturers at the global and regional levels. For a thorough understanding, the report also offers market segmentation and regional analysis for the forecast period from 2020 to 2025.

    Click here to get a Sample PDF Copy of the Private LTE Market Research Report @

    According to this study, over the next five years, the Private LTE market will register an xx% CAGR in terms of revenue, the global market size will reach $ xx million by 2025, from $ xx million in 2020. In particular, this report presents the global market share (sales and revenue) of key companies in the Private LTE business, shared in Chapter 3.

    This Private LTE market report also splits the market by regions: Americas (United States, Canada, Mexico, Brazil), APAC (China, Japan, Korea, Southeast Asia, India, Australia), Europe (Germany, France, UK, Italy, Russia, Spain), Middle East & Africa (Egypt, South Africa, Israel, Turkey, GCC Countries).

    This report presents a comprehensive overview, market shares, and growth opportunities of the Private LTE market by type, application, key manufacturers, key regions, and countries.

    The key manufacturers covered in this report: Breakdown data in Chapter 3.

    • Nokia
    • Ericsson
    • Huawei
    • NEC
    • Verizon
    • Cisco
    • Samsung
    • Comba
    • Arris International
    • Netnumber
    • General Dynamics
    • Mavenir
    • Future Technologies
    • Redline Communications
    • Pdvwireless
    • Others

    To inquire about report customization, feel free to reach out to our team of expert analysts @

    This study considers the Private LTE value and volume generated from the sales of the following segments:

    Segmentation by type: breakdown data from 2015 to 2020, in Section 2.3; and forecast to 2025 in section 11.7.

    • FDD
    • TDD

    Segmentation by application: breakdown data from 2015 to 2020, in Section 2.4; and forecast to 2025 in section 11.8.

    • Public Safety and Defense
    • Oil & Gas
    • Utilities
    • Mining
    • Transportation
    • Others

    In addition, this report discusses the key drivers influencing market growth, opportunities, the challenges and the risks faced by key manufacturers and the market as a whole. It also analyzes key emerging trends and their impact on present and future development.

    Purchase the Complete Global Private LTE Market Research Report @

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    Our expert research analysts have been trained to map client’s research requirements to the correct research resource leading to a distinctive edge over its competitors. We provide intellectual, precise and meaningful data at a lightning speed.

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    Market Size

    Global Private LTE Market: Affected Analysis by COVID 19 on Industry with Leading Players like- Nokia, Ericsson, Huawei, NEC, Verizon

    (August 2020) WMR released a report on Private LTE Market 2026. It provides key insights through details and gives customers a competitive advantage. Private LTE Industry Size, Market Share Value, Competitor Surveys, Industry Outlook and Analytics cover a variety of factors such as geographic analysis, Private LTE types, applications, and more.

    Impact Analysis of COVID-19: The complete version of the Private LTE Market Report will include the impact of the COVID-19, and anticipated change on the future outlook of the industry, by taking into account the political, economic, social, and technological parameters.

    Download PDF Brochure covering the Covid-19 Imapct Points:

    Worldwide Market Report’s Private LTE Industry information includes surveys based on Current Scenarios i.e. Corona Virus Pendamic, Historical Records and Future Forecasts. Organize accurate data from various aspects. It provides a 360 ° overview of the industry’s competitive environment. This helps companies understand threats and challenges in front of their business.

    Major KeyPlayers are Listed in this Report are Nokia, Ericsson, Huawei, NEC, Verizon, Cisco, Samsung, Comba, Arris International, Netnumber, General Dynamics, Mavenir, Future Technologies, Redline Communications, Pdvwireless, Quortus, Ambra Solutions, Zinwave, Star Solutions, Druid Software, Cradlepoint, Inc., Lemko (other Player can be added on demand).

    Private LTE Market Segmentations- 

    On the Basis of Types, Private LTE is classified as- FDD, TDD

    On the basis of Application/ End-user, covers- Public Safety and Defense, Oil & Gas, Utilities, Mining, Transportation, Others

    Regional Insights of Private LTE Market-

    • In the Asia Pacific region, the volume of the Private LTE industry has grown significantly, and it is expected to show the highest growth rate during the forecast period due to an increase in manufacturing and the adoption of Technology across regions.
    • Countries such as China, Japan, Thailand and Korea manufacture large quantities of commercial and industrial products. The adoption rate of Private LTE in China and India is very high due to large-scale distribution in the manufacturing sector.
    • For example, National Authorities are planning to revise laws to revitalize the economy with the latest trend changes, and have recently been working with other countries around the world.
    • The Private LTE Market Research Report summarizes regional key trends, market size and forecasts for various key sub-market segments.

    Get the Report Sample on mail by clicking at

    Private LTE

    Private LTE Report Covers:

    • Market Overview, Scope of Statistics of Private LTE Market
    • Market Segmentation: Market by Type, Market By Application
    • Covid-19 Impact Analysis for Private LTE
    • Prominent Players Research
    • Organization Information,
    • Product and Services,
    • Business Data,
    • Recent Development
    • Geographical segmentation: Regional Production, Regional Demand, Regional Trade
    • Price Overview: Cost by Manufacturers, Price by Application, Price by Type

    In the end, the Private LTE Market Report provides an insight and expert analysis of the market’s key trends and behaviors along with an overview of market data and key brands. Private LTE Market Reports provide all data with easily digestible information to drive future innovation and advance your business for every entrepreneur as well as for established Enterprises.

    Customization Service of the Report:

    Worldwide Market Reports provides customized upon request. This report can be personalized to suit your needs. Please contact the research team to ensure you receive the report that fits your needs.

    Contact Us:

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    Worldwide Market Reports
    Seattle, WA 98154,
    Email: [email protected]

    Coronavirus Market Reports News

    Private LTE Market Size: Opportunities, Current Trends And Industry Analysis by 2028 | AT&T, Boingo, Casa Systems, Cisco, Druid Software, Ericsson

    Market Scenario of the Private LTE Market:

    The most recent Private LTE Market Research study includes some significant activities of the current market size for the worldwide Private LTE market. It presents a point by point analysis dependent on the exhaustive research of the market elements like market size, development situation, potential opportunities, and operation landscape and trend analysis. This report centers around the Private LTE-business status, presents volume and worth, key market, product type, consumers, regions, and key players.

    Sample Copy of This Report @

    The prominent players covered in this report: AT&T, Boingo, Casa Systems, Cisco, Druid Software, Ericsson, Future Technologies, General Dynamics, Huawei, Motorola, NetNumber, Nokia, PDV Wireless, Qualcomm, Rivada Networks, Ruckus Networks, Samsung, Sierra, SpiderCloud Wireless, Tait, Verizon, and ZTE.

    The market is segmented into By Product (Infrastructure (Evolved Packet Core (EPC), Backhaul, eNodeB), Device (Smartphones, Handheld Terminals, Vehicular Routers, IoT Modules)), By Service (Training & Consulting, Integration & Maintenance, Managed Service), By Application (Public Safety, Defense, Mining, Transport, Energy, Manufacturing)

    Geographical segments are North America, Europe, Asia Pacific, Middle East & Africa, and South America.

    A 360 degree outline of the competitive scenario of the Global Private LTE Market is presented by Quince Market Insights. It has a massive data allied to the recent product and technological developments in the markets.

    It has a wide-ranging analysis of the impact of these advancements on the market’s future growth, wide-ranging analysis of these extensions on the market’s future growth. The research report studies the market in a detailed manner by explaining the key facets of the market that are foreseeable to have a countable stimulus on its developing extrapolations over the forecast period.

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    This is anticipated to drive the Global Private LTE Market over the forecast period. This research report covers the market landscape and its progress prospects in the near future. After studying key companies, the report focuses on the new entrants contributing to the growth of the market. Most companies in the Global Private LTE Market are currently adopting new technological trends in the market.

    Private LTE

    Finally, the researchers throw light on different ways to discover the strengths, weaknesses, opportunities, and threats affecting the growth of the Global Private LTE Market. The feasibility of the new report is also measured in this research report.

    Reasons for buying this report:

    1. It offers an analysis of changing competitive scenario.
    2. For making informed decisions in the businesses, it offers analytical data with strategic planning methodologies.
    3. It offers seven-year assessment of Global Private LTE
    4. It helps in understanding the major key product segments.
    5. Researchers throw light on the dynamics of the market such as drivers, restraints, trends, and opportunities.
    6. It offers regional analysis of Global Private LTE Market along with business profiles of several stakeholders.
    7. It offers massive data about trending factors that will influence the progress of the Global Private LTE

    Make an Enquiry for purchasing this Report @

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    Analysis Forecast Coronavirus COVID-19 Industry Impact Market Price Analysis Market Reports News

    Private LTE Market Size, Global Analytical Overview, Key Players, Regional Demand, Trends and Forecast To 2026

    info tech credible markets

    Private LTE Market Research Report 2020, Market size, Trends, Industry Analysis, Market Research Trends, Volume, Value Trade, Revenue, Demand, Insights, Global Industry Growth, Outlook, Forecasts for NEXT/UPCOMING Years.

    R&D is Key for Future Market Growth (Global Private LTE Market 2020):

    The report study on Global Private LTE Market 2020 offers a aspect and detail analysis of Private LTE MARKET industry which helps organization executives, industry investors, and industry participants with in-depth intuition to enable them to make informed vital decisions regarding the opportunities in the global Private LTE MARKET.


    PDF | Get Free Sample Copy of this Report to Understand The Structure Of The Complete Report: (Including Full TOC, List of Tables & Figures, Chart) @

    Leading Key Players – 

    Arris International
    General Dynamics
    Future Technologies
    Redline Communications

    The report entitled “Global Private LTE Market 2020” focuses on edging and imitate the key affecting components for the expansion of the market. It further proposes an intensive study of the market stature (revenue), market share, key market segments, distinct geographic regions, main market players, and prime industry trends. The point of this report is to depict the expected market patterns and revenue forecast for the global Private LTE Market for the following five years.

    The report global Private LTE Market records the essential market events comprehensive of product launches, mergers and acquisitions, technological advancement, and the brand new business outlines favored by driving business sector players. Worldwide Private LTE Market Report additionally covers every single part of the business and the conspicuous market players present in particular countries examine the new advancement plans, advertise position, which will help in settling on essential business choices.

    Global Private LTE MARKET report covers particular aspects of the market including the product classification, product details, a scope of uses and major geographical producing regions. The key districts overcast in Private LTE MARKET report are the countries present in North America, Europe, APAC, South America, Middle East and Africa.

    Global Private LTE MARKET: Regional Segment Analysis






    6.South East Asia

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    Global Private LTE MARKET: Application Segment Analysis

    furthermore, the aspect that trigger and restrict the growth of the global Private LTE MARKET industry are specified and simplify in depth in this research study. It helps experts in taking significant business choices to publicize their business. The study additionally examines regions having potentialities for future market development. It also gives data about developing markets, beneficial markets, static markets, declining markets, soaked markets or develop advertises along with development benefits.

    Global Private LTE Market Report Basically Covers 10 Chapters

    1. The Outlook of the Private LTE MARKET Industry

    2. Global Market Competition Landscape

    3. Global Private LTE Market share

    4. Supply Chain Analysis

    5. Company Profiles

    6. Globalization & Trade

    7. Distributors and Customers

    8. Import, Export, Consumption and Consumption Value by Major Countries

    9. Global Private LTE Market Forecast to 2024

    10. Key success factors and Market Overview

    Global Private LTE Market 2020: Historical Analysis

    Private LTE Market collecting historical and recent data from various authentic resources and depending on all the factors and trends, the report presents a figurative estimate of the future market condition, along with compound annual growth rate (CAGR).

    The scope of the Report:

    The report offers a complete company profiling of leading players competing in the global Private LTE Market with a high focus on the share, gross margin, net profit, sales, product portfolio, new applications, recent developments, and several other factors. It also throws light on the vendor landscape to help players become aware of future competitive changes in the global Private LTE Market.


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    Reasons to Buy the Report:

    1. Upgrade your market research resources with this comprehensive and accurate report on the global Private LTE Market
    2. Get a complete understanding of general market scenarios and future market situations to prepare for rising above the challenges and ensuring strong growth
    3. The report offers in-depth research and various tendencies of the global Private LTE Market
    4. It provides a detailed analysis of changing market trends, current and future technologies used, and various strategies adopted by leading players of the global Private LTE Market
    5. It offers recommendations and advice for new entrants the global Private LTE Market and carefully guides established players for further market growth
    6. Apart from the hottest technological advances in the global Private LTE Market, it brings to light the plans of dominant players in the industry

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    Private LTE Market with Covid-19 Effect Analysis: Perspective, Comprehensive Analysis, Size, Share, Growth, Segment, Trends and Forecast, 2024

    Analytical Research Cognizance present a comprehensive research Report namely “Global Private LTE Market Report 2020” which reveals an extensive analysis of global industry by delivering the detailed information about Forthcoming Trends, Customer’s Expectations, Technological Improvements, Competitive Dynamics and Working Capital in the Market. This is an in-depth study of the market enlightening key forecast to 2024.

    Global Private LTE Market Report covers the manufacturers’ data, including: shipment, price, revenue, gross profit, interview record, business distribution etc., these data help the consumer know about the competitors better. This report also covers all the regions and countries of the world, which shows a regional development status, including market size, volume and value, as well as price data.

    Get Sample of Global Private LTE Market Report @

    Private LTE market size to maintain the average annual growth rate of 15 from XXX million $ in 2014 to XXX million $ in 2019, Report analysts believe that in the next few years, Private LTE market size will be further expanded, we expect that by 2024, The market size of the Private LTE will reach XXX million $.

    Besides, the report also covers segment data, including: type segment, industry segment, channel segment etc. cover different segment market size, both volume and value. Also cover different industries clients information, which is very important for the manufacturers.

    This report covers leading companies associated in Private LTE Market:
    Arris International
    General Dynamics
    Future Technologies
    Redline Communications
    Ambra Solutions
    Star Solutions
    Druid Software
    Cradlepoint, Inc.

    Region Segmentation:
    North America Country (United States, Canada)
    South America
    Asia Country (China, Japan, India, Korea)
    Europe Country (Germany, UK, France, Italy)
    Other Country (Middle East, Africa, GCC)

    Product Type Segmentation:

    Industry Segmentation:
    Public Safety and Defense
    Oil & Gas

    Access Global Private LTE Market Report @

    Some of the major factors contributing to the growth of the global Private LTE market:

    1)  On the basis of type, natural Private LTE is growing at the highest CAGR since it has the maximum number of consumer demands due to its natural properties and ingredients in pharmaceuticals, animal feed supplements, food and cosmetics.

    2)  On the basis of derivatives, the sodium butyrate segment is growing at the highest CAGR as it has a better solubility than calcium and reduces pungency which makes the handling of Private LTE easier.

    3)  On the basis of end-user, the animal feed is growing at the highest CAGR as it acts as an energy regulator for the intestinal cells promoting colon health to the farm animals.

    Private LTE Market Report Structure at a Glance:

    1)  Executive summary, market introduction, Private LTE market definition.

    2)  Macroeconomic factors and forecast factors.

    3)  Private LTE Market taxonomy – segmentation on the basis of type, end-use, and region.

    4)  Pricing analysis, regulatory factors analysis, and value chain analysis.

    5)  Private LTE Market dynamics including key drivers, key restraints, recent trends, upcoming opportunities.

    6)  In-depth forecast analysis by type, end-use, region.

    7)  Private LTE Market structure and competition analysis.

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    Note: Our report does take into account the impact of corona virus pandemic and dedicates qualitative as well as quantitative sections of information within the report that emphasizes the impact of COVID-19.

    As this pandemic is ongoing and leading to dynamic shifts in stocks and businesses worldwide, we take into account the current condition and forecast the market data taking into consideration the micro and macroeconomic factors that will be affected by the pandemic.

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    Coronavirus COVID-19 Industry Impact Market Price Analysis Market Reports News

    The Public Safety LTE & Mobile Broadband Market Opportunities, Challenges, Strategies & Forecasts 2017 – 2030

    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.

    Driven by demand for both dedicated and secure MVNO networks, The 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.

    Key Findings on “Public Safety LTE & Mobile Broadband Market
    – The 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.

    Get Free PDF Sample Copy of this report back to perceive the structure of the whole report: (Including Full TOC, List of Tables & Figures, Chart) @

    Report Scope

    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

    Report Coverage

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

    Public Safety LTE Devices
    – 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
    – Private LTE
    – Commercial LTE

    Public Safety Broadband over Private Mobile Networks
    – Private LTE
    – Private WiMAX

    Public Safety Broadband Subscriptions over Commercial Mobile Networks
    – 3G
    – WiMAX
    – LTE

    Mobile Broadband Subscriptions
    – 3G
    – WiMAX
    – LTE
    – 5G NR (New Radio)

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

    LMR Narrowband Data Subscriptions
    – P25 – Phase 1
    – P25 – Phase 2
    – TETRA
    – TEDS
    – Tetrapol
    – Others

    Public Safety LTE Applications
    – 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?

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    Table of Content

    1  Chapter  1:  Introduction
    1.1  Executive  Summary
    1.2  Topics  Covered
    1.3  Forecast  Segmentation
    1.4  Key  Questions  Answered
    1.5  Key  Findings
    1.6  Methodology
    1.7  Target  Audience
    1.8  Companies  &  Organizations  Mentioned

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

    3  Chapter  3:  Key  Enabling  Technologies  for  Public  Safety  LTE
    3.1  Mission-Critical  Voice  &  Group  Communications
    3.1.1  Group  Communications  GCSE  (Group  Communication  System  Enablers)  eMBMS  (Multimedia  Broadcast  Multicast  Service)  Additional  Group-Based  Enhancements
    3.1.2  MCPTT  (Mission-Critical  PTT)  Architecture  &  Functional  Capabilities  Performance  Comparison  with  LMR  Voice  Services
    3.1.3  Mission-Critical  Data  &  Video
    3.2  D2D  (Device-to-Device)  Functionality
    3.2.1  ProSe  (Proximity  Services)  for  D2D  Connectivity  &  Communications
    3.2.2  ProSe  Service  Classification  Discovery  Direct  Communication
    3.2.3  Public  Safety  Applications  for  ProSe  Direct  Communication  for  Coverage  Extension  Direct  Communication  within  Network  Coverage  Infrastructure  Failure  &  Emergency  Situations  Additional  Capacity  for  Incident  Response  &  Special  Events  Discovery  Services  for  Disaster  Relief
    3.3  IOPS  (Isolated  E-UTRAN  Operation  for  Public  Safety)
    3.3.1  Ensuring  Resilience  and  Service  Continuity  for  Public  Safety  LTE  Users
    3.3.2  Localized  EPC  &  Application  Capabilities
    3.3.3  Support  for  Regular  &  Nomadic  eNBs
    3.3.4  Isolated  E-UTRAN  Scenarios  No  Backhaul  Limited  Backhaul  for  Signaling  Only  Limited  Backhaul  for  Signaling  &  User  Data
    3.4  Deployable  LTE  Systems
    3.4.1  Key  Operational  Capabilities  eNB-Only  Systems  for  Coverage  &  Capacity  Enhancement  Mobile  Core  Integrated  Systems  for  Autonomous  Operation  Backhaul  Connectivity
    3.4.2  NIB  (Network-in-a-Box):  Self-Contained  Portable  Systems  Backpacks  Tactical  Cases
    3.4.3  Vehicular  Platforms  COW  (Cell-on-Wheels)  COLT  (Cell-on-Light  Truck)  SOW  (System-on-Wheels)  VNS  (Vehicular  Network  System)
    3.4.4  Airborne  Platforms  Drones  Balloons  Other  Aircraft
    3.4.5  Maritime  Platforms
    3.5  UE  Enhancements
    3.5.1  Ruggedization  for  Meet  Public  Safety  Usage  Requirements
    3.5.2  Dedicated  PTT-Buttons  &  Functional  Enhancements
    3.5.3  Long-Lasting  Batteries
    3.5.4  HPUE  (High-Power  User  Equipment)
    3.6  QPP  (QoS,  Priority  &  Preemption)
    3.6.1  3GPP  Specified  QPP  Capabilities  Access  Priority:  ACB  (Access  Class  Barring)  Admission  Priority  &  Preemption:  ARP  (Allocation  and  Retention  Priority)  Traffic  Scheduling  Priority:  QCI  (QoS  Class  Indicator)  Emergency  Scenarios:  eMPS  (Enhanced  Multimedia  Priority  Service)
    3.6.2  Additional  QPP  Enhancements
    3.7  End-to-End  Security
    3.7.1  3GPP  Specified  LTE  Security  Architecture  Device  Security  Air  Interface  &  E-UTRAN  Security  Mobile  Core  &  Transport  Network  Security
    3.7.2  Application  Domain  Protection  &  E2EE  (End-to-End  Encryption)
    3.7.3  Enhancements  to  Support  National  Security  &  Additional  Requirements
    3.8  Complimentary  Technologies  &  Concepts
    3.8.1  Satellite  Communications
    3.8.2  High  Capacity  Microwave  Links
    3.8.3  Spectrum  Sharing  &  Aggregation
    3.8.4  MOCN  (Multi-Operator  Core  Network)
    3.8.5  DECOR  (Dedicated  Core)
    3.8.6  Network  Slicing
    3.8.7  NFV  (Network  Functions  Virtualization)
    3.8.8  SDN  (Software  Defined  Networking)
    3.8.9  C-RAN  (Centralized  RAN)
    3.8.10  MEC  (Multi-Access  Edge  Computing)

    4  Chapter  4:  Review  of  Major  Public  Safety  LTE  Engagements
    4.1  FirstNet  (First  Responder  Network)  Authority
    4.1.1  Contract  Award  Leveraging  AT&T’s  Commercial  LTE  Network  Assets  Band  14  Nationwide  Public  Safety  Broadband  Network  Buildout  Interoperability  with  Opt-Out  Statewide  Networks
    4.1.2  Present  Status  Buildout  Activity  Disaster  Preparedness  &  Network  Hardening  Readiness  of  Deployable  Network  Assets  Opt-In  States  &  Territories  Alternative  Network  Plans  &  Potential  Opt-Outs  App  &  Device  Ecosystem
    4.1.3  Pricing  for  FirstNet  Subscription  Packages
    4.1.4  Deployment  Plan  2017:  IOC  (Initial  Operating  Capability)  Stage  1  &  Initial  Buildout  2018  –  2021:  IOC  Stages  2  –  5  2022:  FOC  (Final  Operational  Capability)  2023  &  Beyond:  Additional  Technology  Upgrades
    4.1.5  Key  Applications to be continued @

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    Private LTE & 5G network infrastructure market an $8 Billion opportunity

    The latest research report indicates that annual investments in private LTE and 5G network infrastructure – which includes RAN (Radio Access Network), mobile core and transport network equipment – will reach $8 Billion by the end of 2023.

    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.

    Ask for [email protected]

    This 1,200-plus page report is the most comprehensive publication on the private LTE and 5G network market. In addition to detailed market size projections, it profiles more than 600 ecosystem players and covers over 40 case studies of private LTE and 5G networks, as well as analysis of hundreds of other private cellular 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.

    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.

    According to our 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.

    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.

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    Table  of  Contents
    1 Chapter  1:  Introduction
    1.1 Executive  Summary
    1.2 Topics  Covered
    1.3 Forecast  Segmentation
    1.4 Key  Questions  Answered
    1.5 Key  Findings
    1.6 Methodology
    1.7 Target  Audience
    1.8 Companies  &  Organizations  Mentioned

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

    3 Chapter  3:  System  Architecture  &  Technologies  for  Private  LTE/5G  Networks
    3.1 Architectural  Components  of  Private  LTE  &  5G  Networks
    3.1.1 UE  (User  Equipment)
    3.1.2 E-UTRAN  –  LTE  RAN  (Radio  Access  Network) eNBs  –  LTE  Base  Stations
    3.1.3 NG-RAN  –  5G  NR  (New  Radio)  Access  Network gNBs  –  5G  NR  Base  Stations en-gNBs  –  Secondary  Node  5G  NR  Base  Stations ng-eNBs  –  Next  Generation  LTE  Base  Stations
    3.1.4 Transport  Network Backhaul Fronthaul  &  Midhaul
    3.1.5 EPC  (Evolved  Packet  Core)  –  The  LTE  Mobile  Core SGW  (Serving  Gateway) PGW  (Packet  Data  Network  Gateway) MME  (Mobility  Management  Entity) HSS  (Home  Subscriber  Server) PCRF  (Policy  Charging  and  Rules  Function)
    3.1.6 5GC  (5G  Core)/NGC  (Next-Generation  Core) AMF  (Access  &  Mobility  Management  Function) UPF  (User  Plane  Function) SMF  (Session  Management  Function) PCF  (Policy  Control  Function) NEF  (Network  Exposure  Function) NRF  (Network  Repository  Function) UDM  (Unified  Data  Management) UDR  (Unified  Data  Repository) AUSF  (Authentication  Server  Function) AF  (Application  Function) NSSF  (Network  Slice  Selection  Function) NWDAF  (Network  Data  Analytics  Function) Other  Elements
    3.1.7 IMS  (IP-Multimedia  Subsystem),  Application  &  Service  Elements IMS  Core  &  VoLTE/VoNR eMBMS/FeMBMS  –  Broadcasting/Multicasting  over  LTE/5G  Networks ProSe  (Proximity  Services) Group  Communication  &  Mission-Critical  Services
    3.1.8 Gateways  for  LTE/5G-External  Network  Interworking
    3.2 Key  Enabling  Technologies  &  Concepts
    3.2.1 Critical  Communications MCPTT  (Mission-Critical  PTT)  Voice  &  Group  Communications Mission-Critical  Video  &  Data ProSe  (Proximity  Services)  for  D2D  Connectivity  &  Communications IOPS  (Isolated  E-UTRAN  Operation  for  Public  Safety) Deployable  LTE  &  5G  Systems UE  Enhancements
    3.2.2 Industrial  IoT eMTC,  NB-IoT  &  mMTC:  Wide  Area  &  High  Density  IoT  Applications Techniques  for  URLLC TSN  (Time  Sensitive  Networking)
    3.2.3 QPP  (QoS,  Priority  &  Preemption)
    3.2.4 High-Precision  Positioning
    3.2.5 End-to-End  Security
    3.2.6 Quantum  Cryptography  Technologies

    3.2.7 Licensed  Spectrum  Sharing  &  Aggregation
    3.2.8 Unlicensed  &  Shared  Spectrum  Usage CBRS  (Citizens  Broadband  Radio  Service):  Three-Tiered  Sharing LSA  (Licensed  Shared  Access):  Two-Tiered  Sharing sXGP  (Shared  Extended  Global  Platform):  Non-Tiered  Unlicensed  Access LTE-U/LAA  (License  Assisted  Access)  &  eLAA  (Enhanced  LAA):  Licensed  &  Unlicensed  Spectrum  Aggregation MulteFire 5G  NR-U
    3.2.9 SDR  (Software-Defined  Radio)
    3.2.10 Cognitive  Radio  &  Spectrum  Sensing
    3.2.11 Wireless  Connection  Bonding
    3.2.12 Network  Sharing  &  Slicing MOCN  (Multi-Operator  Core  Network) DECOR  (Dedicated  Core) Network  Slicing
    3.2.13 Software-Centric  Networking NFV  (Network  Functions  Virtualization) SDN  (Software  Defined  Networking)
    3.2.14 Small  Cells
    3.2.15 C-RAN  (Centralized  RAN)
    3.2.16 SON  (Self-Organizing  Networks)
    3.2.17 MEC  (Multi-Access  Edge  Computing)
    3.2.18 Artificial  Intelligence  &  Machine  Learning
    3.2.19 Big  Data  &  Advanced  Analytics

    to be continued @

    Contact US

    Mr. Charles Lee
    302-20 Misssisauga Valley Blvd, Missisauga, L5A 3S1, Toronto
    [email protected]


    Public Safety LTE/5G-Ready Network Infrastructure Market a USD 2 Billion Opportunity

    The latest research report indicates that annual investments in public safety LTE/5G-ready infrastructure – for dedicated, hybrid commercial-private and secure MVNO networks – will reach $2 Billion by the end of 2020.

    With the standardization of MCX (Mission-Critical PTT, Video & Data), IOPS (Isolated Operation for Public Safety), HPUE (High-Power User Equipment) and other critical communications features by the 3GPP, LTE and 5G NR (New Radio) networks are increasingly gaining recognition as an all-inclusive public safety communications platform for the delivery of real-time video, high-resolution imagery, multimedia messaging, mobile office/field data applications, location services and mapping, situational awareness, unmanned asset control and other broadband capabilities, as well as MCPTT (Mission-Critical PTT) voice and narrowband data services provided by traditional LMR (Land Mobile Radio) systems.

    This 1,600-plus page report is the most comprehensive publication on the public safety LTE and 5G market. In addition to detailed market size projections, it profiles 1,100 ecosystem players and covers over 50 case studies of public safety LTE/5G implementations, as well as a database of over 500 global public safety LTE/5G engagements – as of Q2’2020

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

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

    Request for [email protected]

    In addition, even though critical public safety-related 5G NR capabilities are yet to be standardized as part of the 3GPP’s Release 17 specifications, public safety agencies have already begun experimenting with 5G for applications that can benefit from the technology’s high-bandwidth and low-latency characteristics. For example, New Zealand Police are utilizing mobile operator Vodafone’s 5G NR network to share real-time UHD (Ultra High Definition) video feeds from cellular-equipped drones and police cruisers with officers on the ground and command posts. In the near future, we also expect to see rollouts of localized 5G NR systems for incident scene management and related use cases, potentially using up to 50 MHz of Band n79 spectrum in the 4.9 GHz frequency range (4,940-4,990 MHz) which has been designated for public safety use in multiple countries including but not limited to the United States, Canada, Australia, Malaysia and Qatar.

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

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

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    Table of Content

    1 Chapter  1:  Introduction
    1.1 Executive  Summary
    1.2 Topics  Covered
    1.3 Forecast  Segmentation
    1.4 Key  Questions  Answered
    1.5 Key  Findings
    1.6 Methodology
    1.7 Target  Audience
    1.8 Companies  &  Organizations  Mentioned

    2 Chapter  2:  An  Overview  of  the  Public  Safety  LTE  &  5G  Market
    2.1 Narrowband  LMR  (Land  Mobile  Radio)  Systems  in  the  Public  Safety  Sector
    2.1.1 LMR  Market  Size Analog  LMR DMR dPMR,  NXDN  &  PDT P25 TETRA Tetrapol Other  LMR  Technologies
    2.1.2 The  Limitations  of  LMR  Networks
    2.2 Adoption  of  Commercial  Mobile  Broadband  Technologies
    2.2.1 Why  Use  Commercial  Technologies?
    2.2.2 The  Role  of  Mobile  Broadband  in  Public  Safety  Communications
    2.2.3 Can  Mobile  Broadband  Technologies  Replace  LMR  Systems?
    2.3 Why  LTE  &  5G?
    2.3.1 Performance  Metrics
    2.3.2 Coexistence,  Interoperability  &  Spectrum  Flexibility
    2.3.3 A  Thriving  Ecosystem  of  Chipsets,  Devices  &  Network  Equipment
    2.3.4 Economic  Feasibility  of  Operation
    2.3.5 Moving  Towards  LTE-Advanced  &  LTE-Advanced  Pro
    2.3.6 Public  Safety  Communications  Support  in  LTE-Advanced  Pro
    2.3.7 5G  NR  (New  Radio)  Capabilities  &  Usage  Scenarios eMBB  (Enhanced  Mobile  Broadband) URLCC  (Ultra-Reliable  Low-Latency  Communications) mMTC  (Massive  Machine-Type  Communications)
    2.3.8 5G  Applications  for  Public  Safety
    2.4 Public  Safety  LTE  &  5G  Operational  Models
    2.4.1 Public  Safety  Communications  Over  Commercial  LTE/5G  Networks
    2.4.2 Independent  Private  LTE/5G  Network
    2.4.3 Managed  Private  LTE/5G  Network
    2.4.4 Shared  Core  Private  LTE/5G  Network
    2.4.5 Hybrid  Commercial-Private  LTE/5G  Network
    2.4.6 Secure  MVNO:  Commercial  LTE/5G  RAN  With  a  Private  Mobile  Core
    2.4.7 Other  Approaches
    2.5 Financing  &  Delivering  Dedicated  Public  Safety  LTE  &  5G  Networks
    2.5.1 National  Government  Authority-Owned  &  Operated
    2.5.2 Local  Government/Public  Safety  Agency-Owned  &  Operated
    2.5.3 BOO  (Built,  Owned  &  Operated)  by  Critical  Communications  Service  Provider
    2.5.4 Government-Funded  &  Commercial  Carrier-Operated
    2.5.5 Other  Forms  of  PPPs  (Public-Private  Partnerships)
    2.6 Market  Drivers
    2.6.1 Growing  Demand  for  High-Speed  &  Low-Latency  Data  Applications
    2.6.2 Recognition  of  LTE  &  5G  as  the  De-Facto  Platform  for  Wireless  Connectivity
    2.6.3 Spectral  Efficiency  &  Bandwidth  Flexibility
    2.6.4 National  &  Cross-Border  Interoperability
    2.6.5 Consumer-Driven  Economies  of  Scale
    2.6.6 Endorsement  From  the  Public  Safety  Community
    2.6.7 Limited  Competition  From  Other  Wireless  Broadband  Technologies
    2.6.8 Control  Over  QoS  (Quality-of-Service),  Prioritization  and  Preemption  Policies
    2.6.9 Support  for  Mission-Critical  Functionality
    2.6.10 Privacy  &  Security
    2.7 Market  Barriers
    2.7.1 Limited  Availability  of  Licensed  Spectrum  for  Public  Safety  Broadband
    2.7.2 Financial  Challenges  Associated  With  Large-Scale  &  Nationwide  Networks
    2.7.3 Technical  Complexities  of  Implementation  &  Operation
    2.7.4 Smaller  Coverage  Footprint  Than  LMR  Systems
    2.7.5 Delayed  Standardization  &  Commercialization  of  Mission-Critical  Functionality
    2.7.6 Dependence  on  New  Chipsets  for  Direct-Mode  Communications

    3 Chapter  3:  System  Architecture  &  Technologies  for  Public  Safety  LTE  &  5G  Networks
    3.1 Architectural  Components  of  Public  Safety  LTE  &  5G  Networks
    3.1.1 UE  (User  Equipment) Smartphones  &  Handportable  Terminals Mobile  &  Vehicular  Routers Fixed  CPEs  (Customer  Premises  Equipment) Tablets  &  Notebook  PCs Smart  Wearables Cellular  IoT  Modules Add-On  Dongles
    3.1.2 E-UTRAN  –  LTE  RAN  (Radio  Access  Network) eNBs  –  LTE  Base  Stations
    3.1.3 NG-RAN  –  5G  NR  (New  Radio)  Access  Network gNBs  –  5G  NR  Base  Stations en-gNBs  –  Secondary  Node  5G  NR  Base  Stations ng-eNBs  –  Next  Generation  LTE  Base  Stations
    3.1.4 Transport  Network Backhaul Fronthaul  &  Midhaul
    3.1.5 EPC  (Evolved  Packet  Core)  –  LTE  Mobile  Core SGW  (Serving  Gateway) PGW  (Packet  Data  Network  Gateway) MME  (Mobility  Management  Entity) HSS  (Home  Subscriber  Server) PCRF  (Policy  Charging  and  Rules  Function)
    3.1.6 5GC  (5G  Core)/NGC  (Next-Generation  Core) AMF  (Access  &  Mobility  Management  Function) UPF  (User  Plane  Function) SMF  (Session  Management  Function) PCF  (Policy  Control  Function) NEF  (Network  Exposure  Function) NRF  (Network  Repository  Function) UDM  (Unified  Data  Management) UDR  (Unified  Data  Repository) AUSF  (Authentication  Server  Function) AF  (Application  Function) NSSF  (Network  Slice  Selection  Function) NWDAF  (Network  Data  Analytics  Function) Other  Elements
    3.1.7 IMS  (IP-Multimedia  Subsystem),  Application  &  Service  Elements IMS  Core  &  VoLTE/VoNR eMBMS/FeMBMS  –  Broadcasting/Multicasting  Over  LTE/5G  Networks ProSe  (Proximity  Services) Group  Communication  &  Mission-Critical  Services
    3.1.8 Gateways  for  LTE/5G-External  Network  Interworking
    3.2 Key  Enabling  Technologies  &  Concepts
    3.2.1 MCPTT  (Mission-Critical  PTT)  Voice  &  Group  Communications Functional  Capabilities  of  the  MCPTT  Service Performance  Comparison  With  LMR  Voice  Services
    3.2.2 Mission-Critical  Video  &  Data MCVideo  (Mission-Critical  Video) MCData  (Mission-Critical  Data)
    3.2.3 ProSe  (Proximity  Services)  for  D2D  Connectivity  &  Communications Direct  Communication  for  Coverage  Extension Direct  Communication  Within  Network  Coverage Infrastructure  Failure  &  Emergency  Scenarios Additional  Capacity  for  Incident  Response  &  Special  Events Discovery  Services  for  Disaster  Relief
    3.2.4 IOPS  (Isolated  Operation  for  Public  Safety) Ensuring  Resilience  &  Service  Continuity  for  Critical  Communications Localized  Mobile  Core  &  Application  Capabilities Support  for  Regular  &  Nomadic  Base  Stations Isolated  RAN  Scenarios No  Backhaul Limited  Backhaul  for  Signaling  Only Limited  Backhaul  for  Signaling  &  User  Data
    3.2.5 Deployable  LTE  &  5G  Systems Key  Operational  Capabilities RAN-Only  Systems  for  Coverage  &  Capacity  Enhancement Mobile  Core-Integrated  Systems  for  Autonomous  Operation Backhaul  Interfaces  &  Connectivity NIB  (Network-in-a-Box):  Self-Contained  Portable  Systems Backpacks Tactical  Cases Vehicular-Based  Deployables COW  (Cell-on-Wheels) COLT  (Cell-on-Light  Truck) SOW  (System-on-Wheels) VNS  (Vehicular  Network  System) Aerial  Cell  Sites Drones Balloons Other  Aircraft Maritime  Platforms
    3.2.6 UE  Enhancements Ruggedization  to  Meet  Critical  Communications  User  Requirements Dedicated  PTT  Buttons  &  Functional  Enhancements Long-Lasting  Batteries HPUE  (High-Power  User  Equipment)
    3.2.7 IoT-Focused  Technologies eMTC,  NB-IoT  &  mMTC:  Wide  Area  &  High  Density  IoT  Applications Techniques  for  URLLC TSN  (Time  Sensitive  Networking)
    3.2.8 High-Precision  Positioning Support  for  Assisted-GNSS  &  RTK  (Real  Time  Kinematic)  Technology RAN-Based  Positioning  Techniques RAN-Independent  Methods
    3.2.9 QPP  (QoS,  Priority  &  Preemption) 3GPP-Specified  QPP  Capabilities Access  Priority:  ACB  (Access  Class  Barring) Admission  Priority  &  Preemption:  ARP  (Allocation  and  Retention  Priority) Traffic  Scheduling  Priority:  QCI  (QoS  Class  Indicator) Emergency  Scenarios:  eMPS  (Enhanced  Multimedia  Priority  Service) Additional  QPP  Enhancements
    3.2.10 E2E  (End-to-End)  Security 3GPP-Specified  Security  Architecture Device  Security Air  Interface  Security Mobile  Core  &  Transport  Network  Security Application  Domain  Protection  &  E2E  Encryption Enhancements  to  Support  National  Security  &  Additional  Requirements Quantum  Cryptography  Technologies
    3.2.11 Licensed  Spectrum  Sharing  &  Aggregation
    3.2.12 Unlicensed  &  Shared  Spectrum  Usage CBRS  (Citizens  Broadband  Radio  Service):  Three-Tiered  Sharing LSA  (Licensed  Shared  Access):  Two-Tiered  Sharing sXGP  (Shared  Extended  Global  Platform):  Non-Tiered  Unlicensed  Access LTE-U/LAA  (License  Assisted  Access)  &  eLAA  (Enhanced  LAA):  Licensed  &  Unlicensed  Spectrum  Aggregation MulteFire 5G  NR-U
    3.2.13 SDR  (Software-Defined  Radio)
    3.2.14 Cognitive  Radio  &  Spectrum  Sensing
    3.2.15 Wireless  Connection  Bonding
    3.2.16 Network  Sharing  &  Slicing MOCN  (Multi-Operator  Core  Network) MORAN  (Multi-Operator  RAN) GWCN  (Gateway  Core  Network) Service-Specific  PLMN  (Public  Land  Mobile  Network)  IDs DDN  (Data  Network  Name)/APN  (Access  Points  Name)-Based  Isolation DECOR  (Dedicated  Core) eDECOR  (Enhanced  DECOR) 5G  Network  Slicing
    3.2.17 Software-Centric  Networking NFV  (Network  Functions  Virtualization) SDN  (Software  Defined  Networking)
    3.2.18 Small  Cells
    3.2.19 C-RAN  (Centralized  RAN)
    3.2.20 Satellite  Communications
    3.2.21 High  Capacity  Microwave/Millimeter  Wave  Links
    3.2.22 Wireline  Fiber  Infrastructure
    3.2.23 SON  (Self-Organizing  Networks)
    3.2.24 MEC  (Multi-Access  Edge  Computing)
    3.2.25 Artificial  Intelligence  &  Machine  Learning
    3.2.26 Big  Data  &  Advanced  Analytics to be continued @

    Contact US

    Mr. Charles Lee
    302-20 Misssisauga Valley Blvd, Missisauga, L5A 3S1, Toronto
    [email protected]

    Analysis Forecast Coronavirus COVID-19 Industry Impact Market Price Analysis Market Reports Market Size Market Study News

    2020 Growth: Private LTE Market 2020 Trending Technologies, Developments, Key Players and Forecast to 2025

    Global Private LTE (COVID-19) Market Report 2020 by Key Players, Types, Applications, Countries, Market Size, Forecast to 2026 (Based on 2020 COVID-19 Worldwide Spread)

    The Private LTE market report provides a detailed analysis of global market size, regional and country-level market size, segmentation market growth, market share, competitive Landscape, sales analysis, the impact of domestic and global market players, value chain optimization, trade regulations, recent developments, opportunities analysis, strategic market growth analysis, product launches, area marketplace expanding, and technological innovations.

    >>> Download Sample PDF (including COVID19 Impact Analysis, full TOC, Tables and Figures) of Tablet PC (COVID-19) Market:

    The detailed market intelligence report on the Global Private LTE Market applies the most effective of each primary and secondary analysis to weighs upon the competitive landscape and also the outstanding market players expected to dominate Global Private LTE Market place for the forecast 2019“ 2025.

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    Report evaluates the growth rate and the Market value based on Market dynamics, growth inducing factors. The complete knowledge is based on latest industry news, opportunities and trends. The report contains a comprehensive Market analysis and vendor landscape in addition to a SWOT analysis of the key vendors.

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    Private LTE Market Segmentation:

    By Service

    Managed Services

    Integration & Deployment


    Support & Maintenance

    By Technology

    Frequency Division Duplex

    Time Division Duplex

    By Application

    Public Safety

    Logistics & Supply Chain Management

    Asset Management

    By Industry

    Energy & Utilities







    By Region

    North America

    o U.S.

    o Canada

    o Mexico


    o UK

    o France

    o Germany

    o Russia

    o Rest of Europe


    o China

    o South Korea

    o India

    o Japan

    o Rest of Asia-Pacific


    o Latin America

    o Middle East

    o Africa

    Private LTE Market Key Players:

    Ambra Solutions

    Arris International




    Druid Software


    Future Technologies

    General Dynamics



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    What are the key takeaways of this report?

    • An exhaustive pricing analysis has been tackled with respect to the product terrain, application spectrum, and regional landscape
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