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Public Safety LTE & Mobile Broadband Market Analysis, Strategic Assessment, Trend Outlook and Bussiness Opportunities 2017-2030

WiseGuyReports.Com Publish a New Market Research Report On - “Public Safety LTE & Mobile Broadband Market Analysis, Strategic Assessment, Trend Outlook and Bussiness Opportunities 2017-2030”.

 

New York, NY -- (SBWIRE) -- 12/06/2017 -- Until recently, LTE has predominantly been considered a supplementary mobile broadband technology in the public safety sector, to provide high-bandwidth data applications that cannot be delivered over existing narrowband LMR (Land Mobile Radio) systems. However, with the standardization of capabilities such as MCPTT (Mission-Critical PTT) by the 3GPP, LTE is increasingly being viewed as an all-inclusive critical communications platform for the delivery of multiple mission-critical services ranging from PTT group communications to real-time video surveillance.

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

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

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

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

The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report, as well as a list and associated details of over 190 global public safety LTE engagements – as of Q4'2017.

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Table Of Contents – Major Key Points

Chapter 1: Introduction
Executive Summary
Topics Covered
Forecast Segmentation
Key Questions Answered
Key Findings
Methodology
Target Audience
Companies & Organizations Mentioned

Chapter 2: An Overview of the Public Safety Mobile Broadband Market
Narrowband LMR (Land Mobile Radio) Systems in Public Safety
LMR Market Size
Analog LMR
DMR
dPMR, NXDN & PDT
P25
TETRA
Tetrapol
Other LMR Technologies
The Limitations of LMR Networks for Non-Voice Services
Adoption of Commercial Mobile Broadband Technologies for Public Safety
Why Use Commercial Mobile Broadband Technologies?
The Perceived Role of Mobile Broadband in Public Safety Scenarios
Partnerships with Commercial Mobile Operators
Private LTE and WiMAX Networks
Can Mobile Broadband Technologies Replace LMR Systems?
How Big is the Commercial Mobile Broadband Market?
Will the Public Safety Witness the Same Level of Growth as the Consumer Sector?
What are the Growth Drivers?
Why LTE?
Performance Metrics
Coexistence, Interoperability and Spectrum Flexibility
A Thriving Ecosystem
Economic Feasibility
Public Safety LTE Technology & Architecture
UE (User Equipment)
Smartphones & Handportable Terminals
Vehicle-Mounted Routers & Terminals
Stationary CPEs
Tablets & Notebook PCs
USB Dongles, Embedded IoT Modules & Others
E-UTRAN – The LTE RAN (Radio Access Network)
eNB Base Stations
TDD vs. FDD
Transport Network
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)
IMS (IP-Multimedia Subsystem), Application & Service Elements
IMS Core & VoLTE
eMBMS (Enhanced Multimedia Broadcast Multicast Service)
ProSe (Proximity Services)
Group Communication & Mission-Critical Services
Gateways for LTE-LMR Interworking
LTE-Advanced & 5G: Implications for Public Safety
The Move Towards LTE-Advanced Networks
LTE Advanced Pro: Accelerating Public Safety LTE Rollouts
5G Requirements: Looking Towards the Future
5G Applications for Public Safety
Support for Roaming in Public Safety LTE Networks
Inter-System Roaming
Intra-System Roaming with External LTE Networks
Public Safety LTE Deployment Models
Private Public Safety LTE
Shared Commercial Public Safety LTE: Private-Public Partnerships
Public Safety LTE Access over Commercial Mobile Networks
Hosted-Core Public Safety LTE Networks
Funding Models for Private Public Safety LTE Network Deployments
BOO (Built, Owned and Operated) by Integrator/Vendor
Owned and Operated by the Government Authority
Local Agency Hosted Core
Multiple Networks
Market Growth Drivers
Higher Throughput and Low Latency
Economic Feasibility
Bandwidth Flexibility
Spectral Efficiency
Regional Interoperability
Lack of Competition from Other Standards
Endorsement from the Public Safety Community
Commitments by Infrastructure and Device Vendors
QoS (Quality of Service), Priority & Preemption Provisioning
Group Voice & Multimedia Communications Support
Market Barriers
Spectrum Allocation
Budgetary Issues
Delayed Standardization
Dependency on New Chipsets & Devices for Dedicated Public Safety Features
Smaller Coverage Footprint than LMR Systems

Chapter 3: Key Enabling Technologies for Public Safety LTE
Mission-Critical Voice & Group Communications
Group Communications
GCSE (Group Communication System Enablers)
eMBMS (Multimedia Broadcast Multicast Service)
Additional Group-Based Enhancements
MCPTT (Mission-Critical PTT)
Architecture & Functional Capabilities
Performance Comparison with LMR Voice Services
Mission-Critical Data & Video
D2D (Device-to-Device) Functionality
ProSe (Proximity Services) for D2D Connectivity & Communications
ProSe Service Classification
Discovery
Direct Communication
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
IOPS (Isolated E-UTRAN Operation for Public Safety)
Ensuring Resilience and Service Continuity for Public Safety LTE Users
Localized EPC & Application Capabilities
Support for Regular & Nomadic eNBs
Isolated E-UTRAN Scenarios
No Backhaul
Limited Backhaul for Signaling Only
Limited Backhaul for Signaling & User Data
Deployable LTE Systems
Key Operational Capabilities
eNB-Only Systems for Coverage & Capacity Enhancement
Mobile Core Integrated Systems for Autonomous Operation
Backhaul Connectivity
NIB (Network-in-a-Box): Self-Contained Portable Systems
Backpacks
Tactical Cases
Vehicular Platforms
COW (Cell-on-Wheels)
COLT (Cell-on-Light Truck)
SOW (System-on-Wheels)
VNS (Vehicular Network System)

Continue…….

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