Public Safety LTE Market Analysis and Forecasts 2016 - 2020




Published: October 2016   Pages: 87
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Overview:

Public safety networks are receiving more attention and priority in the United States as the country deals with ever increasing threats from terrorism and natural disasters. Historically, Land Mobile Radio (LMR) solutions have been used by emergency first responder organizations such as police, fire, and ambulance services. Standardization for use of the Long Term Evolution (LTE) 4G standard by 3GPP promises many improvements to capacity, interoperability, and new advanced features such as proximity services (Direct Mode) and Group Call.

Public Safety LTE Market Analysis and Forecasts 2016 – 2020 provides a detailed assessment of the technology, market size, and key trends within the Public Safety LTE industry. All purchases of Mind Commerce reports includes time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

The report covers the following topics:

  • Global Spectrum Allocation for Public Safety LTE: A global assessment of spectrum allocation and funding for Public Safety LTE deployments, based on input from regional regulatory authorities.
  • Global Public Safety LTE Market Size, Contracts & Trials: A global review of the worldwide Public Safety LTE market including assessment of revenue share by market segment (infrastructure sales, services, user device sales, etc), and a review of global contracts and trial engagements.
  • RAN Sharing and Roaming: The term "RAN sharing" refers to sharing of actual eNodeBs. As part of this arrangement, each operator accesses the shared RAN with its own EPC. Vendors are also considering the implementation of Inter-PLMN handover (as opposed to roaming) and then for LTE Commercial carriers to deploy Policies for Service Level Agreements that include Priority Access (Access Class Barring, Preemption and ARP) and QoS/ QCI assignment for default and dedicated bearers. The report assesses in detail how many of vendors and commercial carriers will support RAN sharing, roaming and inter-PLMN handovers which will be key factors towards the adoption of commercial LTE RANs for Public Safety applications.
  • Global QoS Requirements for Public Safety LTE Communications: A detailed assessment of global requirements for Priority access and High QoS for Public Safety subscribers, for shared commercial LTE networks, while they roam on to Commercial Networks.
    Public Safety LTE Devices and End User Applications: An assessment of device usability characteristics, Multi-Radio LTE/LMR interoperability technology, Software and Applications (VoLTE, PTT over LTE, IMS, IP).
  • LTE-Advanced Support for Heterogeneous Commercial/LMR Networks: In-depth assessment of the LTE Advanced standard and technologies and spectrum planning for Fixed/Nomadic based Pico Cells/Femto Cells and mobile base stations (e.g. LTE Cell on Wheels (CoW)) and proximity based services such as Direct Mode Operation (DMO) in LMR systems, which have broad implications for the adoption of Public Safety LTE services.
    LTE based Public Safety Tactical Systems and Military Applications: Detailed market assessment of LTE based Public Safety Tactical Systems such as CoW, Cell over Light Trucks (COLTs) and Military Applications for LTE.

Target Audience:

  • System Integrators
  • Public Safety Agencies
  • LMR Radio Manufacturers
  • Cellular Network Operators
  • Smartphone Manufacturers
  • Public Safety Network Operators
  • LMR Infrastructure Manufacturers
  • Public Safety Application Developers
  • Mobile Computing Equipment Manufacturers
  • Cellular Network Infrastructure Manufacturers

Table of Contents:

1 Introduction
1.1 Executive Summary
1.2 Topics Covered
1.3 Key Findings
1.4 Key Questions Answered
1.5 Target Audience
1.6 Companies and Organizations in Report
2 The Public Safety LTE Marketplace
2.1 The Business Case for Public Safety LTE
2.2 Commercial Availability of Public Safety LTE Devices
2.3 Global Public Safety LTE Deployments
2.4 Public Safety LTE Market Size and Revenue Opportunities
2.4.1 Regional Segmentation and Market Share
2.4.2 Market Segmentation: Commercial vs Private Networks
2.4.3 Infrastructure Vendor Market Share & Revenue
2.4.4 Device Vendor Market Share & Revenue
3 Public Safety LTE Technology
3.1 LTE Technology Overview
3.2 LTE RAN Technology
3.3 EPC Technology
3.4 Public Safety Specific Entities for LTE Networks
3.5 QoS for Public Safety LTE Systems: Global Requirements and Solutions
3.6 Interoperability between Commercial and Private LTE Networks
3.7 Interoperability with APCO 25 and TETRA Systems
3.8 LTE Advanced Support for Heterogeneous Commercial and LMR Networks
3.9 Tactical Deployment Solutions for Public Safety LTE
3.10 System in a Box
3.11 Small Cells and Relays
3.12 Aerial Cells
3.13 Integration with Military Communication Systems
3.14 Public Space Deployments
4 Solutions, Devices and Applications
4.1 Public Safety LTE Devices & Vendor Roadmaps
4.2 Solutions and Vendor Roadmaps
4.3 Public Safety LTE Network and IoT
4.4 Network Deployment and Operations Tools
4.5 Public Safety LTE Applications
5 Spectrum Regulation and Funding Implications for Public Safety LTE
5.1 Global Spectrum Allocation for LTE Deployments
5.2 Regional Segmentation for Public Safety LTE Deployments
5.2.1 North America
5.2.2 Western Europe
5.2.3 Eastern Europe
5.2.4 Middle East & Africa
5.2.5 Asia Pacific
5.2.6 Latin & Central America
6 Public Safety LTE Market 2016 - 2020
6.1 Global Public Safety LTE Revenue and Market Share Forecasts
6.1.1 Global LTE Industry Revenues
6.1.2 Market Share by Industry Segment
6.1.3 Market Share by Region
6.1.4 Market Share by Vendor / Integrator / Service Provider
6.1.5 Global LTE Subscriptions
6.2 Regional Public Safety LTE Subscription Forecasts
6.2.1 North America
6.2.2 Western Europe
6.2.3 Eastern Europe
6.2.4 Middle East & Africa
6.2.5 Asia Pacific
6.2.6 Latin & Central America
7 Public Safety Broadband Market Size
7.1 Global Public Safety Mobile Broadband Subscriptions by Technology
7.2 Global Public Safety Mobile Broadband Revenue by Technology

Tables

Table 1: Public Safety LTE Infrastructure Vendor Ranking Matrix
Table 2: Public Safety LTE Device Vendor Ranking Matrix
Table 3: Public Safety LTE Vendor / System Integrator Ranking Matrix

Figures

Figure 1: Public Safety LTE Market Size 2016 - 2020
Figure 2: Public Safety LTE Market Size by Region 2016 - 2020
Figure 3: Public Safety LTE Infrastructure Revenue 2016 - 2020
Figure 4: Public Safety LTE Device Revenue 2016 - 2020
Figure 5: LTE RAN Architecture
Figure 6: LTE EPC Architecture
Figure 7: Public Safety LTE Devices
Figure 8: Harris InTouch RPC-200
Figure 9: Public Safety LTE Industry Revenues 2016 – 2020
Figure 10: Public Safety LTE Operator Service Revenue 2016 – 2020
Figure 11: Public Safety LTE Revenue by Service/Vendor Segment 2016 - 2020
Figure 12: Public Safety LTE Regional Market Share
Figure 13: Public Safety LTE Vendor / System Integrator Market
Figure 14: Commercial & Private Public Safety LTE Subscriptions
Figure 15: Traditional (Conventional & Trunked) LMR Subscriptions 2016 - 2020
Figure 16: Commercial & Private Public Safety LTE Subscriptions by Region
Figure 17: North America Commercial & Private Public Safety LTE Subscriptions
Figure 18: Western Europe Commercial & Private Public Safety LTE Subscriptions
Figure 19: Eastern Europe Commercial & Private Public Safety LTE Subscriptions
Figure 20: ME & Africa Commercial & Private PS LTE Subscriptions
Figure 21: Asia Pacific Commercial & Private Public Safety LTE Subscriptions
Figure 22: Latin & Central America Commercial & Private Public Safety LTE Subscriptions
Figure 23: Public Safety Mobile Broadband Subscriptions by Technology 2016 – 2020
Figure 24: Public Safety Mobile Broadband Service Revenue by Technology 2016 – 2020


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