Public Safety Technology and Solutions: Market Analysis and USA Forecasts 2016 - 2020




Published: December 2016   Pages: 137
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Overview:

Enhanced 9-1-1 is a North American telephone network (NANP) feature of the 9-1-1 emergency-calling system that automatically associates a physical address with the calling party's telephone number. A second phase of Enhanced 9-1-1 service allows a wireless device to be located geographically using various radio-location technologies from the cellular network, or by using a Global Positioning System (GPS) built into the phone itself.

Originally adopted in 1996, and with a last major revision in 2010, location determination standards were based solely on the measured performance of outdoor wireless 9-1-1 calls. Moving beyond phase II, more recent efforts from the FCC and public safety organizations are leading towards dramatically improved indoor location determination.

No single technology approach will solve the challenge of improved indoor location accuracy, but rather a mixture of solutions such as WiFi, RFID, Bluetooth, and others

Next Generation 9-1-1 (NG911) is an initiative to update 9-1-1 service infrastructure in the United States and Canada. NG911 migration is focused on transitioning the current traditional 9-1-1 environment to an operational model based on secure IP transport, Geographic Information Systems (GIS), modern network functional elements and changing responsibilities between a telecommunications service provider and local 9-1-1 authorities. Public safety agencies look to lower operating costs through conversion to less-expensive IP-based systems and provide the public with more advanced communications options, such as text-to-911 and other multi-media communications (video, photos, etc.).

Public safety is much more than just dialing an emergency number as integrated communications and information is critical for optimal emergency response and coordination. Accordingly, all industry constituents are looking towards 4G/LTE to provide major improvements over existing LMR communications systems for emergency responders. It is anticipated that LTE will provide the high-speed data performance necessary to support the multimedia applications on which today’s public safety agencies are increasingly relying. In the United States, FirstNet will be a dedicated Public Safety LTE network option in support of emergency response and critical broadband communications and applications.

Emerging technologies such as Augmented Reality (AR) are expected to improve emergency response effectiveness and also protect first responders themselves. Coupled with LTE, 5G, and other broadband wireless systems, AR and other technologies will bring about an entirely new class of public safety applications and services that are heretofore inconceivable.

Leveraging Big Data Analytics and Internet of Things (IoT) technologies for public safety is also important for the future of public safety. There is an increasing demand for ubiquitous data connection for the public safety community. Data connectivity of the future will come from many sources, many of which will be machine-to-machine based, requiring little or no human interaction. There is also an opportunity to improve public safety by leveraging data analytics, especially in the area of real-time processing at the edge.  Artificial Intelligence will also have an impact on public safety, security and privacy.

This report evaluates the current state of public safety technology and solutions and assesses emerging technologies and potential future solutions. The report also provides forecasts for public safety technology spending in the United States for 2016 through 2020. 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.

Report Benefits:

  • Forecasts for USA 2016 to 2020
  • Understand current public safety technologies
  • Identify emerging tech and solutions for public safety
  • Understand the use of Big Data and IoT for public safety
  • Learn about GIS, positioning, and location management methods
  • Learn about the impact of LTE on next generation public safety apps
  • R&D and planners in other regions will learn about USA public safety

Target Audience:

  • Network operators
  • System integrators
  • LMR radio suppliers
  • Public safety agencies
  • Public safety app developers
  • Network infrastructure providers

Table of Contents:

1 Executive Summary
2 Introduction
2.1 Public Safety in Perspective
2.2 Scope of Public Safety
2.2.1 Prevention
2.2.2 Detection
2.2.3 Mitigation
2.2.4 Investigation
2.3 Emergency Response and Control
2.3.1 Emergency Medical Services
2.3.2 Fire/Rescue
2.3.3 Law Enforcement
2.3.4 Responder Coordination
2.4 Current Technology Supporting Public Safety
2.4.1 Public Safety Answer Points
2.4.2 Geographic Information Systems
2.4.3 Enhanced Wireless 9-1-1
2.4.4 Indoor Location Systems
2.4.5 LMR for Public Safety Communications
2.4.6 LTE for Public Safety Communications
2.4.7 Lawful Intercept/CALEA
3 Leading Companies and Solutions
3.1 Airbus DS
3.2 Alcatel-Lucent
3.3 Carousel Industries
3.4 Cisco
3.5 Ericsson
3.6 General Dynamics Corporation
3.7 Harris Corporation
3.8 Hitachi Technology
3.9 IBM
3.10 InterDigital
3.11 Intrado (West)
3.12 Lockheed Martin
3.13 Motorola Solutions
3.14 NICE
3.15 Nokia Networks
3.16 Northrop Grumman
3.17 Raytheon
3.18 Telecommunications Systems Inc.
3.19 Thales
4 Important Global Public Safety Organizations
4.1 APCO
4.2 CALEA
4.3 EENA
4.4 ETRI
4.5 FEMA
4.6 NICE
4.7 NENA
4.8 NIST
4.9 NPSTC
4.10 PSCR
5 Next Generation Public Safety Communications and Apps
5.1 Next Generation 9-1-1
5.2 Improved Location Data: Proximity and Indoor Location
5.3 Broadband: LTE, 5G, and Beyond
5.4 Augmented Reality (AR) in Public Safety
5.5 Virtual Reality in Public Safety
5.6 Integrated Wireless Devices, Communications, and Apps
5.6.1 Rich Communications Suite (RCS)
5.6.2 Web Real-time Communications (WebRTC)
6 Next Generation Big Data Analytics and Public Safety
7 Internet of Things (IoT) and Next Generation Public Safety Systems
8 US Public Safety Forecasts 2016 - 2020
8.1 Overall Public Safety IT Spending
8.1.1 Telecom Services and Equipment
8.1.2 Network Hardware
8.1.3 Computer Hardware
8.1.4 IT Personnel
8.1.5 Services and Support
8.1.6 Public Safety Applications
8.2 Public Safety Device Spending
8.2.1 Radio-based Devices
8.2.2 Cellular-based Device
8.2.3 Ruggedized Device
8.2.4 Pagers
8.2.5 Satellite Phones
8.2.6 Computers Stationary Rugged Vehicle Mount
8.2.7 Video
8.2.8 LMR Accessories
8.3 Public Safety Spending by Segment
8.3.1 Law Enforcement
8.3.2 Fire Response
8.3.3 Emergency Medical Services and Other
9 Summary and Recommendations

Figures

Figure 1: Applications for Public Safety
Figure 2: PSAP User Interface
Figure 3: PSAP Equipment and Interfaces
Figure 4: GIS Features and Mapping
Figure 5: GIS Spatial Analysis
Figure 6: GIS Spatial Analysis Techniques
Figure 7: Vector vs. Raster Representation
Figure 8: Special Raster Data Models
Figure 9: Data Layering in GIS
Figure 10: GIS Data Processing
Figure 11: Cell Level Positioning Technology
Figure 12: Assisted GPS Technology
Figure 13: AFLT Technology
Figure 14: LTE for Public Safety Communications Regional Share 2020
Figure 15: Global Public Safety LTE Revenue 2016 - 2020
Figure 16: Network Architecture for LMR/PMR and LTE
Figure 17: Public Safety Solutions
Figure 18: Public Safety Mission Critical Broadband
Figure 19: Indoor/Outdoor and 2D vs. 3D Positioning Technology Comparison
Figure 20: Augmented Reality in Law Enforcement
Figure 21: Augmented Reality in Police Response
Figure 22: Augmented Reality and Coordinated Response
Figure 23: Augmented Reality facilitates Criminal Capture
Figure 24: WebRTC Value Chain
Figure 25: Global WebRTC Revenue 2016 - 2020
Figure 26: Regional WebRTC Revenue 2016 - 2020
Figure 27: North America WebRTC Revenue
Figure 28: Carrier-driven WebRTC Users 2016 - 2020
Figure 29: Overall Public Safety IT Spending 2016 - 2020
Figure 30: Public Safety Telecom and Services Equipment 2016 - 2020
Figure 31: Public Safety Network Hardware 2016 - 2020
Figure 32: Public Safety Computer Hardware 2016 - 2020
Figure 33: Public Safety IT Personnel 2016 - 2020
Figure 34: Public Safety Services and Support 2016 - 2020
Figure 35: Public Safety Applications 2016 - 2020
Figure 36: Overall Public Safety Device Spending 2016 - 2020
Figure 37: Public Safety Radio-based Devices 2016 - 2020
Figure 38: Public Safety Cellular-based Devices 2016 - 2020
Figure 39: Public Safety Ruggedized Devices 2016 - 2020
Figure 40: Public Safety Pagers 2016 - 2020
Figure 41: Satellite Devices for Public Safety 2016 - 2020
Figure 42: Vehicle Mounted Public Safety Devices 2016 - 2020
Figure 43: Public Safety Video Devices 2016 - 2020
Figure 44: Public Safety LMR Devices 2016 - 2020
Figure 45: Public Safety Spending in Law Enforcement 2016 - 2020
Figure 46: Public Safety Spending in Fire Response 2016 - 2020
Figure 47: Public Safety Spending in EMS 2016 - 2020


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Broadband

M2M and IoT

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