Public Safety Wireless Communication & Municipal Wireless Communication Market

Public Safety Wireless Communication & Municipal Wireless Communication Market: Global Spending Analysis & Forecast (2007 - 2017)

Public Safety Wireless Communication & Municipal Wireless Communication Market: Evolution and Value Propositions

Wireless digital communication systems, both public and municipal, have become a key enabler for emergency response to various man-made and natural public safety threats. A number of cutting-edge technologies have been utilized for public safety communication worldwide, and their commercialization has expanded the revenue of the public safety wireless communication & municipal wireless communication market.

With the changing demands in emergency response, both in nature and in quantum, wireless communication that support sophisticated devices and new services have gathered steam among developers and service providers. Wireless communications standards have advanced considerably, and example of this is the European standard TETRA (Terrestrial Trunked Radio). The widespread need for next-gen mobile technologies has helped opened up profitable avenues in the public safety wireless communication & municipal wireless communication market. The global market valuation expanded at a promising CAGR between 2007 and 2017. In subsequent years, massive investments by governments on wireless communication infrastructure to bolster the capabilities of public safety and commercial systems.

Emerging Mobile Radio and Wireless Communication Technologies

Over the past few years, mobility of first responders has become a crucial aspect for improving response efforts and help boost coordination between public safety officers. This has fueled the revenue prospects of the public safety wireless communication & municipal wireless communication market. Developed nations such as in Europe and North America have been at the forefront of increasing interoperability and broadband connectivity of the wireless networks. The coordination among first responders including fire-fighters and police officers, is vital for situational awareness and during relief efforts. There are several municipalities that use wireless communication in various frequency bands. Thus, there is a need for attaining interoperability among the communication systems. This has catalyzed profitable opportunities in the public safety wireless communication & municipal wireless communication market. Some of the wireless tech used are Wi-Fi, 3G and 3.5 G, LTE, and WiMAX. 5G is an emerging tech.

Rising applications of wireless broadband communications in the wireless communication & municipal wireless communication market has triggered intense competition for the allocation of spectrum bands. Efforts to reconcile competing demands for spectrum for different applications have been gaining currency on the back of robust regulatory standards and governments’ oversight on the whole process. These factors have influenced the dynamics of the wireless communication & municipal wireless communication market. A number of mobile radio and wireless communication technologies have emerged, and few of them are characterized by systems that can adequately address the complexities of modern digital communication systems.

Promising Regions With Massive Investments in Public Safety Wireless Communication & Municipal Wireless Communication Market

The U.S. and Europe have witnessed enormous advancements in wireless communication technologies used for public safety. Recent technological advancements wireless communication & municipal wireless communication market have been driven by the need for improving speed of response, coverage, voice recognition, non-voice data transfer, and security of these. Stakeholders in the U.S. and European nations including the respective governments have wireless communication & municipal wireless communication market. Public safety agencies are concertedly working in these regions in order to develop shared system. Various initiatives such as the U.S. Government's Public Safety Wireless Network (PSWN) have added momentum to the expansion of the wireless communication & municipal wireless communication market. Europe has also been witnessing growing investments in wireless communication networks that are used by various public and municipal safety organizations include forest guards, hospitals, road transport police, custom guard, and railway transport police.

Asia pacific meanwhile has been emerging lately as a region with hotbed of opportunities for players in the wireless communication & municipal wireless communication market to capitalize on. The regional market is anticipated to remain promising in the next few years. Rise in search and rescue operations, fire-fighting, and environment protection in several Asian nations have fueled lucrative opportunities for companies in the wireless communication & municipal wireless communication market.

Public Safety Wireless Communication & Municipal Wireless Communication Market: Key Companies

Some of the key players in the wireless communication & municipal wireless communication market are AT&T, Telestra Corporation Ltd., Cobham Wireless Plc., Alcatel-Lucent, Huawei Technologies, Motorola, Ericsson, and Cisco

    1. Introduction

        1.1. Keypoints Covered

        1.2. About The Research

        1.3. Stakeholders

        1.4. Research Methodology

        1.5. Forecast Assumptions

        1.6. Key Definitions

    2. Executive Summary

    3. Global Market Overview

        3.1. Overview Ofwireless Technologies

        3.2. Evolution Of Wireless Technology

        3.3. Adoption Drivers For Wireless Technologies

            3.3.1. Increased Interest In Wireless Technology

            3.3.2. Price Gap Decreasing Rapidly

            3.3.3. Security Solutions Acceptable

            3.3.4. Standardization Started

        3.4. Wireless Technology Segmentation

        3.5. Public Safety Market Spending By Governance And Agencies

        3.6. Public Safety Wireless Technology Market

        3.7. Wireless Equipment In Public Safety

            3.7.1. Routers

            3.7.2. Video Camera

            3.7.3. Modems

            3.7.4. Switches

            3.7.5. Other Equipments In Public Safety Wireless Communication

        3.8. Wireless Devices In Public Safety

            3.8.1. Netbook

            3.8.2. Work Station

            3.8.3. Hand Held Compuers

            3.8.4. Mobil Radios

            3.8.5. Pda/smartphones

    4. Wireless Network Technology In Public Safety

        4.1. Public Safety Wireless Communication Market Drivers

            4.1.1. Government Initiative For Public Safety Application

            4.1.2. Cost Reduction For Travelling

            4.1.3. Improved Coordination

            4.1.4. Real Time Information Transfer

            4.1.5. Reach And Mobility

        4.2. Restraint In Public Safety

            4.2.1. Lack Of Interoperable Devices

            4.2.2. Lack Of Available Funds

            4.2.3. Deterioration Of Existing Public Safety System

            4.2.4. Nature Of Public Safety Response Changes Over Time

            4.2.5. Spectrum Competition For Resources

        4.3. Opportunities In Public Safety

            4.3.1. Growth Of Modern Cellular Industry With Legacy Of Lmr Devices

            4.3.2. Next Generation Public Safety Communication Systems

            4.3.3. Saving On Devices And Infrastructure

        4.4. Impact Analysis

            4.4.1. Public Safety Wireless Communication Dro’s Impact

        4.5. Communication Networks

            4.5.1. Two-way Simplex Radio Systems

                4.5.1.1. Adoption Drivers

                4.5.1.2. Adoption Constraints

            4.5.2. Two-way Mobile Relay Systems

                4.5.2.1. Adoption Drivers

                4.5.2.2. Adoption Constraints Of Cellular/pcs Radio

            4.5.3. Trunked Radio Systems

                4.5.3.1. Specialized Mobile Radio (Smr)

                4.5.3.2. Project 25 (Apco) Digital Trunked Radio System

                4.5.3.3. Tetra (Terrestrial Trunked Radio)& Teds

        4.6. Data Networks

            4.6.1. Satellite Communication

                4.6.1.1. Types Of Satellite Communication

                4.6.1.2. Mobile Satellite Services (Mss)

                4.6.1.3. Fixed Satellite Services (Fss)

            4.6.2. Terrestrial Networks

                4.6.2.1. Public Safety Wireless Network (Pswn)

                    4.6.2.1.1. Advanced Generation Of Interoperability For Law Enforcement (Agile) Program

                    4.6.2.1.2. Emergency Deployable Interoperable Communication System Wdics)

                    4.6.2.1.3. Mobile Broadband For Emergency And Safety Applications(Mesa)

                4.6.2.2. Wireless Local Links: Bluetooth

                    4.6.2.2.1. Opportunity

                4.6.2.3. Ultra Wide Band (Uwb)

                4.6.2.4. Voice Over Internet Protocol (Voip)

                4.6.2.5. Free-space Optical Communication(Fso)

                    4.6.2.5.1. Drivers

                    4.6.2.5.2. Restraints

                    4.6.2.5.3. Applications Of Free Space Optics

                4.6.2.6. Radio-frequency Identification (Rfid)

                4.6.2.7. Local Multi-point Distribution System (Lmds)

                4.6.2.8. Wi-fi

                    4.6.2.8.1. Drivers

                    4.6.2.8.2. Constraints

                    4.6.2.8.3. Opportunity

                    4.6.2.8.4. Usage

                    4.6.2.8.5. Muni Wi-fi

                    4.6.2.8.6. Wi-fi For Wireless Broadband

                4.6.2.9. 3g And 3.5 G

                4.6.2.10. Wimax

                    4.6.2.10.1. Ieee 802.16 Specifications

                    4.6.2.10.2. Drivers

                    4.6.2.10.3. Constraints

                    4.6.2.10.4. Opportunities

                4.6.2.11. Lte

                    4.6.2.11.1. Adoption Drivers

                    4.6.2.11.2. Market Drivers

                    4.6.2.11.3. Constraints

                    4.6.2.11.4. Opportunity

    5. Wireless Technology Services In Public Safety

        5.1. Consulting

        5.2. Project Management

        5.3. Design And Integration

        5.4. Network Deployment

        5.5. Operations And Maintenance

        5.6. Other Services In Public Safety Wireless Communication

    6. Public Safety Wireless Technology Application

        6.1. Incident Scene Management

        6.2. Personnel Safety & Location

        6.3. Video Surveillance

        6.4. Automated Vehicle Locating

        6.5. Emergency Medical Telemetry

        6.6. Geographic Information Systems

        6.7. Mobile Vpn Access

        6.8. Workforce Collaboration

        6.9. Document Management & Retrieval

    7. Municipal Wide Wireless Technology

        7.1. Evolution Of Municipal Wireless

        7.2. Municipal Wireless Communication Drivers

            7.2.1. Mobility Of User

            7.2.2. Availability Of Wi-fi Technology

            7.2.3. Broadband Evolution

            7.2.4. The Cost Of A Wireless Data Bit

            7.2.5. Ubiquity Of Ip Access

            7.2.6. Wireless Spectrum Availability

            7.2.7. Public Safety And More Efficient City Government

            7.2.8. Commercial Internet Access To Visitors

        7.3. Restraints In Municipal Wireless

            7.3.1. Cost

            7.3.2. Impact On Existing Customer

            7.3.3. Fear Of Political Backlash

            7.3.4. Insufficient Coverage

            7.3.5. Bandwidth Allocation

        7.4. Opportunity In Municipal Wireless

            7.4.1. Primary Goals Of Municipality Will Be Completed Within The Time Span

            7.4.2. Resource- Critical Data Access To First Responders

            7.4.3. Multiple Stakeholders In Planning Process

            7.4.4. Advertisement Based Networks

            7.4.5. Lower Crime Rates

        7.5. Municipal Wide Wireless Communication Dro’s Impact Analysis

    8. Municipal Wireless Technology Application Market

        8.1. Public Safety

        8.2. Inspections

        8.3. Code Enforcement (I.e. Health, Building, And Safety)

        8.4. Traffic Control

        8.5. Meter Reading

        8.6. Network & Sensor Based Surveillance

        8.7. Municipal & Emergency Workforce Mobility

        8.8. Disaster Management

        8.9. Education

        8.10. Other Community Services

            8.10.1. Telemedicine

            8.10.2. Tourism

    9. Analysis Of Current Market

        9.1. Wireless Broadband Adoption

            9.1.1. Public Safety Service

            9.1.2. Municipal Wide Wireless Communication Services

        9.2. Top Ten Player Analysis

            9.2.1. Wireless Technology Players Around The Globe

            9.2.2. Wireless Technology Players In Public Safety And Municipal Wireless Communication

    10. Public Safety & Municipal Wireless Business Models

        10.1. Public Private Partnerships Business Models In Public Safety

            10.1.1. Success Of Ppp

            10.1.2. Issues In Ppp

            10.1.3. National, State & Local Levels Initiative In Ppp

            10.1.4. Business Models In Ppp

                10.1.4.1. Capex Model

                10.1.4.2. Hosted Model

                10.1.4.3. Managed Model

        10.2. Public Private Partnerships Business Models In Municipal Wireless

            10.2.1. Municipality As Anchor Tenant For Public Private Partnership

            10.2.2. Public Funding

            10.2.3. Fee Based Public Access

            10.2.4. Advertising

            10.2.5. Funding From External Public Grants

    11. Geographic Analysis

        11.1. North America

            11.1.1. Public Safety In North America

            11.1.2. The Public Safety Broadband Network In U.s.

            11.1.3. Wireless 4.9 Ghz Band In Canada, Us And Mexico For Public Safety

                11.1.3.1. 4.9 Ghz License Spectrum Allocation

                    11.1.3.1.1. Advantages And Use Of 4.9 Ghz Wireless Public Safety Band

            11.1.4. Policies In Public Safety Wireless Communication

            11.1.5. Strategy In Public Safety

                11.1.5.1. Issues With D Block

            11.1.6. Infrastructure And Technology Development In North America

            11.1.7. Challenges In North America

            11.1.8. North America Public Safety Governments’ Wireless Communication Spending & Forcast

            11.1.9. North America Public Safety Departments’ Wireless Communication Spending & Forcast

            11.1.10. North America Public Safety Wireless Communication Segment Spending & Forecast

                11.1.10.1. North America Public Safety Wireless Network Technology Market Spending & Forecast

                    11.1.10.1.1. North America Public Safety Wireless Communication Network Spending & Forecast

                    11.1.10.1.2. North America Public Safety Wireless Data Network Spending & Forecast

                        11.1.10.1.2.1. North America Public Safety Satellite Network Spending & Forecast

                        11.1.10.1.2.2. North America Public Safety Wireless Terrestrial Network Spending & Forecast

        11.2. Emea

            11.2.1. Challenges By European Public Safety Organizations

            11.2.2. Opportunities For Emea

            11.2.3. Developments In Emea

                11.2.3.1. Berlin

                11.2.3.2. South Moravia

            11.2.4. Public Safety Radio Communication In Europe In 2011

            11.2.5. Growth Opportunity For Wireless Technology In Emea

            11.2.6. Economic Issues With Wireless Technology

            11.2.7. Issues In European Communication

            11.2.8. Emea Governments’ Public Safety Wireless Communication Spending & Forcast

            11.2.9. Emea Public Safety Departments’ Wireless Communication Spending & Forcast

            11.2.10. Emea Public Safety Wireless Communication Segment Spending & Forecast

                11.2.10.1. Emea Public Safety Wireless Network Technology Market Spending & Forecast

                    11.2.10.1.1. Emea Public Safety Wireless Communication Network Spending & Forecast

                    11.2.10.1.2. Emea Public Safety Wireless Data Network Spending & Forecast

                        11.2.10.1.2.1. Emea Public Safety Satellite Network Spending & Forecast

                        11.2.10.1.2.2. Emea Public Safety Wireless Terrestrial Network Spending & Forecast

        11.3. Latin America

            11.3.1. Opportunities In Latin America

            11.3.2. Challenges In Latin America

            11.3.3. Latin America Governments’public Safety Wireless Communication Spending & Forcast

            11.3.4. Latin America Public Safety Departments’ Wireless Communication Spending & Forcast

            11.3.5. Latin America Public Safety Wireless Communication Segment Spending & Forecast

                11.3.5.1. Latin America Public Safety Wireless Network Technology Market Spending & Forecast

                    11.3.5.1.1. Latin America Public Safety Wireless Communication Network Spending & Forecast

                    11.3.5.1.2. Latin America Public Safety Wireless Data Network Spending & Forecast

                        11.3.5.1.2.1. Latin America Public Safety Satellite Network Spending & Forecast

                        11.3.5.1.2.2. Latin America Public Safety Wireless Terrestrial Network Spending & Forecast

        11.4. Asia Pacific

            11.4.1. Challenges In Asia Pacific

            11.4.2. Opportunities In Asia Pacific

            11.4.3. Developments In Asia Pacific

                11.4.3.1. China

                11.4.3.2. New Zealand

                11.4.3.3. Japan

                    11.4.3.3.1. Role Of Emergency Response Team

            11.4.4. Communication In Asia Pacific

                    11.4.4.1.1. Coverage Characteristics Of 700 Mhz

                    11.4.4.1.2. Small Sized Antenna And Indoor Coverage

                    11.4.4.1.3. Larger Areas Of Coverage

                    11.4.4.1.4. Lte Network Will Be Cheaper

            11.4.5. Asia-pacific Governments’ Public Safety Wireless Communication Spending & Forcast

            11.4.6. Asia-pacific Public Safety Departments’ Wireless Communication Spending & Forcast

            11.4.7. Asia-pacific Public Safety Wireless Communication Segment Spending & Forecast

                11.4.7.1. Asia-pacific Public Safety Wireless Network Technology Market Spending & Forecast

                    11.4.7.1.1. Asia-pacific Public Safety Wireless Communication Network Spending & Forecast

                    11.4.7.1.2. Asia-pacific Public Safety Wireless Data Network Spending & Forecast

                        11.4.7.1.2.1. Asia-pacific Public Safety Satellite Network Spending & Forecast

                        11.4.7.1.2.2. Asia-pacific Public Safety Wireless Terrestrial Network Spending & Forecast

    12. Company Profile

        12.1. alcatel-lucent

            12.1.1. Company Overview

            12.1.2. Product And Services Segment

            12.1.3. Financial Performance

            12.1.4. Competitive Strategy

            12.1.5. Segment Market Share

            12.1.6. Developments

        12.2. cisco

            12.2.1. Company Overview

            12.2.2. Product And Services Segment

                12.2.2.1. Cisco Product Range

            12.2.3. Financial Performance

            12.2.4. Competitive Strategy

            12.2.5. Developments

        12.3. ericsson

            12.3.1. Company Overview

            12.3.2. Products & Services Segment

            12.3.3. Financial Performance

            12.3.4. Competitive Strategy

            12.3.5. Developments

        12.4. motorola Solutions Inc.

            12.4.1. Company Overview

            12.4.2. Products & Services Segment

            12.4.3. Financials

            12.4.4. Competitive Strategy

            12.4.5. Developments

        12.5. nokia Siemens Networks

            12.5.1. Company Overview

            12.5.2. Products & Services Segment

            12.5.3. Financial Performance

            12.5.4. Competitive Strategy

            12.5.5. Developments

    List Of Table

    Table 1: Global Public Safety Wireless Communication Spending,by Geography 2007-2011 (Usd Million)

    Table 2: Global Public Safety Wireless Communication Spendingforecast, By Geography2012-2017 (Usd Million)

    Table 3: Wireless Technology Overview

    Table 4: Comparison Of Wireless Technology

    Table 5: Global Public Safety Wireless Network Technology Spending, By Type 2007-2011 (Usd Million)

    Table 6: Global Public Safety Wireless Network Technology Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 7: Global Public Safety Wireless Data Network Spending, By Geography 2007-2011 (Usd Million)

    Table 8: Global Public Safety Wireless Data Network Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 9: Public Safety Wireless Communication Network Spending, By Geography 2007-2011 (Usd Million)

    Table 10: Public Safety Wireless Communication Network Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 11: Global Public Safety Wireless Communication Spending, By Agencies 2007-2011 (Usd Million)

    Table 12: Global Public Safety Wireless Communication Spending Forecast, By Agencies 2012-2017 (Usd Million)

    Table 13: Police Department Public Safety Wireless Communication Spending, By Geography 2007-2011 (Usd Million)

    Table 14: Police Departmentpublic Safety Wireless Communication Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 15: Fire Department Public Safety Wireless Communication Spending, By Geography 2007-2011 (Usd Million)

    Table 16: Fire Department Public Safety Wireless Communication Spending, By Geography 2012-2017 (Usd Million)

    Table 17: Emergency Response Department Public Safety Wireless Communication Spending, By Geography 2007-2011 (Usd Million)

    Table 18: Emergency Response Department Public Safety Wireless Communication Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 19: Globalpublic Safety Wireless Communication Spending, By Governance Level 2007-2011 (Usd Million)

    Table 20: Global Public Safety Wireless Communication Spending Forecast, By Governance Level 2012-2017 (Usd Million)

    Table 21: Federal Government Public Safety Wireless Communication Spending, By Geography 2007-2011 (Usd Million)

    Table 22: Federal Government Public Safety Wireless Communication Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 23: State Government Public Safety Wireless Communication Spending, By Geography 2007-2011 (Usd Million)

    Table 24: State Government Public Safety Wireless Communication Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 25: Local Government Public Safety Wireless Communication Spending, By Geography 2007-2011 (Usd Million)

    Table 26: Local Government Public Safety Wireless Communication Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 27: Globalpublic Safety Wireless Communication Spending, By Segment 2007-2011 (Usd Million)

    Table 28: Globalpublic Safety Wireless Communication Spending Forecast, By Segment 2012-2017 (Usd Million)

    Table 29: Public Safety Wireless Communication Equipment Spending, By Geography 2007-2011 (Usd Million)

    Table 30: Public Safety Wireless Communication Equipment Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 31: Global Public Safety Wireless Equipment Spending, By Type 2007-2011 (Usd Million)

    Table 32: Global Public Safety Wireless Equipment Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 33: Public Safety Wireless Communication Devices Spending, By Geography 2007-2011 (Usd Million)

    Table 34: Public Safety Wireless Communication Devices Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 35: Global Public Safety Wireless Devices Spending, By Type 2007-2011 (Usd Million)

    Table 36: Global Public Safety Wireless Devices Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 37: Global Public Safety Wireless Communication Network Spending, By Type 2007-2011 (Usd Million)

    Table 38: Global Public Safety Wireless Communication Network Spending, By Type 2007-2011 (Usd Million)

    Table 39: Public Safety Apco25 (P25) Communication Network Spending, By Geography 2007-2011 (Usd Million)

    Table 40: Public Safety Apco25 (P25) Communication Network Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 41: Public Safety Tetra/teds Communication Network Spending, By Geography 2007-2011 (Usd Million)

    Table 42: Public Safety Tetra/teds Communication Network Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 43: Global Public Safety Wireless Data Network Spending, By Type 2007-2011 (Usd Million)

    Table 44: Global Public Safety Wireless Data Network Spending, By Type 2007-2011 (Usd Million)

    Table 45: Public Safety Satellite Communication Spending, By Geography 2007-2011

    Table 46: Public Safety Satellite Communication Spending Forecast, By Geography 2012-2017

    Table 47: Global Public Safety Satellite Communication Network Spending, By Type 2007-2011 (Usd Million)

    Table 48: Global Public Safety Satellite Communication Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 49: Public Safety Mobile Satellite Service Spending, By Geography 2007-2011 (Usd Million)

    Table 50: Public Safety Mobile Satellite Service Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 51: Cost And Capability Of Inmarsat Terminal

    Table 52: Terminal Cost And Capabilities Of Amsc Mobile Terminals

    Table 53: Frequency Allocation For Satellite Communication

    Table 54: Public Safety Fixed Satellite Service Spending, By Geography 2007-2011 (Usd Million)

    Table 55: Public Safety Fixed Satellite Service Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 56: Public Safety Wireless Terrestrial Data Network Spending, By Geography 2007-2011 (Usd Million)

    Table 57: Public Safety Wireless Terrestrial Data Network Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 58: Global Public Safety Wireless Terrestrial Data Network Spending, By Type 2007-2011 (Usd Million)

    Table 59: Global Public Safety Wireless Terrestrial Data Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 60: Public Safety Bluetooth Spending, By Geography 2007-2011 (Usd Million)

    Table 61: Public Safety Bluetooth Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 62: Bluetooth V/s Wi-fi

    Table 63: Public Safety Other Technology Spending, By Geography 2007-2011 (Usd Million)

    Table 64: Public Safety Other Technology Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 65: Public Safety Free Space Optics (Fso) Technology Spending, By Geography 2007-2011 (Usd Million)

    Table 66: Public Safety Free Space Optics (Fso)technology Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 67: Public Safety Rfid Spending, By Geography 2007-2011 (Usd Million)

    Table 68: Public Safety Rfid Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 69: Public Safety Local Multipiont Distribution System (Lmds) Spending, By Geography 2007-2011 (Usd Million)

    Table 70: Public Safety Local Multipiont Distribution System (Lmds) Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 71: Publicsafetywi-fi Spending, By Geography 2007-2011 (Usd Million)

    Table 72: Public Safety Wi-fi Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 73: Wired V/s Wifi

    Table 74: Publicsafety 3g And 3.5g Spending, By Geography 2007-2011 (Usd Million)

    Table 75: Public Safety 3g And 3.5 G Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 76: Public Safety Wimax Spending, Bygeography 2007-2011 (Usd Million)

    Table 77: Public Safety Wimax Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 78: Capability Of Wimax Over Wi-fi

    Table 79: Reliability Of Wimax Over Wlan

    Table 80: Public Safety Lte Spending, By Geography 2007-2011 (Usd Million)

    Table 81: Public Safety Lte Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 82: Comparison Of Lte And Wimax

    Table 83: Difference Between Lteand Hspa+

    Table 84: Data Transmission Risk In Lte

    Table 85: Flexibility In Lte

    Table 86: Data Transmission Rates

    Table 87: Quality Of Service In Lte

    Table 88: Lte Device Forecast 2010-2017 (Millions)

    Table 89: Global Public Safety Wireless Communication Services Spending, By Type 2007-2011 (Usd Million)

    Table 90: Global Public Safety Wireless Communication Services Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 91: Public Safety Wireless Communication Services Spending , By Geography 2007-2011 (Usd Million)

    Table 92: Public Safety Wireless Communication Services Spending Forecast , By Geography 2012-2017 (Usd Million)

    Table 93: Global Public Safety Wireless Communication Application Spending, By Segment 2007-2011 (Usd Million)

    Table 94: Global Public Safety Wireless Communication Application Spending Forecast, By Segment 2012-2017 (Usd Million)

    Table 95: Public Safety Wireless Communication Application Spending, By Geography 2007-2011 (Usd Million)

    Table 96: Public Safety Wireless Communication Application Spending Forecast, By Geography 2012-2017 (Usd Million)

    Table 97: Wireless Technology Setting In Municipal Wireless

    Table 98: Municipal Wireless Communication Market Spending, By Geography 2007-2011 (Usd Million)

    Table 99: Municipal Wireless Communication Market Spending Forecast, By Geography 2007-2011 (Usd Million)

    Table 100: Wireless Frequency And Spectrum

    Table 101: North America Public Safety Wireless Communication Spending, By Governance Level 2007-2011 (Usd Million)

    Table 102: North America Public Safety Wireless Communication Spending Forecast, By Governance Level 2012-2017 (Usd Million)

    Table 103: North America Public Safety Wireless Communication Spending, By Departments 2007-2011 (Usd Million)

    Table 104: North America Public Safety Wireless Communication Spending Forecast, By Departments 2012-2017 (Usd Million)

    Table 105: North America Public Safety Wireless Communication Spending, By Segment 2007-2011 (Usd Million)

    Table 106: North America Public Safety Wireless Communication Spending Forecast, By Segment 2012-2017 (Usd Million)

    Table 107: North America Public Safety Wireless Network Technology Spending , By Type 2007-2011 (Usd Million)

    Table 108: North America Public Safety Wireless Network Technology Spending Forecast , By Type 2012-2017 (Usd Million)

    Table 109: North America Public Safety Wireless Communication Network Spending, By Type 2007-2011 (Usd Million)

    Table 110: North America Public Safety Wireless Communication Network Spending Forecast, By Type 2007-2011 (Usd Million)

    Table 111: North America Public Safety Wireless Data Network Spending, By Type 2007-2011 (Usd Million)

    Table 112: North America Public Safety Wireless Data Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 113: North America Public Safetysatellite Network Spending, By Type 2007-2011 (Usd Million)

    Table 114: North America Public Safety Satellite Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 115: North America Public Safety Terrestrial Wireless Data Network Spending, By Type 2007-2011 (Usd Million)

    Table 116: North America Public Safety Terrestrial Wireless Data Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 117: Emea Public Safety Wireless Communication Spending, By Governance Level 2007-2011 (Usd Million)

    Table 118: Emea Public Safety Wireless Communication Spending Forecast, By Governance Level 2012-2017 (Usd Million)

    Table 119: Emea Public Safety Wireless Communication Spending, By Departments 2007-2011 (Usd Million)

    Table 120: Emea Public Safety Wireless Communication Spending Forecast, By Departments 2012-2017 (Usd Million)

    Table 121: Emea Public Safety Wireless Communication Spending, By Segment 2007-2011 (Usd Million)

    Table 122: Emea Public Safety Wireless Communication Spending Forecast, By Segment 2012-2017 (Usd Million)

    Table 123: Emea Public Safety Wireless Network Technology Spending , By Type 2007-2011 (Usd Million)

    Table 124: Emea Public Safety Wireless Network Technology Spending Forecast , By Type 2012-2017 (Usd Million)

    Table 125: Emea Public Safety Wireless Communication Network Spending, By Type 2007-2011 (Usd Million)

    Table 126: Emea Public Safety Wireless Communication Network Spending Forecast, By Type 2007-2011 (Usd Million)

    Table 127: Emea Public Safety Wireless Data Network Spending, By Type 2007-2011 (Usd Million)

    Table 128: Emea Public Safety Wireless Data Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 129: Emea Public Safetysatellite Network Spending, By Type 2007-2011 (Usd Million)

    Table 130: Emea Public Safety Satellite Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 131: Emea Public Safety Terrestrial Wireless Data Network Spending, By Type 2007-2011 (Usd Million)

    Table 132: Emea Public Safety Terrestrial Wireless Data Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 133: Latin America Public Safety Wireless Communication Spending, By Governance Level 2007-2011 (Usd Million)

    Table 134: Latin America Public Safety Wireless Communication Spending Forecast, By Governance Level 2012-2017 (Usd Million)

    Table 135: Latin America Public Safety Wireless Communication Spending, By Departments 2007-2011 (Usd Million)

    Table 136: Latin America Public Safety Wireless Communication Spending Forecast, By Departments 2012-2017 (Usd Million)

    Table 137: Latin America Public Safety Wireless Communication Spending, By Segment 2007-2011 (Usd Million)

    Table 138: Latin America Public Safety Wireless Communication Spending Forecast, By Segment 2012-2017 (Usd Million)

    Table 139: Latin America Public Safety Wireless Network Technology Market Spending , By Type 2007-2011 (Usd Million)

    Table 140: Latin America Public Safety Wireless Network Technology Market Spending Forecast , By Type 2012-2017 (Usd Million)

    Table 141: Latin America Public Safety Wireless Communication Network Spending, By Type 2007-2011 (Usd Million)

    Table 142: Latin America Public Safety Wireless Communication Network Spending Forecast, By Type 2007-2011 (Usd Million)

    Table 143: Latin America Public Safety Wireless Data Network Spending, By Type 2007-2011 (Usd Million)

    Table 144: Latin America Public Safety Wireless Data Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 145: Latin America Public Safety Satellite Network Spending, By Type 2007-2011 (Usd Million)

    Table 146: Latin America Public Safety Satellite Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 147: Latin America Public Safety Wireless Terrestrial Network Spending, By Type 2007-2011 (Usd Million)

    Table 148: Latin America Public Safety Wireless Terrestrial Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 149: Asia Pacific Public Safety Wireless Communication Spending, By Governance Level 2007-2011 (Usd Million)

    Table 150: Asia Pacific Public Safety Wireless Communication Spending Forecast, By Governance Level 2012-2017 (Usd Million)

    Table 151: Asia Pacific Public Safety Wireless Communication Spending, By Departments 2007-2011 (Usd Million)

    Table 152: Asia Pacific Public Safety Wireless Communication Spending Forecast, By Departments 2012-2017 (Usd Million)

    Table 153: Asia Pacific Public Safety Wireless Communication Spending, By Segment 2007-2011 (Usd Million)

    Table 154: Asia Pacific Public Safety Wireless Communication Spending Forecast, By Segment 2012-2017 (Usd Million)

    Table 155: Asia-pacific Public Safety Wireless Network Technology Spending , By Type 2007-2011 (Usd Million)

    Table 156: Asia-pacific Public Safety Wireless Network Technology Spending Forecast , By Type 2012-2017 (Usd Million)

    Table 157: Asia Pacific Public Safety Wireless Communication Network Spending, By Type 2007-2011 (Usd Million)

    Table 158: Asia Pacific Public Safety Wireless Communication Network Spending Forecast, By Type 2007-2011 (Usd Million)

    Table 159: Asia-pacific Public Safety Wireless Data Network Spending, By Type 2007-2011 (Usd Million)

    Table 160: Asia-pacific Public Safety Wireless Data Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 161: Asia-pacific Public Safetysatellite Network Spending, By Type 2007-2011 (Usd Million)

    Table 162: Asia-pacific Public Safety Satellite Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 163: Asia-pacific Public Safety Terrestrial Wireless Data Network Spending, By Type 2007-2011 (Usd Million)

    Table 164: Asia-pacific Public Safety Terrestrial Wireless Data Network Spending Forecast, By Type 2012-2017 (Usd Million)

    Table 165: Alcatel-lucent: Revenue, By Geography (Usd Billion)

    Table 166: Alcatel-lucent: Revenue, By Segments (Usd Billion)

    Table 167: Alcatel-lucent: R&d Expenditure (Usd Billion)

    Table 168: Cisco Revenue Share By Segment

    Table 169: Cisco Product Revenue Share By Geography (Usd Million )

    Table 170: Cisco Product Revenue Share By Segment (Usd Million)

    Table 171: Cisco R&d Expenditure (Usd Million)

    Table 172: Ericsson: Revenue By Segments (Usd Billion)

    Table 173: Ericsson: Sales Per Region And Segment (Usd Billion)

    Table 174: Ericsson: R&d Expenditure (Usd Billion)

    Table 175: Motorola Solutions: Revenue, By Segment (Usd Billion)

    Table 176: Motorola Solutions: R&d Expenditure (Usd Billion)

    Table 177: Nokia Siemens Networks: Revenue, By Segment (Usd Billion)

    Table 178: Nokia Siemens Networks: R&d Expenditure (Usd Billion)

    List Of Charts

    Fig. 1: Evolution Of Wireless Application And Services

    Fig. 2: Wireless Technology Segmentation

    Fig. 3: Wireless Capacity Growth In Public Safety

    Fig. 4: Interoperability Devices In Public Safety

    Fig. 5: Maintenance And Operation Of New Wireless Technology

    Fig. 6: Lmr Systems Provide

    Fig. 7: Next Generation Public Safety Systems

    Fig. 8: Benefits Of Using Lte

    Fig. 9: Impact Of Drivers In Public Safety

    Fig. 10: Impact Of Restraints In Public Safety

    Fig. 11: Impact Of Oppurtunities In Public Safety

    Fig. 12: Advance Public Safety Spectrum

    Fig. 13: Wireless Standards In Public Safety And Municipal Wireless

    Fig. 14: Interoperable Communication Systems

    Fig. 15: Emergency Deployable Interoperable Communications System (Edics)

    Fig. 16: Uwb Application In Public Safety

    Fig. 17: Uwb Application In Public Safety

    Fig. 18: Wi-fi Applications

    Fig. 19: Wi-fi Applications In Public Safety

    Fig. 20: Wi-fi Applications In Public Safety

    Fig. 21: Porter Generic Strategy For Firm’s Profitability

    Fig. 22: Video Stream By Frame Rate

    Fig. 23: Wimax Mobility Over Other Wireless Technology

    Fig. 24: Lte Evolution

    Fig. 25: Lte Services In Public Safety

    Fig. 26: Lte Architecture

    Fig. 27: Causes Of Data Loss

    Fig. 28: High Performance Of Lte

    Fig. 29: Equipment Cost Trend Of Lte Basestation

    Fig. 30: Data Transmission Speed In Lte V/s Wimax

    Fig. 31: Video Surveillance In Municipal Wireless

    Fig. 32: Benefits Of Wi-fi Technology

    Fig. 33: Broadband Evolution

    Fig. 34: Wireless Data Bit With Technology Evolution

    Fig. 35: Impact Of Drivers In Municipal Wireless Communication

    Fig. 36: Impact Of Restraints In Municipal Wireless Communication

    Fig. 37: Impact Of Oppurtunities In Municipal Wireless Communication

    Fig. 38: Uses Of Wireless Broadband Network In Municipal Wireless

    Fig. 39: System Assessment Of Wt Adoption In Public Safety Services

    Fig. 40: Network Assessment Of Wt Adoption In Public Safety Services

    Fig. 41: System Assessment Of Wt Adoption In Municipal Wireless Services

    Fig. 42: Network Assessment Of Wt Adoption In Municipal Wireless Services

    Fig. 43: Analysis Of Players On The Basis Of Performance And Growth

    Fig. 44: Analysis Of Players On The Basis Of Performance And Growth

    Fig. 45: Ppp Business Model Evaluation

    Fig. 46: Advertising In Municipal Wireless

    Fig. 47: Classification Of Public Safety Agencies In North America

    Fig. 48: Spectrum Allocation For Transfering

    Fig. 49: Municipal Wireless Initiative

    Fig. 50: Estimated Security Revenue Projected In Latin America

    Fig. 51: Market Segmentation Of Civil Security In Latin America

    Fig. 52: Alcatel-lucent Market Share

    Fig. 53: Erricson’s Share Of Sales

    Fig. 54: Motorola Share Of Sales

    Fig. 55: Nokia Percentage Of Net Sale By Geography 2011

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