The future growth in the ongoing process of city-wide and municipal wireless
broadband services is the main factor that leads to technology innovation in
wireless broadband with the increase in number of new services over the next
seven years. This will be an ad on advantage for mobile wireless device,
equipment and infrastructure developers. The globe is witnessing the fear from
many sides such as terrorist attack are also increasing so there is need to
advancement in every direction and simultaneously there are places where
natural disasters occurs frequently so there is the need for public safety
application segment and municipal wireless to play an unmatched role in
wireless broadband technology.
Wireless broadband technology is evolving at fast pace due to its applications
in almost each and every field whether it is transportation, public safety,
industrial usage, commercial ground or in public services. The problems due to
equipment sector experience and faulty network designs will result in long run
depletion of technology which can be over taken with improvements in
infrastructure and advanced network technologies.
In many countries line the spectrums of public safety are used in many
applications due to limited spectrum availability in the network. With growing
demand of public safety wireless communication the satellite communication is
also taking a step forward and is necessary in the times of disaster and
emergencies where land communication does not work since these FSS and MSS
will help in navigation and gathering of system information where land
communication does not work. Infrastructure development and services market
are showing huge growth rate in the next seven years which will help in future
growth of wireless communication in public safety and municipal wireless
communication.
The public safety devices and equipment market is expected to grow in the next
two years when the infrastructure growth will give a strong background in
development of wireless technologies. This increase in wireless technology has
future growth opportunities in public safety and municipal wireless
communication.
Table of Contents
Table of Contents
CHAPTER 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
CHAPTER 2 - EXECUTIVE SUMMARY
CHAPTER 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
CHAPTER 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
CHAPTER 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
CHAPTER 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
CHAPTER 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
CHAPTER 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
CHAPTER 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
CHAPTER 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
CHAPTER 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
TABLE 177: NOKIA SIEMENS NETWORKS: REVENUE, BY SEGMENT (USD BILLION)
TABLE 178: NOKIA SIEMENS NETWORKS: R&D EXPENDITURE (USD BILLION)
Public Safety Wireless Communication & Municipal Wireless Communication Market: Global Spending Analysis & Forecast (2007 - 2017) published by Transparency Market Research in December 12, 2011. This report consists of 340 Pages and the price starts from US $ 6395.
