Emergency Response Public LTE Access

The public safety communication industry is a highly risk adverse industry. Public safety agencies rely on communication channel to make life-saving decisions, hence they expect their communication channels to be consistent, encrypted, and reliable. Given the LTE coverage in most developed counties, LTE is the ideal solution to public safety communication. Low equipment price, together with mature commercial LTE network deployment and service provision, creates a favorable condition for the growth of the Asia-Pacific, Middle East, and Africa, after initial push for migration in North America and Western Europe.

  • 1. EXECUTIVE SUMMARY
  • 2. CURRENT STATE OF DEVELOPMENT IN PUBLIC SAFETY COMMUNICATION
    • 2.1. TETRA
    • 2.2. APCO P25
    • 2.3. DMR
    • 2.4. dPMR
    • 2.5. PDT
  • 3. IMPROVEMENT OF PUBLIC SAFETY COMMUNICATION WITH LTE
    • 3.1. Benefits and Key Improvements
      • 3.1.1. Economies of Scale
      • 3.1.2. Technical Improvements
    • 3.2. Global QoS Requirement for Public Safety LTE on Commercial LTE Networks
    • 3.3. Key Challenges
      • 3.3.1. Unique Public Safety Requirements in LTE
      • 3.3.2. LTE Devices
      • 3.3.3. Operational Model
  • 4. PUBLIC SAFETY COMMUNICATION DEVELOPMENT IN KEY COUNTRIES
    • 4.1. North America
      • 4.1.1. United States
      • 4.1.2. Canada
    • 4.2. Asia-Pacific
      • 4.2.1. China
      • 4.2.2. Australia
      • 4.2.3. South Korea
    • 4.3. Europe
      • 4.3.1. United Kingdom
      • 4.3.2. Germany
      • 4.3.3. Belgium
    • 4.4. The Rest of the World
  • 5. MARKET FORECAST FOR PUBLIC SAFETY COMMUNICATION WITH LTE
    • 5.1. Worldwide
      • 5.1.1. Market Size (Network, Service, and Device)
      • 5.1.2. Public Safety LTE Connection
      • 5.1.3. Public Safety LTE Device Market Size
    • 5.2. North America
    • 5.3. Asia-Pacific
    • 5.4. Europe
    • 5.5. Latin America, the Middle East, and Africa
  • 6. CONCLUSION
  • 7. ACRONYMS

Tables

  1. Comparison of Five Existing Public Safety Communication Protocols
  2. Three Possible Models in Deployment of a Public Safety Communication Network
  3. Public Safety LTE Market Size by Region (Network, Service, and Device), Market, Forecast: 2014 to 2025
  4. Public Safety LTE Market Size Percentage by Region (Network, Service, and Device), Market, Forecast: 2014 to 2025
  5. Public Safety Communication Devices by Region (LTE and Non-LTE), Market, Forecast: 2014 to 2025
  6. Public Safety LTE Communication Devices by Region, Market, Forecast: 2014 to 2025
  7. Percentage of Public Safety LTE Communication Devices by Region, Market, Forecast: 2014 to 2025
  8. Public Safety LTE Communication Device Market Size by Region, Market, Forecast: 2014 to 2025

Charts

  1. Public Safety LTE Market Size by Region (Network, Service, and Device), 2014 to 2025
  2. Public Safety LTE Market Size by Region (Network, Service, and Device), Market, Forecast: 2014 to 2025
  3. Public Safety Communication Devices by Region (LTE and Non-LTE), Market, Forecast: 2014 to 2025
  4. Percentage of Public Safety LTE Communication Devices by Region, Market, Forecast: 2014 to 2025

Figures

  1. Proximity Service Examples, Retrieved from 3GPP
Purchase

Research Information

Price
Log In or Register
Publish Date
3Q 2015
Code
AN-1874
Research Type
Application Analysis Report
Pages
23