Policy on Intellectual Property Right (IPR)
�1���� Introduction
�2���� Background
�3���� Capabilities of IMT that support broadband PPDR applications
������� 3.1���� Capabilities of IMT systems
������� 3.2���� Advantages of IMT systems for PPDR agencies
����������������� 3.2.1���� Better performance
����������������� 3.2.2���� Simplified, IP-based architecture
����������������� 3.2.3���� Low latency and low packet loss
����������������� 3.2.4���� Greater interoperability
����������������� 3.2.5���� Network security
����������������� 3.2.6���� Network sharing
����������������� 3.2.7�� ��Quality of service and prioritization
����������������� 3.2.8���� Bandwidth flexibility
����������������� 3.2.9���� Simultaneous use of multiple applications and grade
of service
����������������� 3.2.10���� Coverage and spectrum usage/management
����������������� 3.2.11���� Capabilities (e.g. talk group configuration)
������� 3.3���� Other IMT capabilities
�4���� Planned capabilities of IMT-2020 to support broadband PPDR applications
������� 4.1���� IMT-2020 usage scenario from Recommendation ITU-R M.2083 and
its application for PPDR: Enhanced Mobile Broadband (eMBB)
������� 4.2���� IMT-2020 usage scenario from Recommendation ITU-R M.2083 and
its application for PPDR: Ultra-reliable and low latency communications (URLLC)
������� 4.3���� IMT-2020 usage scenario from Recommendation ITU-R M.2083 and
its application for PPDR: Massive machine-type communications (Massive MTC)
������� 4.4���� Example applications of IMT-2020 technologies for public safety
agencies.
����������������� 4.4.1���� Application example 1: Connected emergency
responders
����������������� 4.4.2���� Application Example 2: Next generation public
safety vehicle
����������������� 4.4.3���� Application Example 3: Connected drones and
unmanned aerial vehicles
�5���� Approaches for supporting broadband PPDR applications using IMT
�6���� Case studies of applications of IMT to broadband PPDR
�7���� Summary
�8���� Acronyms, abbreviations
�9���� References
Annex 1� IMT technology capabilities which can be used as a base to develop mission
critical applications
Annex 2� Case study � An example of deployment of a dedicated PPDR network
owned and operated by a PPDR agency or controlling entity,� based on IMT in the
United States of America
Annex 3� Case study � Broadband wireless communications for public safety in
Japan
Annex 4� Case study � Harmonised conditions and spectrum bands for the
implementation of European Broadband PPDR systems (BB-PPDR)
Annex 5� Case study � An example scenario of using LTE for PPDR at a chemical
factory fire
�1���� Introduction
�2���� Summary of the incident
�3���� The incident timeline
������� 3.1���� Event A1
������� 3.2���� Event A2
������� 3.3���� Event A3
������� 3.4���� Event A4
������� 3.5���� Event A5
������� 3.6���� Event A6
������� 3.7���� Event A7
������� 3.8���� Event A8
������� 3.9���� Event A9
������ 3.10���� Event A10
Annex 6� Case study: PPDR deployment strategy utilizing partitioning of the
service capacity on a national IMT network