Broadband in Disaster Relief and in the ITU ITU-T Workshop on Disaster Relief & Network Resiliency Amy L.
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Broadband in Disaster Relief and in the ITU ITU-T Workshop on Disaster Relief & Network Resiliency Amy L. Sanders (Alcatel-Lucent) and Sergio Buonomo (ITU-R) 25 June 2012 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. AGENDA Item A | Broadband for Disaster Relief Item B | ITU-R Focus on Disaster Relief Item C | Activities in ITU-R Working Party 5A and Study Group 4 Item D | ITU-D Focus on Disaster Relief Item E | Activities in ITU-D Study Group 2 Item F | Conclusion 2 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Major incidents and crisis require automatic, immediate and coordinated response September 11, 2001 analysis: “From the first moments to the last … their efforts were plagued by failures of communication, command, and control.” Military & Aerospace Electronics, August 2002, quoting New York Times article. Voice Situational Awareness Requirements: + + Video Officer and Public Safety Data Operational Effectiveness New Dynamic Information Flows Drive Communication & Processes Transformation Eliminate jurisdictional barriers to communication and add collaborative applications TETRA/P25 digital conversion and coverage expansion Remote video surveillance, sensors and new first responder tools Communications’ impact New communications functionality to interconnect cooperating agencies Transition from support of TDM traffic to a mix, with increasing Ethernet/IP and QoS for critical traffic packet dominates Bandwidth and network-footprint growth Increase in secure remote access Automation and acceleration of information flows High availability following a catastrophic event “Several major incidents over the past four decades have demonstrated that traditional narrowband emergency communications infrastructure that supports only local emergencies is quickly overloaded by regional or national catastrophes. ”Frost & Sullivan, 2009 4 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Migration Path for Communication Continuum Value Impact IP Transformation Broadband Migration Digital Conversion Create a solid digital LMR/PMR foundation Network Design & Planning Converged backhaul supporting packet and legacy traffic using licensed and unlicensed frequencies Integrated network management platform to reduce operational expenses, increase reliability and efficiency of operations Introduce broadband mobile access Complement TETRA/P25 with broadband radio access data overlay: LTE Enable new streaming video surveillance, digital imaging to enhance first responder mission effectiveness & Command Control Integrate collaborative approaches and advanced IP applications into Public Safety solution sets Now Develop multimedia services Introduce new IP-based mobile services, such as video collaboration, data exchange, white boarding Optimize systems interoperability Extend usable information Evolve toward NextGen Emergencies System and Next Gen Command & Control (C2) 2012+ 5 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Which Broadband Technology? LTE! Compelling Performance • LTE Provides: Latency Reduction 65 ms Low latency ( 10 to 20ms) for very fast access 60 ms 50 ms 50 ms 10 ms HSPA RevA/RevB HSPA+ WiMAX LTE 326 Mbps Higher Peak throughput 173 Mbps 86 Mbps LTE ensures real-time transfer of data and video 55 Mbps 36 Mbps 42 Mbps 14 Mbps 5 Mbps 11 Mbps 5 Mbps HSPA 5MHz HSPA+ 5MHz WiMAX LTE 20MHz MIMO2x2 High throughput for very fast transfer LTE 20MHz MIMO4x4 6 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Broadband Wireless (LTE): Incident, Day-to-Day and Planned Operations Real-Time Situational Awareness Remote Office Evidence Collection Enhanced Officer & Public Safety Video Images Increased Street Time Remote Form Entry Access to Databases Messaging Next-Gen 112/911 Images, Text Videos Multi-Agency, Multi-Jurisdiction Response Team Coordination Full Interoperability Medical Telemetry Streaming Data LTE: An Essential Tool for Public Safety 7 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Life-saving Information Engineering Principles for Mission Critical Backhaul Networks • Reliable Network: no single point of failure • At Nodal level • At Network level • Sub 50 msec reroute for ALL applications • Secure Network: Multiple applications • Optimize bandwidth: Intelligent Bandwidth Management. • Ease of management: Single Network Management Interface. • Support advanced IP applications and continue to support existing TDM applications. Provide a platform to migrate to IP. • Ubiquitous Traffic Flows • Pt to Multipoint, Full Mesh, Spoke • Multicast • Compliant with Latency Requirements • Deployable over multiple physical technologies 8 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. LTE Generic Network Implementation • Highly scalable to meet current and future needs • Building on existing infrastructure • Open interfaces developed within the 3GPP standards • Proven interoperability Network Administration Multiple Jurisdiction networks HSS Fire Truck Data Center IP Router fiber, mwave Agency N MME eNB PCRF Data Center IP Router Government Agency 2 Use Backhaul aggregation for collocated LMR IP Router and LTE Ambulance Police SGW PGW Network IP Router Agency 1 Data Center eNB Bearer Traffic Signaling/Control OA&M eNB Base Station EPC Evolved Packet Core (MME+S/PGW) HSS Home Subscriber Server MME Mobility Management Entity PGW Packet Data Gateway SGW Serving Gateway Migration to Single, Multifunction, and MultiAgency Network • Legacy P25 network • Evolving from a separate network to a multi-function (Data, Video, Voice) environment • Evolving to a multi-agency, multi-functional environment Converged backhaul with TETRA/P25 collaboration as a first step to unify interoperability amongst agencies to increase their effectiveness and provide a foundation for broadband wireless capabilities 10 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Benefits of Backhaul Transformation to a MultiAgency Network Environment • New relationships between agencies gives greater collaboration - Multiple agencies working together to determine what was needed - State/ Regional planning and Rehearsal for Team building to foster cooperation. • Improved reliability / interoperability to complement the TETRA/P25 - Sharing data for CAD backup center for smaller towns now economically feasible - New network architecture protects against disruptions, e.g. cable cuts • Eliminates jurisdictional boundaries and expanded cross-jurisdictional interoperability • Managing public safety network and IT business applications on a single open platform to increase efficiency (OSS/BSS) • Network convergence (Fixed, Wireless, Data and Video) providing virtual networks to Police, EMS, and municipal administration welfare services (meeting legal requirements) Reduced cost and increased operational efficiency. • Provides a coordinated response to events that is: scalable, efficient, effective and responsive to the needs and resources of the agencies. 11 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Multi-Mode Core Transport: A Strategic Asset MPLS-based Consolidated Multi-Mode Network Connectivity Microwave IP/MPLS Leased/Private Lines Flexible Bandwidth on Demand Support of Legacy (T1) and New (IP) Services Bandwidth Management Fiber Scalable VPN Mechanisms Data Services Hitless Restoration T1 Land Mobile Public Radio Safety LTE Voice, Video Services 12 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Cost-effective Service Take–Away Trends • Broadband: Will be the key change agent for Pubic Safety / Public Sector Communications and Government services. Dominant application will be video. • Network Transformation: Digital Communications will allow the convergence of Data, Video and voice communications, as well as Advanced IP based applications such as Video Collaboration, Image Transfers and Information Sharing, giving new levels of functionality. • Interoperability: Is not just communications; it will enhance interagency cooperation and eliminate jurisdictional boundaries to improve incident management and effectiveness. Interoperability is not just for special events, 97% of interoperability is day-to-day use. • Operational Support Systems: Mission Critical System Networks will require up to 5-9‘s reliability, this will be absolutely critical the networks must operate in some of the most extreme environments. Hurricanes, floods, earthquakes and other natural or man-made disasters. • Open Systems: Increased use of standards- based systems to insure interoperability between different systems, different agencies and different vendors. 13 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. ITU-R Focus on Disaster Relief • Radiocommunications Assembly 2007 (RA-07) approved Resolutions ITU-R 53 and ITU-R 55 instructing all ITU-R Study Groups to carry out studies on the use of radiocommunications in disaster prediction, detection, mitigation and relief. • Nearly every Study Group within the ITU-R has a role to play in Disaster Relief. (More detail on next slide). • The ITU-R Departments and Regional Offices also are engaged in Disaster Relief efforts - Implementation of Resolution 647 (Rev.WRC-12). See Activities on Resolution 647 (WRC-07) - "Emergency and disaster relief radiocommunication" - Publications, such as the ITU-R Special Supplement on “Emergency and Disaster Relief” 14 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Disaster phases Major radiocommunication services involved Major tasks of radiocommunication services Studies carried out by Radiocommunica tion Prediction & Detection •Meteorological services (meteorological aids Weather and climate prediction. Detection and and meteorological-satellite service) tracking of earthquakes, tsunamis hurricanes, •Earth exploration-satellite service typhoons, forest fires, oil leaks etc. Providing warning information Study Group 7 •Amateur services Receiving and distributing alert messages Study Group 5 •Broadcasting services terrestrial and satellite (radio, television, etc.) Disseminating alert messages and advice to large sections of the public Study Group 6 •Fixed services terrestrial and satellite Delivering alert messages and instructions to telecommunication centres for further dissemination to public Study Group 5 Study Group 4 •Mobile services (land, satellite, maritime services, etc.) Distributing alert messages and advice to individuals Study Group 5 Study Group 4 •Amateur services Assisting in organizing relief operations in areas (especially when other services are still not operational) Study Group 5 •Broadcasting services terrestrial and satellite (radio, television, etc.) Coordination of relief activities by disseminating information from relief planning teams to population Study Group 6 •Earth exploration-satellite service Assessment of damage and providing information for planning relief activities Study Group 7 •Fixed services terrestrial and satellite Exchange of information between different teams/groups for planning and coordination relief activities Study Group 5 Study Group 4 •Mobile services (land, satellite, maritime services, etc.) Exchange of information between individuals and/or groups of people involved in relief activities Study Group 5 Study Group 4 Alerting Relief Activities in Working Party 5A Land Mobile Systems above 30 MHz*(excluding IMT); wireless access in the fixed service; amateur and amateur-satellite svcs. • The ITU Radiocommunication Assembly assigned WP 5A Question 2094/5, “Use of the mobile, amateur and amateur satellite services in support of disaster radiocommunications”. • Disaster-related Recommendations & Reports under the purview of WP 5A: - Recommendation ITU-R M.1042,”Disaster communications in the amateur and amateur-satellite services”, provides guidance on the roles of the amateur and amateur satellite services in providing communications during disaster situations. - Report ITU-R M.2085,”Role of the amateur and amateur-satellite services in support of disaster mitigation and relief”, is intended to document the role of the amateur and amateur-satellite services in provision of radiocommunications in support of disaster mitigation and relief. It includes information developed after the South-East Asia tsunami in December 2004. 16 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Activities in Working Party 5A continued - Report ITU-R M.2033, “Radiocommunication objectives and requirements for Public Protection and Disaster Relief (PPDR)”, defines the PPDR objectives and requirements for the implementation of future advanced solutions to satisfy the operational needs of PPDR organizations around the year 2010. Specifically, it identifies objectives, applications, requirements, a methodology for spectrum calculations, spectrum requirements and solutions for interoperability. - Recommendation ITU-R M.2015, “Frequency arrangements for public protection and disaster relief radiocommunication systems in UHF bands in accordance with Resolution 646 (Rev.WRC-12)”, provides guidance on frequency arrangements for public protection and disaster relief radiocommunications in certain regions in some of the bands below 1 GHz identified in Resolution 646 (Rev.WRC-12). - Recommendation ITU-R M.2009, “Radio interface standards for use by public protection and disaster relief operations in some parts of the UHF band in accordance with Resolution 646 (WRC-03)”, identifies radio interface standards applicable for public protection and disaster relief (PPDR) operations in some parts of the UHF band. 17 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Activities in Working Party 5A continued • Recommendation ITU-R M.1826, “Harmonized frequency channel plan for broadband public protection and disaster relief operations at 4 940-4 990 MHz in Regions 2 and 3”, addresses the title subject. • Recommendation ITU-R M.1637, “Global cross-border circulation of radiocommunication equipment in emergency and disaster relief situations”, offers guidance to facilitate the global circulation of radiocommunication equipment in emergency and disaster relief situations including the need for plans and procedures to be in place before a possible disaster event in order to facilitate the speedy authorization of the use of such equipment. • Working Party 5A also has a Disaster Relief Rapporteur who is tasked with reporting to each meeting on activities in the ITU, regional bodies, and national programs associated with disaster relief and recovery. The most recent report can be found here: http://www.itu.int/md/R12-WP5A-C-0046/en . Contributions to the report are welcome. 18 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Activities in Study Group 4 • The ITU Radiocommunication Assembly assigned Study Group 4 the following Questions associated with disaster relief: - Question 227, “Technical and operational characteristics of emergency communications in the mobile-satellite service” (WP 4B and 4C) - Question 286, “Contributions of the mobile and amateur services and associated satellite services to the improvement of disaster communications” (WP 4C), - Question 290, “Broadcasting-satellite means for public warning, disaster mitigation and relief” (WP 4B) 19 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Activities in Study Group 4continued • Disaster-related Recommendations & Reports under the purview of Study Group 4: - Recommendation ITU-R M.1854, “Use of mobile-satellite service (MSS) in disaster response and relief”, which provides information about the range of frequencies used by mobile-satellite service (MSS) systems that could be identified by Member States for early warning and disaster relief telecommunications in accordance with various ITU-R and WRC Resolutions, was recently revised in cooperation with ITU-D Study Group 2 to include information on a new geostationary-satellite system that has been brought into use at the orbital position 10 °E by the satellite operator Solaris Mobile Limited in the bands 1 980-2 010 MHz (Earth-to-space) and 2 170-2 200 MHz (space-toEarth). - Report ITU-R M.2149, “Use and examples of mobile-satellite service systems for relief operation in the event of natural disasters and similar emergencies” was revised in order to include information on above new geostationary-satellite 20 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Activities in Study Group 4 continued - Recommendation ITU-R S.1001, "Use of systems in the fixed-satellite service in the event of natural disasters and similar emergencies for warning and relief operations" (http://www.itu.int/rec/R-REC-S.1001-2-201001-I/en). - Report ITU-R M.2151, “Use and examples of systems in the fixed-satellite service in the event of natural disasters and similar emergencies for warning and relief operations" (http://www.itu.int/publ/R-REP-S.2151-2009/en). 21 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. ITU-D Focus on Disaster Relief • Tampere Convention on the Provision of Telecommunication Resources for Disaster Mitigation and Relief Operations came into force 8 January 2005. • The Tampere Convention calls on States to facilitate the provision of prompt telecommunication assistance to mitigate the impact of a disaster, and covers both the installation and operation of reliable, flexible telecommunication services. Regulatory barriers that impede the use of telecommunication resources for disasters are waived. • The ITU assists in fulfilling the objectives of the Tampere Convention. Dr Cosmas Zavazava of the ITU-D is the contact point. • The WTDC assigned Question 22 a key role in implementing Resolution 34 (Rev. Hyderabad, 2010), “The role of telecommunications/information and communication technology in early warning and mitigation of disasters and humanitarian assistance” 22 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Activities in ITU-D Study Group 2 Rapporteur Group for Question 22-1/2: Utilization of telecommunications/ ICTs for disaster preparedness, mitigation and response • Publishes reports and handbooks on disaster relief for developing countries - “Utilization of ICT for disaster management, resources, and active and passive space-based sensing systems as they apply to disaster and emergency relief situations” - “Compendium of ITU'S Work on Emergency Telecommunications 2007” - “Best Practice on Emergency Telecommunications” - “Handbook on Emergency Telecommunications - Edition 2005” - “Handbook on Disaster Communications - Edition 2001” • Currently working on: - On-line Toolkit - ITU Handbook “Telecommunication outside plant in areas frequently exposed to natural disasters” 23 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Key Messages • The ITU-R and the ITU-D already have well-established groups focused on disaster relief and recovery. • Efforts must be made not to duplicate the work of the existing groups. • Cooperative and collaborative work between the three sectors will reduce duplication of effort and create synergies. • Liaison activity by the ITU-T Focus Group with ITU-R Study Groups/Working Parties and ITU-D Questions will ensure the most efficient use of time and resources. • “Compendium of ITU'S Work on Emergency Telecommunications 2007” could be a model in three-sector cooperation for us to follow. 24 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. CONCLUSION Let's Work Together for the Good of All ITU-D Needs of Developing Countries for Disaster Relief Study Group 2 Q.22 • • Captures the unique needs of developing countries Promulgates and promotes disaster relief solutions Radiocommunications for Disaster Relief Study Groups 4, 5, 6, and 7 Develop Recommendations and Reports on Radiocommunications for Disaster Relief Incorporate cutting-edge radiocommunications technologies from SDOs • Disaster Relief ITU-R • Core Network for Disaster Relief Focus Group on Disaster Relief Systems, Network Resiliency and Recovery ITU-T • Collects and documents information and concepts helpful to the work on disaster relief systems/ applications, network resilience and recovery from a telecommunication network perspective 25 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. Back-up Slides Public Safety Networks Transformation Why Change? The network needs to quickly adapt to new services Need to enable “Ethernet Backhaul” by creating a native transport network Moving from… To… • Voice over TDM circuits • Voice over IP with rich features and functionalities • Limited video, voice and data collaboration • Full and instantaneous video, voice and data collaboration tools • Low speed data collection and LMR over TDM circuits. • Data collections and LMR circuits using IP/Ethernet • Limited VPN services • Rich and scalable VPN services • Limited QoS implementation. • IP/MPLS network with sophisticated QoS implementation supporting multiple services • Best Effort IP, Reliable TDM. 28 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. What Would Happen If? Command & Control interfaces Radio Collaboration Situation Rooms Mobile Collaboration Data center Central HQ Video Collaboration Public Containment 29 COPYRIGHT © 2011 ALCATEL-LUCENT. ALL RIGHTS RESERVED. LTE Main Features • High-Speed Data in High Mobility Environments • Optimized for Interactive IP applications - Always-on Connection - Fast Call Setup - Low Data Delay • Enhancements for Public Safety - Pre-emption, Prioritization, Network Control Lowest Delays & Highest Data Rates LTE Main Features • Advanced antenna support • Open Standards • Commercial Scale Economies • Being Deployed in the US 700 MHz Band • Seamless Roaming onto Commercial Networks Lowest Delays & Highest Data Rates LTE Offers Bandwidth to Enable Multi-Agency Networks ~100 kbps Land Mobile Radio ~100 Mbps LTE ~1,000-fold Increase in Required Backhaul Capacity Backhaul Drives Move to Multi-Agency, Multi-Party Networks