Ahmed Zeddam (Chair) Dave Faulkner (Climate Associates Ltd, UK)

Q 23/5 “Using ICTs to enable countries to adapt to climate change”Q 22/5 "Setting up a low cost sustainable telecommunication infrastructure for rural communications in developing countries" Ahmed Zeddam (Chair) Dave Faulkner (Climate Associates Ltd, UK) Franz Zichy (US Department of State)

Note to Japanese Colleagues We would like to add our sympathy to you and your families as you experience various hardships arising from the recent earthquake

Agenda • Introduction to the meeting-Ahmed Zeddam • Introduction to the new Question 23/5 "Using ICTs to enable countries to adapt to climate change" -Dave Faulkner • Introduction to the new Question 22/5 "Setting up a low cost sustainable telecommunication infrastructure for rural communications in developing countries" -Franz Zichy • Coordination and contributions-Ahmed Zeddam • Future meetings (SG5 and this JCA)-Ahmed Zeddam • AOB

Introduction to this online meeting, • SG5 (and this JCA) Chairman • Ahmed Zeddam (France Telecom-Orange)

What are the aims of this meeting? • Introduce new Questions 22 and 23 • Provide stimulation for contributions on the new topics • Especially where gaps in standards are identified

Motivation for the new Questions • The Conference of the Parties of the United Nations Framework Convention on Climate Change (UNFCCC) in December 2007 (COP-13) developed the Bali Action Plan. • Among its actions it calls for- • enhanced action on adaptation, taking into account the needs of developing countries that are particularly vulnerable to the adverse effects of climate change; • The ITU is well placed to help countries to implement the United Nations Framework Convention on Climate Change (UNFCCC) and the Kyoto Protocol through the use of ICTs • It is proposed to work with UNFCCC to ensure that the right policy and technical frameworks are in place to move towards a low carbon economy and so that ICT’s potential to adapt to climate change is maximised.

What is in the new Question 23/5?“Using ICTs to enable countries to adapt to climate change” • Acting Rapporteur- • Dave Faulkner (Climate Associates Ltd)

Aims The aim of the new Question is to address this area of the Bali Action Plan: ‘enhanced action on adaptation’ This will provide handbooks on best practices and recommendations, if necessary, to help developing countries to deal with the issues concerned with adaptation to climate change. It will work closely with Q18/5 activity on methodology and standardise the technologies themselves in the appropriate SGs and with new question ITU-D Q24/2. http://www.itu.int/ITU-T/studygroups/com05/sg5-q23.html

Study Items include but are not limited to #1 What are the standardisation requirements for ICTs to enable adaptation to climate change? How can ICTs, in particular fibre submarine cable networks, be used more effectively to monitor the global environment/ecosystem and what new standards are required? How can ICT standards be used and adapted to more effectively disseminate information on both natural and man-made disasters (early warning) to communities (e.g. supporting GDACS under the UN framework? http://www.itu.int/ITU-T/studygroups/com05/sg5-q23.html

Study Items include but are not limited to #2 Identifying if new ICT standards are needed to address food security, water transportation and supply, in close collaboration with D sector. How can ICT standards better enable water management under accelerating climate change conditions to improve the overall efficiency of water use, leading to a more sustainable use of water resources? What ICT standards need to be used or developed to disseminate information to enable farmers to better forecast crop yields and production? http://www.itu.int/ITU-T/studygroups/com05/sg5-q23.html

Study Items include but are not limited to #3 How can ICTs be used to monitor deforestation and forest degradation and what standards are available or need development? How can ICTs be used to reduce CO2e emissions by better waste management through a ‘cradle to cradle’, i.e. ‘closed loop’, approach whereby more efficient recycling means fewer raw materials need to be mined? What standards are needed for ICTs to be used to increase energy supply efficiency and maximize the use of renewable sources? How can ICTs be used in education and to raise awareness on climate change and what standards development is required? What e-health standards are needed for more effective healthcare, as diseases spread due to changing climatic conditions, and to ensure interoperability? http://www.itu.int/ITU-T/studygroups/com05/sg5-q23.html

Tasks Establish handbooks on practical examples and best practices of ICT standards, and if necessary Recommendations, to support adaptation to climate change. Produce a ‘roadmap’ to identify the types of ICT technologies and standards available, propose improvements and facilitate more effective use of these Coordinate with other SGs, ITU-R, ITU-D and other bodies on a regular basis to collaborate effectively http://www.itu.int/ITU-T/studygroups/com05/sg5-q23.html

Next • The following slides illustrate aspects of adaptation which could lead to contributions • Monitoring and climate forecasts • Adaptation • Service Types • Fixed v mobile benefits • Which Wireless Systems are we interested in? • Which Devices are we interested in? • GDACS-Global Disaster Alert and Coordination System • Identification of gaps in standards is a key consideration

Climate change adaptation Definition [1] http://en.wikipedia.org/wiki/Climate_change_mitigation [2] http://en.wikipedia.org/wiki/Adaptation_to_global_warming • “Climate change adaptation is acting to tolerate the effects of global warming”[1] • It consists of initiatives and measures to reduce the vulnerability of natural and human systems against actual or expected climate change effects • However the capacity and potential for human systems to adapt (called adaptive capacity) is unevenly distributed across different regions and populations [2] • Adaptation will be more difficult for larger extremes and higher rates of climate change

Climate Monitoring • Provides climate data to enable scientific theories to be verified and allows predictions to be made by climate modellers • Often linked with data gathering for weather forecasting and air traffic control http://www.star.nesdis.noaa.gov/star/meeting_CMS2010.php

What is the predicted temperature change?-varies with region and location • http://www.ipcc.ch/pdf/assessment-report/ar4/wg1/ar4-wg1-chapter11.pdf One example cited here-West Africa The bars at the end of the orange envelope represent the range of projected changes for 2091 to 2100 Circa 2007 (always check for latest results from climate modellers) 16

Sea Level Rise This Century [4] [1] http://www.ipcc.ch/pdf/assessment-report/ar4/wg2/ar4-wg2-chapter6.pdf[2] http://www.sciencemag.org/cgi/content/abstract/321/5894/1340[3] http://en.wikipedia.org/wiki/Current_sea_level_rise [4] http://en.wikipedia.org/wiki/File:NOAA_sea_level_trend_1993_2010.png • IPCC 4th assessment report prediction [1] • 0.18-0.59m • “Models of glacier mass balance (the difference between melting and accumulation of snow and ice on a glacier) give a theoretical maximum value for sea level rise in the current century of 2 metres (and a "more plausible" one of 0.8 metres), based on limitations on how quickly glaciers can melt [2,3].

Sea Level Fluctuations • Combinations of factors can lead to flood disaster • Land mass sink • Low atmospheric pressure* • Storm surge* • Wave and tidal peak* • Earthquake and tsunami • Storm run off* * = increased risk with global warming http://en.wikipedia.org/wiki/Sea_level

Climate Monitoring: Examples commons.wikimedia.org/.../File:GOES-12_satellite_image_of_Hurricane_Katrina.jpg [1] http://en.wikipedia.org/wiki/Weather_satellite [2] http://en.wikipedia.org/wiki/Current_sea_level_rise [3] http://www.star.nesdis.noaa.gov/star/meeting_CMS2010.php [4] http://en.wikipedia.org/wiki/Remote_Automated_Weather_Station [5] http://raws.fam.nwcg.gov/raws101.html [6] http://www.itu.int/dms_pub/itu-t/oth/23/01/T23010000110001PDFE.pdf • Satellite observations [1,2,3] • Visible and in infrared • Ground based • Remote Automated Weather Stations [4,5] • May be added to cellphone base stations • Submarine systems • How can we adapt telecommunications systems for this? • See ITU-T Technology Watch Report [6]

Climate Monitoring Where are improvements needed? Example - Africa www.wmo.int/pages/mediacentre/press_releases/pr_855_en.html • Africa has a network eight times below the WMO minimum recommended standard, and less than 200 automatic weather stations that meet WMO observation requirements • Mobile networks provide the necessary connectivity, power and security to sustain the weather equipment. • Up to 5,000 automatic weather stations are to be deployed at cellular sites across Africa, where less than 300 are reporting today. • This will increase dissemination of weather information via mobile phones to users and communities, including remote farmers and fishermen • The initial deployment, already begun in Zain networks, focuses on the area around Lake Victoria in Kenya, United Republic of Tanzania and Uganda. The first 19 automatic weather stations installed will double the weather monitoring capacity of the Lake region

Priorities for Adaptation #1Will climate change put these more at risk? Drinking water supply Food supply Shelter Health (diseases) Transport infrastructure (boat, rail, road, air) Robust communications services are vital to maintain these services

Priorities for Adaptation #2Ubiquitous ICT can reduce the risk to local populations • Food and water preparedness for possible disaster [1] • Availability of advice online • Drinking water supply • Control of water levels (close/open sluice gates etc) • Blocked drains (alert and action to unblock) • Food supply • Monitoring and control of agricultural land and processes • Flood/drought: request to send to food from nearest store to remote locations • Shelter • Disaster: request to provide tents and other necessities • Health (diseases) • Request advice/medications by phone, text or email • Transport infrastructure (boat, rail, road, air) • Updates on state of roads, bridges, railways during flood run off [1] http://www.state.nj.us/njoem/preparedness_foodwater.html

ICT and Food SecurityExample of a wireless network scheme to monitor agricultural parameters [1] ITU-T Technology Watch Report “ICTs and Food Security” http://www.itu.int/oth/T230100000B/en[2] http://commonsense.epfl.ch/

Next Establishing the ICT service requirements for Adaptation to Climate Change..

Establishing the ICT requirements for Adaptation to Climate Change Adaptation with Broadcast Services • Radio and TV services • Early warning and Emergency advice • Severe weather • Flood risk • Evacuation procedure • Education • Advantage • Cheap country-wide coverage • Big limitation • No signalling or alerts • Limited use at night • One way communication • (except with private mobile radio, citizen’s band, etc) • Revert to sirens or loud hailers etc • Broadcast text messages would be better

Establishing the ICT requirements for Adaptation to Climate Change Adaptation with Voice Services • Interactive voice services (network may be fixed or mobile) • Passing on local conditions (to broadcaster) • Request for help • Planning movement of water, food, people • Advantage • Specific actions can be coordinated • Big limitation • Coverage and powering • Infrastructure build required

Establishing the ICT requirements for Adaptation to Climate Change Adaptation with Text Services • Mobile networks (mostly) • Passing on local conditions (to broadcaster) • Request for help • Planning movement of water, food, people • Advantages • Cheaper services (than voice and broadband) • Message can be re-read • Non intrusive (does not disrupt recipient) • Alert signal is sent • Limitations • Coverage • Powering • Infrastructure build required

Establishing the ICT requirements for Adaptation to Climate Change Adaptation with Broadband Services • Fixed or Mobile Networks can be broadband enabled • Access to very detailed information from internet • Access to email etc • Video services via Skype etc • Applications include • Passing on local conditions (to broadcaster) • Request for help • Planning movement of water, food, people • New applications can be quickly devised • Advantages • Can be always on • Messages can be stored, re-read and forwarded • Non intrusive (does not disrupt recipient) • Alert signal possible • Laptops or PDAs may be used for access • Limitations • Cost of service • Coverage (may require broadband enabling) • Powering • Infrastructure build required

Establishing the ICT requirements for Adaptation to Climate Change Are special requirements needed for adaptation to CC? • Adaptation builds on ‘intended use’ of telecommunications networks which is to enable business and social communications • Adaptation is an ‘extra consideration’ to the basic services • Text, voice and broadband • Some services may need to be designed and built to operate in different modes when disaster strikes • Saving power • Preventing overload • Increasing security • Increased resilience to outage • Broadcasting text or voice services

Establishing the ICT requirements for Adaptation to Climate Change Fixed versus mobile Fixed Mobile Local power (batteries) needed to make calls 2/3G compatible systems available Bandwidth limited by cell size /spectrum availability Infrastructure requires less trenching (cheaper) Can be anywhere (subject to radio coverage) Less Flood and wind risk • Exchange power for telephony provided • ADSL may be added to existing lines • Unlimited bandwidth with fibre • Costly infrastructure needed to each user • Cannot be everywhere • Flood and wind risk

Establishing the ICT requirements for Adaptation to Climate Change What needs to be done at project level-(Pre Standards)? • Run feasibility projects to serve your local or national community to help minimise the risks due to climate change • This should (preferably) include an ICT aspect and a business case • A small project with scaling-up potential is preferred • Multiply up the benefits • Communicate your results worldwide • Input to international standards where possible

Establishing the ICT requirements for Adaptation to Climate Change Adaptation to Climate Change Which wireless systems are we interested in? • Satellite • Monitoring weather/climate on national or international scale and early warning of extent of disasters • Interactive: providing ubiquitous coverage for news media • Land based interactive • Private Mobile Radio (PMR) to mobilise emergency services • Land based broadcast • News updates • Land based monitoring • Weather stations • Cellular: providing detailed information (internet/websites) • Person to person (text and voice calls) • Implementing community action plans • This is the topic identified in Question 22/5….

Establishing the ICT requirements for Adaptation to Climate Change Adaptation to Climate change Which ICT devices are we interested in? • Mainframes • Providing ever more sophisticated climate models • Computing power has doubled every 18 months • Data centres • Acting as host servers to allow information to be exchanged • Personal Computers • Accessing internet to gain information about climate change and forecasts • Collecting, managing and uploading local environmental data • Handheld devices (e.g. based on mobile phones) • Primary voice communications and text messages • Global positioning system is included in latest generation • Photographs and video streaming/upload possible • Allow a multiplicity of new software applications to be downloaded

Establishing the ICT requirements for Adaptation to Climate Change Adaptation to Climate Change Software platforms • Ideally a single platform for mobile broadband would be standardised so that all mobiles could receive and transmit equally via the internet • E.g. Android may be an example of this [1] • a Linux-based platform from the Open Handset Alliance • Application programming is primarily done in Java. • Performance critical code can be written in C, C++ or other native code languages [1] http://en.wikipedia.org/wiki/Mobile_application_development

The Global Disaster Alert and Coordination System (GDACS) • “A cooperation framework under the United Nations umbrella to • consolidate and strengthen the network of providers and users of disaster information worldwide • provide reliable and accurate alerts and impact estimations after sudden-onset disasters and to • improve the cooperation of international responders in the immediate aftermath.. • To date, GDACS has more than 9000 and has become an integral part of international disaster response to sudden-onset disasters. • “Provides near real-time alerts about natural disasters around the world and tools to facilitate response coordination, including media monitoring, map catalogues..” • Flood, earthquake, cyclone, tsunami, volcano • Receive instant email, SMS or fax alerts in case an earthquake or tsunami occurs with a potential for humanitarian disaster. • Has already standardised the communications protocols RSS and GLIDE

Next Franz Zichy will introduce the new Question 22/5

New Question 22/5“Setting up a low cost sustainable telecommunication infrastructure for rural communications in developing countries” • Acting Rapporteur • Franz Zichy (US Department of State)

Motivation • Current mobile network systems do not meet the requirements for rural/remote deployment in developing countries • Current mobile network systems designed for urban area deployment • Infrastructure • Power • Shelter • Accessibility • Manpower skills to operate • Logistics http://www.itu.int/ITU-T/studygroups/com05/sg5-q22.html

Challenges • Challenges to deploying Telecommunication infrastructure in rural/remote areas in developing nations are: • Access to electricity. • Expense of power backup. • Terrain. • Accessibility and transportation. • Lack of skilled manpower. • Installation and maintenance of networks. • Operating costs high. • Average revenue per user low. • Population sparse and scattered. http://www.itu.int/ITU-T/studygroups/com05/sg5-q22.html

Study Items Include: • Collect, assess, and combine the challenges faced by developing countries in setting up a low cost sustainable telecommunication infrastructure in rural areas. • Develop requirements for rural mobile network system specifically addressing such identified challenges of rural deployment, to include • Planning, Analysis, Design, implement, maintenance (SDLC) • Study the generic system requirements (independent of chosen Radio transmission technology) for rural mobile networks systems • An outlook towards deployment architecture, power consumption, power source, packaging, operation & maintenance etc. http://www.itu.int/ITU-T/studygroups/com05/sg5-q22.html

Tasks • Develop guidance: • To set up sustainable telecommunication infrastructure in rural/remote areas of developing countries. • With the objective to finding energy efficient means to power mobile network systems for deployment of telecommunication infrastructure in areas without access to electricity. • To improve resilience of mobile networks during a disaster (e.g. hurricane, tropical storm, etc). • Guidance in the form of a Handbook would contain best practices and recommendations.

Understand Needs • Establishing the requirements for Rural Communications • Understand the needs of rural areas in developing countries • Taking into consideration: • National, regional and global standards and policies • Available financial and manpower resources • Prevailing material and labor costs • The purchasing power of the targeted consumer • The capability of potential users, the 'information culture' of the society, and topography and weather of these countries • Action plans needed with partnerships at community level to support roll-out and educational aspects

Technical Requirements • Understanding technical requirements • Base stations may be remotely located • May require wind, solar, or other alternative green energy source. • Equipment built to sustain extreme weather (weatherproofing) • Ease of service by non-technical personnel • Ubiquitous coverage • Add-ons such as climate monitoring • Wide range of mobile, portable and fixed devices supported • Resilient and robust network design • Low cost

Options for Resilience • Alternative routing to base stations • E.g. point to point radio (2 links) and/or fibre • Alternative power sources at base station • Grid, diesel, wind, solar, battery, wood gas • Alternative access • Fixed (copper and/or fibre) and wireless • IP routing at nodes • Seeks alternative paths automatically

Next Coordination Activities and Summary of what contributions are needed • SG5 (and this JCA) Chairman • Ahmed Zeddam (France Telecom-Orange)

Q22 Coordination Requirements“Setting up a low cost sustainable telecommunication infrastructure for rural communications in developing countries” • ITU-T SGs 3, 5, 6, 15, 19 and 23/5 • ITU-D SG 2 and ITU-R SGs • Standardization bodies, forums and consortia: • ISO, IEC, ETSI , GSMA, • Others • Need to consider best practice from other entities

Need for coordination in Q22: Work underway in ITU-D • ITU-T SG 5 encouraged to take advantage of resources produced in ITU-D • Case study libraries • http://www.itu.int/ITU-D/study_groups/SGP_2006-2010/events/Case_Library/index.asp • ITU-D Questions • Question 10-3/2, Telecommunications/ICT for rural and remote areas • Question 22-1/2, Utilization of telecommunications/ICTs for disaster preparedness, mitigation and response • Question 25/2, Access technology for broadband telecommunications including IMT, for developing countries

Q23 Coordination Requirements“Using ICTs to enable Countries to Adapt to Climate Change” • ITU-T SGs 9, 13, 15 and 16 • ITU-D and ITU-R SGs • Standardization bodies, forums and consortia: • ISO, ETSI ,UNFCCC, UNEP, FAO, UN-REDD Programme (avoiding forest degradation), UN-Water and UN-Habitat on sustainable water supplies, • Cooperation with UNFCCC • is particularly important for the assessment of the environmental impacts including ICT projects and the assessment of the environmental impacts of ICT in countries or groups of countries • Any Others? • Need to consider best practice from elsewhere

Need for coordination in Q23 (Adaptation): Work underway in ITU-D • ITU-T SG 5 encouraged to take advantage of resources produced in ITU-D • ITU-D Questions- as for Q22 plus • Question 7-3/1, Implementation of universal access to broadband services • Question 19-2/1, Implementation of IP telecommunication services in developing countries • Question 9-3/2, Identification of study topics in the ITU T and ITU-R study groups which are of particular interest to developing countries • Question 24/2, Question on ICT and climate change • International standards may be required in some of these topic areas • These could be produced in Q23/5

Summary of issues to consider in Contributions to Q22Rural Communications • Examples of potential new standards (handbooks) • Power supply (affordability and reliability) • Providing power and power backup • Avoiding environmental hazards • How to cope with • Difficult terrain • Access and transportation challenges • Wireless signal transmissions • Lack of skilled manpower to install and maintain networks • Sparsely populated and scattered population clusters • Measures designed to • Reduce cost • Improve availability and reliability • Enable weather monitoring at low additional cost

Ahmed Zeddam (Chair) Dave Faulkner (Climate Associates Ltd, UK)