562 ITU‐T's Technical Reports and Specifications Box 4. Disaster Early Warning Network (DEWN) The Disaster Early Warning Network (DEWN) was launched in Sri Lanka on 30th January 2009. It aims to provide timely, reliable and cost‐effective mass‐scale disaster early warnings. DEWN represents a multipartite effort and a case of public‐private partnerships in delivering ICT‐based early warnings. DEWN's alerts are multi‐modal; It makes use of multiple technologies to disseminate information to the last mile. The end devices are normal cellular phones and alarm devices which were specially developed for this initiative. DEWN can generate mass, personnel‐ directed or location‐based alerts to the end devices using the two commonly‐available mobile communication technologies: cell broadcast (CB) and short message service (SMS). The DEWN server is located in Sri Lanka's Disaster Management Centre (DMC), the responsible agency on the island for all disaster management issues. The DMC receives early warning information from recognized technical agencies. Accordingly, information regarding floods, landslides, earthquakes and tsunamis is provided by the Irrigation Department, National Building Research Organization, Geological Survey and Mines Bureau, and Meteorological Department, respectively. The DMC holds the responsibility for verifying the emergency situation and then issuing alerts. Emergency personnel are alerted first in the case of a potential disaster and public alerts are issued after the threat is further verified (DMC 2009). Source: Wickramasinghe, K (2011) \" Role of ICTs in early warning of climate‐related disasters: A Sri Lankan case study\" http://www.niccd.org/sites/default/files/NICCD_ Disasters_ Case_ Study_ EarlyWarning.pdf During the disaster prevention phase, the use of ICTs such as Geographic Information Systems (GIS) in local hazard mapping and analysis can help to identify and illustrate evacuation routes as well as to locate housing, business and structures that are at risk of threats including rises in water levels (NICCD, 2011). When a disaster occurs or an emergency situation takes place, technical standards facilitate the use of public telecommunication services and systems for communications during emergency and disaster relief operations. This capability, referred to as the \"emergency telecommunication service\", enables authorized users to organize and coordinate disaster relief operations as well as have preferential treatment for their communications via public telecommunication networks. This preferential treatment is essential as public telecommunication networks often sustain infrastructure damage which, coupled with high traffic demands, tends to result in severe congestion or overload to the system. In such circumstances, technical features need to be in place to ensure that users who must communicate during emergencies have the communication channels that they need, along with appropriate security and the best possible quality of service. To ensure reliable universal access to communication in extreme weather events, the Common Alerting Protocol (CAP) developed by ITU provides a general format for exchanging all‐hazard emergency alerts and public warnings over a range of networks. CAP allows a consistent warning message to be disseminated simultaneously over many different warning systems, thus increasing the warning's effectiveness and simplifying the warning task. ITU also approved Recommendation ITU‐T E.164 which assigns the country code 888 to the United Nations Office for the Coordination of Humanitarian Affairs (OCHA). This number is used by terminals involved in disaster relief activities in areas that have been cut off or disconnected from the national telecommunications system.