Abstract: Innovative technologies such as monitoring the quality of surface water aquifers with satellite images, applying UAV (Unmanned Aerial Vehicle) and drone technology for a variety of operations, water quality measurements with improved techniques along with IoT (Internet of Things) and ICT (Information and Communication Technologies), can provide sufficient data for enhancing water safety in urban water utilities. Specifically, these data could be an effective tool for improving risk assessment process and management of water supply systems. Nevertheless, till now, there is a relative lack of published works that validate the efficiency of combing these technologies on water safety processes by incorporating most of them with a systematic way and during real working conditions in water utilities. This work aims to present the preliminary design concept of a platform that embraces innovating water safety technologies planned to be applied to Thessaloniki's Water Supply and Sewerage Co. S.A Standard Operating Procedures (SOP).

Abstract: When a disaster occurs, the delivery of alerts to the population is a key element to prevent the loss of life and property and to increase the efficiency of precautionary measures. Advanced information and communication technologies enable new channels to reach people (e.g. mobile phones, Internet connected devices, smart TVs). Satellite systems represent an unique and efficient solution for delivering one-to-many messages, but in order to reach the maximum number of people in the target area with a reliable information service, a specific technical solution is needed. This paper gives an overview of an on-going ETSI standardization activity devoted to the definition of a Multiple Alert Message Encapsulation protocol over Satellite (MAMES) for the delivery of alerts to the population in the case of a disaster. Moreover, an experimental activity (the SatAlert experiment) for testing and validating the MAMES applicability to Low Earth Orbit (LEO) satellites is presented.

Abstract: The role of communication and information provision in coping with natural and man-made disasters and emergency situations is becoming increasingly important. In this paper we present an integrated mobile information and communication system, MIKoBOS, for emergency response operations that enables reliable data communication within the emergency site as well as between the site and the headquarters. It provides the responsible personnel involved in the emergency operation at different levels with anytime-anywhere access to relevant information. Compared to traditional voice-dominated approaches, the proposed system can greatly improve the effectiveness and efficiency of communication and coordination during disaster relief operations. Promising experimental performance results are provided for use with a number of terrestrial and satellite networks.