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Gaoussou Camara, Rim Djedidi, Sylvie Despres, & Moussa Lo. (2012). Towards an ontology for an epidemiological monitoring system. In Z.Franco J. R. L. Rothkrantz (Ed.), ISCRAM 2012 Conference Proceedings – 9th International Conference on Information Systems for Crisis Response and Management. Vancouver, BC: Simon Fraser University.
Abstract: Epidemiological monitoring systems are used to control the evolution of disease spreading and to suggest action plans to prevent identified risks. In this domain, risk prediction is based on quantitative approaches that are hardly usable when data collection is not possible. In this paper, a qualitative approach based on an epidemiological monitoring ontology is proposed. We describe the design of this ontology and show how it fits into classical monitoring systems and helps overcoming limits related to quantitative approaches. © 2012 ISCRAM.
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Harrasi, A. A., Grispos, G., & Gandhi, R. (2023). Using Cybersecurity Testbeds to Evaluate (In)Secure Structural Health Monitoring Systems. In Jaziar Radianti, Ioannis Dokas, Nicolas Lalone, & Deepak Khazanchi (Eds.), Proceedings of the 20th International ISCRAM Conference (pp. 902–908). Omaha, USA: University of Nebraska at Omaha.
Abstract: An increasing amount of technology is being integrated into bridges and other structures, such as dams and buildings, to proactively look for signs of deterioration or damage. These technologies are collectively known as structural health monitoring systems. While the benefits of integrating this technology are attractive, this integration is also creating an environment that is conducive to security vulnerabilities. While previous research has focused on the broader cybersecurity challenges associated with structural health monitoring systems, limited guidance is available for identifying specific security vulnerabilities in these systems and their implications for responding to security incidents. Hence, this paper presents CYBRBridge, a cybersecurity testbed that provides a sacrificial environment to assist in identifying and exploring vulnerabilities associated with structural health monitoring systems. This paper reports ongoing research efforts to develop the CYBRBridge testbed and initial results identifying vulnerabilities within the wireless components of a commercial structural health monitoring system
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Julian Zobel, Ralf Kundel, & Ralf Steinmetz. (2022). CAMON: Aerial-Ground Cooperation System for Disaster Network Detection. In Rob Grace, & Hossein Baharmand (Eds.), ISCRAM 2022 Conference Proceedings – 19th International Conference on Information Systems for Crisis Response and Management (pp. 87–101). Tarbes, France.
Abstract: Information on large-scale disaster areas, like the location of affected civilians, is highly valuable for disaster relief efforts. This information can be collected by an Aerial Monitoring System, using UAVs to detect smart mobile devices carried by civilians. State-of-the-art systems typically rely on a purely passive detection approach. In this paper, we present a cooperative communication system between UAVs and ground-based devices to improve the detection performance of such an Aerial Monitoring System. We provide different approaches for the cooperative information collection and evaluate them in a simulated inner-city scenario. The results highlight the effectiveness of the cooperative system, being able to detect civilian devices in the disaster area faster and more comprehensively than a non-cooperative approach.
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Laura Laguna Salvadó, Matthieu Lauras, & Tina Comes. (2016). Towards a Monitoring System for American IFRC Logistics Network. In A. Tapia, P. Antunes, V.A. Bañuls, K. Moore, & J. Porto (Eds.), ISCRAM 2016 Conference Proceedings ? 13th International Conference on Information Systems for Crisis Response and Management. Rio de Janeiro, Brasil: Federal University of Rio de Janeiro.
Abstract: The International Federation of the Red Cross and Red Crescent (IFRC), is one of the many humanitarian organizations that are further developing their logistics network more decentralized structures with sub-regional networks. One of the main challenges identified is the need of monitoring tools to have a real-time overview of the whole logistics network state, and optimization of the associated operations through real-time decision support systems. Logistics departments of humanitarian organizations have not adopted the technological developments that are standard in the commercial sector due to critical differences, and the IFRC is not an exception. This paper presents a case study conducted with the American and Caribbean IFRC. We present user requirements and specifications for the design of a real-time monitoring system dedicated the sub-regional network. It particularly addresses the challenges to simplify remote data collection, visualization and analysis.
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