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Keri K. Stephens, Jessica L. Ford, Ashley Barrett, & Michael J. Mahometa. (2014). Alert networks of ICTs and sources in campus emergencies. In and P.C. Shih. L. Plotnick M. S. P. S.R. Hiltz (Ed.), ISCRAM 2014 Conference Proceedings – 11th International Conference on Information Systems for Crisis Response and Management (pp. 652–661). University Park, PA: The Pennsylvania State University.
Abstract: This study contributes an understanding of how ICTs and varying information sources work together during emergency alerts. It builds on the prior work on campus active shooter events by examining an organization that used a range of ICTs including mobile devices, social media, organizational tools, and news media, to notify their stakeholders about an emergency. The study design used a survey to capture the responses from a random sample of over 1000 stakeholders-students, faculty, and staff-who were notified of an active shooter emergency. The findings from the first three notifications suggest that messages reaching the most stakeholders were (a) sent by official sources through ICTs like mobile phones; (b) official email communication, and (c) messages that included face-to-face communication. While 11 different ICTs were included in the study, mass media (i.e., television and radio), and social media (Twitter and Facebook) did not function substantially in the emergency alert process.
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Massimiliano Tarquini, & Maurizio Morgano. (2013). Ethical challenges of participatory sensing for crisis information management. In J. Geldermann and T. Müller S. Fortier F. F. T. Comes (Ed.), ISCRAM 2013 Conference Proceedings – 10th International Conference on Information Systems for Crisis Response and Management (pp. 421–425). KIT; Baden-Baden: Karlsruher Institut fur Technologie.
Abstract: “Participatory Sensing is an approach to data collection and interpretation in which individuals, acting alone or in groups, use their personal mobile devices and web services to systematically explore interesting aspects of their worlds ranging from health to culture.”[ http://www.mobilizingcs.org/about/participatory-sensing] Data from the physical world of sensors and the virtual world of social networks and Linked Data can be combined into interesting high-level information. Sensor data can assist in localized information retrieval by giving the search engine direct access to events happening locally in the real world. Participatory sensing enables individuals and communities to collect and share granular, accurate data about a particular area. This paper describes work in progress within the FP7 EU-funded project SMART project to develop a multimedia search engine over content and information streaming from both the physical world and the Internet. We will identify some ethical problems regarding the use and storage of such data.
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Elina Valtonen, Ronja Addams-Moring, Teemupekka Virtanen, Antti Järvinen, & Mikael Moring. (2004). Emergency announcements to mobile user devices in geographically defined areas. In B. C. B. Van de Walle (Ed.), Proceedings of ISCRAM 2004 – 1st International Workshop on Information Systems for Crisis Response and Management (pp. 151–156). Brussels: Royal Flemish Academy of Belgium.
Abstract: When emergency announcements (EA) to a population in a crisis area are needed, avoiding single points of failure in the EA sending and forwarding systems is essential. We present a new concept, an extension to existing EA sending systems, which is based on real-time location information about mobile devices. Such a solution would increase the EA sending systems' robustness through redundancy and technology diversity. At the same time, these mobile emergency announcement (MEA) sending systems would increase the percentage of the threatened population that can be reached fast. The proposition is based on a set of requirements for EA sending systems, the most important of which turned out to be ensuring the authenticity and integrity of the EA information content. We found our preliminary results too optimistic: current GSM networks should not be used for sending EAs, as it is quite possible to forge SMS text messages, even to multiple GSM phones in a specific target area. The next generations of mobile phone networks (3G/UMTS and 4G) seem more promising, due to their packet-oriented architectures, as each data packet can be stamped with verifiable information about the source of the data. However, the development of communications networks with features compatible with MEA sending will demand that both authorities and independent experts take an active, early role in networks design right beside the commercial organisations. © Proceedings ISCRAM 2004.
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