Authors: C. Pacheco, A. Cipriano

Abstract:

A new concept of response system is proposed for filling the gap that exists in reducing vulnerability during immediate response to natural disasters. Real Time Early Response Systems (RTERSs) incorporate real time information as feedback data for closing control loop and for generating real time situation assessment. A review of the state of the art on works that fit the concept of RTERS is presented, and it is found that they are mainly focused on manmade disasters. At the same time, in response phase of natural disaster management many works are involved in creating early warning systems, but just few efforts have been put on deciding what to do once an alarm is activated. In this context a RTERS arises as a useful tool for supporting people in their decision making process during natural disasters after an event is detected, and also as an innovative context for applying well-known automation technologies and automatic control concepts and tools.

Keywords: Disaster management, emergency response system, natural disasters, real time.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1099956

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 3529

References:

[1] D. McLoughlin, "A framework for integrated emergency management," Public Administration Review, vol. 45, pp. 165 - 172, 1985.
[2] International Strategy for Disaster Reduction ISDR, UNISDR Terminology on disaster risk reduction, United Nations, 2009.
[3] D. D. Given, E. S. Cochran, T. Heaton, E. Hauksson, R. Allen, P. Hellweg, J. Vidale and P. Bodin, "Technical implementation plan for the Shake Alert production system - An earthquake early warning system for the west coast of the United States," USGS Open File Report 2014- 1097, 2014.
[4] T. Steinmetz, U. Raape , S. Teβmann, C. Strobl, M. Friedemann , T. Kukofka, T. Riedlinger, E. Mikusch and S. Dech, "Tsunami early warning and decision support," Natural Hazards and Earth System Sciences, vol. 10, no. 9, pp. 1839 - 1850, 2010.
[5] G. Strunz, J. Post, K. Zosseder, S. Wegscheider, M. Mück, T. Riedlinger, H. Mehl, S. Dech, J. Birkmann, N. Gebert, H. Harjono, H. Z. Anwar, Sumaryono, R. M. Khomarudin and A. Muhari, "Tsunami risk assessment in Indonesia," Natural Hazards and Earth System Sciences, vol. 11, no. 1, pp. 67 - 82, 2011.
[6] S. Basak and B. D. Mazumdar, "On agent mediated coordination strategies and its application in disaster management system," in Recent Advances in Information Technology (RAIT), 2012 1st International Conference on, 2012.
[7] E. Domnori, G. Cabri and L. Leonardi, "Multi-agent approach for disaster management," in P2P, Parallel, Grid, Cloud and Internet Computing (3PGCIC), 2011 International Conference on, 2011.
[8] A. Izida, T. da Rocha, M. das Graças, M. Steinberger-Elias, W. T. Botelho and R. dos Santos, "Emergency care in situations of natural disaster: a multi-agent approach," in Internet Technology And Secured Transactions, 2012 International Conference for, 2012.
[9] P. Earle, D. Wald, K. Jaiswal, T. Allen, M. Hearne, K. Marano, A. Hotovec and J. Fee, "Prompt Assessment of Global Earthquakes for Response (PAGER): a system for rapidly determining the impact of earthquakes worldwide," USGS Open File Report 1131, 2009.
[10] M. Erdik, Y. Fahjan, O. Ozel, H. Alcik, A. Mert and M. Gul, "Istanbul earthquake rapid response and the early warning system," Bulletin of Earthquake Engineering, vol. 1, no. 1, pp. 157 - 163, 2003.
[11] R. J. Dawson, R. Peppe and M. Wang, "An agent-based model for riskbased flood incident management," Natural Hazards, vol. 59, no. 1, pp. 167 - 189, 2011.
[12] S. Pak and T. Hayakawa, "Formation control of multi-agent systems for urban earthquake disasters: model predictive control approach," in SICE Annual Conference, 2008.
[13] U. Manzoor, M. Zubair and K. Batool, "Using multi-agent systems to solve food distribution problem in disaster area," in Internet Technology and Secured Transactions (ICITST), 2013 8th International Conference for, 2013.
[14] J. C. V. de León, J. Bogardi, S. Dannenmann and R. Basher, "Early warning systems in the context of disaster risk management," Entwicklung & Ländlicher Raum, vol. 2, pp. 23 - 25, 2006.
[15] P. Wang, P. B. Luh, S. C. Chang and J. Sun, "Modeling and optimization of crowd guidance for building emergency evacuation," in Automation Science and Engineering. CASE 2008. IEEE International Conference on, 2008.
[16] A. Filippoupolitis and E. Gelenbe, "A decision support system for disaster management in buildings," in Proceedings of the 2009 Summer Computer Simulation Conference, 2009.
[17] B. Pizzileo, P. Lino, G. Maione and B. Maione, "A new escape routing strategy for controlling evacuation from buildings," in American Control Conference (ACC), 2010.
[18] H. Bi, "Routing diverse evacuees with the cognitive packet network algorithm," Future Internet, vol. 6, no. 2, pp. 203 - 222, 2014.
[19] K. Ogata, "Introduction to control systems," in Modern Control Engineering 5th Edition, Prentice Hall, 2010, pp. 1-12.
[20] B. T. Stewart, A. N. Venkat, J. B. Rawlings, S. J. Wright and G. Pannocchia, "Cooperative distributed model predictive control," Systems & Control Letters, vol. 59, no. 8, pp. 460 - 469, 2010.
[21] A. Filippoupolitis, G. Loukas, S. Timotheou, N. Dimakis and E. Gelenbe, "Emergency response systems for disaster management in buildings," in Proceedings of the NATO Symposium on C3I for Crisis, Emergency and Consequence Management, Bucharest, Romania, 2009.
[22] D. Pinto and A. Cipriano, "Tsunami Early Warning System Architecture based on automation technologies," in Information and Communication Technologies for Disaster Management ICT-DM, 2014 1st International Conference on, 2014.
[23] N. Adams, M. Field, E. Gelenbe, D. Hand, N. Jennings, D. Leslie , D. Nicholson, S. Ramchurn and A. Rogers, "The ALADDIN project: intelligent agents for disaster management," 2008
[24] B. Faulkner, "Towards a framework for tourism disaster management," Tourism Management, vol. 22, no. 2, pp. 135 - 147, 2001.
[25] A. Specht, "Natural disaster management," in Tourism in turbulent times, Routledge, 2006, pp. 123 - 142.
[26] Y. Fujinawa, Y. Rokugo, Y. Noda, Y. Mizui, M. Kobayashi and E. Mizutani, "Efforts of earthquake disaster mitigation using earthquake early warning in Japan," in The 14th World Conference on Earthquake Engineering, Beijing, China, 2008.
[27] F. Honma and F. Ichikawa, "Earthquake early warning disaster mitigation system for protecting semiconductor plant in Japan," in The 14th World Conference on Earthquake Engineering, Beijing, China, 2008.
[28] X. Pan, C. Han, K. Dauber and L. Kincho, "Human and social behavior in computational modeling and analysis of egress," Automation in Construction, vol. 15, no. 4, pp. 448 - 461, 2006.
[29] H. Kopetz, Real-time systems: design principles for distributed embedded applications, Springer, 2011.
[30] F. Rammig, M. Ditze, P. Janacik, T. Heimfarth, T. Kerstan, S. Oberthuer and K. Stahl, "Basic concepts of real time operating systems," in Hardware-Depend Software, Springer, 2009, pp. 15-45.
[31] J. E. Vargas, Políticas públicas para la reducción de la vulnerabilidad frente a los desastres naturales y socio-naturales, Santiago de Chile, Naciones Unidas, CEPAL, División de Medio Ambiente y Asentamientos Humanos, 2002.
[32] D. Alexander, Natural disasters, Springer, 1993.
[33] J. R. Eiser, A. Bostrom, I. Burton, D. M. Johnston, J. McClure, D. Paton, J. van der Pligt and M. P. White, "Risk interpretation and action: a conceptual framework for responses to natural hazards," International Journal of Disaster Risk Reduction, vol. 1, pp. 5 - 16, 2012.
[34] K. Tani, Y. Maeda and N. Ito, "A study of the evacuation behavior simulation to investigate the effect of concessions and obstacles," in Computational Intelligence Applications (IWCIA), IEEE Sixth International Workshop on, 2013.
[35] D. Helbing, I. Farkas and T. Vicsek, "Simulating dynamical features of escape panic," Nature, vol. 407, no. 6803, pp. 487 - 490, 2000.
[36] S. Elkosantini and D. Gien, "Human behavior and social network simulation: fuzzy sets/logic and agent-based approach," in Proceedings of the 2007 Spring Simulation Multiconference, 2007.