Recovery of urban socio-technical systems after disaster: quasi-optimality of reactive decision-making based planning

Elsevier BV - Tập 5 - Trang 65-77 - 2017
Vasily Lubashevskiy1, Takeru Suzuki2, Taro Kanno2, Kazuo Furuta3
1Fukushima Regional Environmental Renovation Section, The National Institute for Environmental Studies, Miharu, Fukushima, Japan.
2Department of Systems Innovation, School of Engineering, The University of Tokyo, Tokyo, Japan
3Resilience Engineering Research Center, The University of Tokyo, Tokyo, Japan.

Tài liệu tham khảo

Furuta, 2008, Optimal restoration scheduling of damaged networks under uncertain environment by using improved genetic algorithm, Tsinghua Sci Technol, 13, 400, 10.1016/S1007-0214(08)70181-0 Kanno T, Fujii T, Watari R, Furuta K (2011) Modeling and simulation of a service system in a disaster to assess its resilience. In: Hollnagel E, Rigaud É, Besnard D (eds) Proceedings of the fourth resilience engineering symposium, June 8–10, 2011, Sophia Antipolis, France, Presses des Mines, pp 128–134 Kanno T, Takahashi Y, Furuta K (2013) Modeling and simulation of urban socio-technical systems for human-centered resilience assessment. In: Proceedings of 32nd JSST annual conference, JSST 2013 international conference on simulation technology, Tokyo, Sep. 11–13, 2013, pp 1–2 Krackhardt, 1998, A PCANS model of structure in organization, 113 Lubashevskiy V, Kanno T, Furuta K (2013a) Resource redistribution as a mechanism of resilience: Effects of lack of information. In: Steenbergen R, van Gelder P, Miraglia S, Vrouwenvelder A (eds) Safety, Reliability and Risk Analysis: beyond the Horizon, CRC Press/Taylor & Francis Group, London, pp 2815–2820 Lubashevskiy V, Kanno T, Furuta K (2013b) Resource redistribution under lack of information: short-term recovery after large scale disasters. http://arxiv.org/abs/13126339arXiv:13126339 (Presented at ESREL 2013, Amsterdam, 29 Sep.- 2 Oct.) Lubashevskiy V, Kanno T, Furuta K (2014) Resource redistribution method for short-term recovery of society after large-scale disasters. Adv Complex Syst 17(5):1450,026 Lubashevskiy, 2015, Recovery of urban socio-technical systems after disaster: The reactive method of planning and implementation, 211 Lubashevskiy V, Kanno T, Furuta K (2017) Recovery of urban socio-technical systems after disaster: reactive decision-making based planning under uncertainties of damage evaluation. In: Walls L, Revie M, Bedford T (eds) Risk, reliability, safety: innovating theory and practice: proceedings of ESREL 2016 (Glasgow, Scotland, 25-29 September 2016). CRC Press/Taylor & Francis Group, London, pp 595–600