Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/76879
Title: Multi-objective evolutionary optimisation of the protection of complex networks exposed to terrorist hazard
Authors: Rocco S., Claudio M.
Zio, Enrico
Salazar A., Daniel E.
UNESCO Clasification: 530602 Innovación tecnológica
Keywords: Reliability Problems
Risk Analysis
Algorithms
Systems
Issue Date: 2007
Conference: European Safety and Reliability Conference (ESREL 2007) 
Abstract: This paper extends previous works developed for evaluating the security characteristics of a network system exposed to a terrorist attack (e.g. the injection of poison in the water distribution system of a populated area), by defining a robust protective scheme based on a Multi-objective Optimisation (MO) approach. The physical system can be modelled as a network (graph) of nodes interconnected by links. Two criteria are used to measure the vulnerability of the network: the Time To Reach All network Destination nodes (TTRAD) and the Average Number of Persons Affected (ANPA) which measures the damage that the hazard causes. The optimal system protection is tackled using a Multi-Objective Evolutionary Algorithm (MOEA) which is part of a family of evolutionary algorithms tailored to cope with MO problems. The goodness of each alternative protection scheme is quantified by a combination of Cellular Automata and Monte Carlo simulation. Numerical examples illustrate the approach.
URI: http://hdl.handle.net/10553/76879
ISBN: 978-0-415-44786-7
Source: European Safety and Reliability Conference 2007, ESREL 2007 - Risk, Reliability and Societal Safety [ISBN 978-0-415-44786-7], v. 1-3, p. 899, 2007
Appears in Collections:Actas de congresos
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