Allocating security resources to a water supply network Academic Article

abstract

• This paper develops a method for allocating a security budget to a water supply network so as to maximize the network's resilience to physical attack. The method integrates max-min linear programming, hydraulic simulation, and genetic algorithms for constraint generation. The objective is to find a security allocation that maximizes an attacker's marginal cost of inflicting damage through the destruction of network components. We illustrate the method on two example networks, one large and one small, and investigate its allocation effectiveness and computational characteristics.

authors

• Lawley, Mark

published proceedings

• IIE Transactions

author list (cited authors)

• Qiao, J., Jeong, D., Lawley, M., Richard, J., Abraham, D. M., & Yih, Y.

citation count

• 57

complete list of authors

• Qiao, Jianhong||Jeong, David||Lawley, Mark||Richard, Jean-Philippe P||Abraham, Dulcy M||Yih, Yuehwern

publication date

• January 2007

publisher

• Taylor & Francis  Publisher

published in

• IIE Transactions  Journal

Digital Object Identifier (DOI)

• 10.1080/07408170600865400

start page

• 95

end page

• 109

volume

• 39

issue

• 1

URL

• http://dx.doi.org/10.1080/07408170600865400