The Nested Event Tree Model with Application to Combating Terrorism
Published Online:19 May 2010https://doi.org/10.1287/ijoc.1100.0377
References
- Government preparedness: Using simulation to prepare for a terrorist attack. Comp. Oper. Res. (2008) 35(6):1924–1943Crossref, Google Scholar
- Event tree analysis of lock closure risks. J. Water Resources Planning Management (1997) 123(3):169–178Crossref, Google Scholar
- Optimal resource allocation for defense of targets based on differing measures of attractiveness. Risk Anal. (2008) 28(3):763–770Crossref, Google Scholar
- Department of Homeland SecurityNational Infrastructure Protection Plan: Partnering to Enhance Protection and Resiliency (2009) (Washington, DC)Google Scholar
- Including technical and security risks in the management of information systems: A programmatic risk management model. Systems Engrg. (2005) 8(1):15–28Crossref, Google Scholar
- Nature plays with dice—Terrorists do not: Allocating resources to counter strategic versus probabilistic risks. Eur. J. Oper. Res. (2009) 192(1):198–208Crossref, Google Scholar
- Homeland Security Council National Strategy for Homeland Security. (2007) . White House Office, Washington, DC. http://www.dhs.gov/xlibrary/assets/nat_strat_homelandsecurity_2007.pdfGoogle Scholar
- Mixed integer models for the stationary case of gas network optimization. Math. Programming Ser. B (2006) 105(2–3):563–582Crossref, Google Scholar
- The Department of Homeland Security's risk assessment methodology: Evolution, issues, and options for Congress. (2007) . CRS Report for Congress, Congressional Research Service, Washington, DCGoogle Scholar
- Risk-based decision-making for managing resources during the design of complex space exploration systems. J. Mech. Design (2006) 128(4):1014–1022Crossref, Google Scholar
- National Counterterrorism Center About the National Counterterrorism Center. (2008) . Retrieved August 6, 2008: http://www.nctc.gov/about_us/about_nctc.htmlGoogle Scholar
- National Security Council National Strategy for Combating Terrorism. (2006) . White House Office, Washington, DC. http://georgewbush-whitehouse.archives.gov/nsc/nsct/2006/nsct2006.pdfGoogle Scholar
- A branch-and-reduce approach to global optimization. J. Global Optim. (1996) 8(2):107–138Crossref, Google Scholar
- A bilevel mixed-integer program for critical infrastructure protection planning. Comp. Oper. Res. (2008) 35(6):1905–1923Crossref, Google Scholar
- On mixed-integer zero-one representations for separable lower-semicontinuous piecewise-linear functions. Oper. Res. Lett. (2001) 28(4):155–160Crossref, Google Scholar
- Comparison of two reformulation-linearization technique based linear programming relaxations for polynomial programming problems. J. Global Optim. (1997) 10(4):381–390Crossref, Google Scholar
- Global optimization of nonconvex factorable programming problems. Math. Programming Ser. A (2001) 89(3):459–478Crossref, Google Scholar
- Selecting optimal alternatives and risk reduction strategies in decision trees. (2010) . Working paper, Grado Department of Industrial and Systems Engineering, Virginia Polytechnic Institute and State University, BlacksburgGoogle Scholar
- Optimal allocation of risk-reduction resources in event trees. Management Sci. (2008) 54(7):1313–1321Link, Google Scholar
- On the production of homeland security under true uncertainty. (2006) . Working Paper 2006–5, Department of Resource Economics, University of Massachusetts at Amherst, Amherst. http://en.scientificcommons.org/38829130Crossref, Google Scholar
- Mixed-integer models for nonseparable piecewise-linear optimization: Unifying framework and extensions. Oper. Res. (2010) 58(2):303–315Link, Google Scholar
- Estimating Terrorism Risk (2005) (RAND Center for Terrorism Risk Management Policy, Washington, DC) Crossref, Google Scholar
- Balancing terrorism and natural disasters. Please check.—Defense strategy with endogenous attacker effort. Oper. Res. (2007) 55(5):976–991Link, Google Scholar
