Robust Emergency Relief Supply Planning for Foreseen Disasters Under Evacuation-Side Uncertainty
Published Online:25 Feb 2021https://doi.org/10.1287/trsc.2020.1020
References
- (2006) OR/ MS research in disaster operations management. Eur. J. Oper. Res. 175(1):475–493.Crossref, Google Scholar
- (2009) Combinatorial Benders cuts for the minimum tollbooth problem. Oper. Res. 57(6):1510–1522.Link, Google Scholar
- (2008) Facility location in humanitarian relief. Internat. J. Logist. Res. Appl. 11(2):101–121.Crossref, Google Scholar
- (2020) A robust optimization approach for humanitarian needs assessment planning under travel time uncertainty. Eur. J. Oper. Res. 282(1):40–57.Crossref, Google Scholar
- (2011) Facility location: A robust optimization approach. Production Oper. Management 20(5):772–785.Crossref, Google Scholar
- (2009) Robust Optimization (Princeton University Press, Princeton, NJ).Crossref, Google Scholar
- (1999) Robust solutions of uncertain linear programs. Oper. Res. Lett. 25(1):1–13.Crossref, Google Scholar
- (2011) Theory and applications of robust optimization. SIAM Rev. 53(3):464–501.Crossref, Google Scholar
- (2003) Robust discrete optimization and network flows. Math. Programming 98(1-3):49–71.Crossref, Google Scholar
- (2004) The price of robustness. Oper. Res. 52(1):35–53.Link, Google Scholar
- (2009) Planning for a disaster: a review of the literature with a focus on transportation related issues. Technical report (FiRST report), Geotrans Laboratory, University of California.Google Scholar
- (2017) Hurricane Maria highlights lack of long-term planning in disaster relief. The Hill (September 20). Accessed November 21, 2020, http://thehill.com/opinion/energy-environment/351631-michael-brown-hurricane-maria-highlights-lack-of-long-term?amp.Google Scholar
- (2014) Humanitarian logistics. , Peng J , eds. INFORMS TutORials in Operations Research (INFORMS, Catonsville, MD), 18–49.Google Scholar
- (2018) Combining worst case and average case considerations in an integrated emergency response network design problem. Transportation Sci. 52(1):171–188.Link, Google Scholar
- Department of Homeland Security (2009) FEMA’s sourcing for disaster response goods and services. Report, U.S. Department of Homeland Security, Office of Inspector General, Washington, DC. https://www.oig.dhs.gov/assets/Mgmt/OIG_09-96_Aug09.pdf.Google Scholar
- Department of Homeland Security (2014) FEMA’s logistics supply chain management system may not be effective during a catastrophic disaster. Report, U.S. Department of Homeland Security, U.S. Office of Inspector General, Washington, DC. https://www.oig.dhs.gov/sites/default/files/assets/Mgmt/2014/OIG_14-151_Sep14.pdf.Google Scholar
- (2012) A two-echelon stochastic facility location model for humanitarian relief logistics. Optim. Lett. 6(6):1123–1145.Crossref, Google Scholar
- EM-DAT, CRED/UCLouvain, Brussels, Belgium. Accessed XXX, https://www.emdat.be .Google Scholar
- (2020) A robust disaster preparedness model for effective and fair disaster response. Eur. J. Oper. Res. 280(2):479–494.Crossref, Google Scholar
- Federal Emergency Management Agency (2008) FEMA/USACE Guide to Points of Distribution (Federal Emergency Management Agency, Washington, DC), http://harriscountyares.org/training/FMA/FMA-105.pdf.Google Scholar
- Federal Emergency Management Agency (2019) Distribution Management Plan Guides (Federal Emergency Management Agency, Washington, DC), https://www.fema.gov/media-library-data/1567005162420-6a397b542cf5a7678781414cfa4e3661/FEMA_Distribution_Management_Plan_Guide_EMPG_FY2019.pdf.Google Scholar
- (2014) Recent advances in robust optimization: An overview. Eur. J. Oper. Res. 235(3):471–483.Crossref, Google Scholar
- (1974) Multicommodity distribution system design by Benders’ decomposition. Management. Sci. 20(5):822–844.Link, Google Scholar
- (1996) A robustness approach to uncapacitated network design problems. Eur. J. Oper. Res. 94(2):362–376.Crossref, Google Scholar
- (2016) Trends in weather related disasters—Consequences for insurers and society. Weather Climate Extremes 11:70–79.Crossref, Google Scholar
- (2015) Stochastic network design for disaster preparedness. IIE Trans. 47(4):329–357.Crossref, Google Scholar
- (1997) Robust Discrete Optimization and Its Applications (Springer, Boston).Crossref, Google Scholar
- (2006) Lessons from Katrina and Rita: What major disasters can teach transportation planners. J. Transportation Engrg. 132(1):11–18.Crossref, Google Scholar
- (1977) A modified Benders’ partitioning algorithm for mixed integer programming. Management Sci. 24(3):312–319.Link, Google Scholar
- National Weather Service. Hurricane safety tips and resources. Accessed November 21, 2020, https://www.weather.gov/safety/hurricane.Google Scholar
- (2012) Risk-averse two-stage stochastic programming with an application to disaster management. Comput. Oper. Res. 39(3):541–559.Crossref, Google Scholar
- (2010) Pre-positioning of emergency supplies for disaster response. Transportation Res. Part B: Methodological 44(4):521–534.Crossref, Google Scholar
- (2011) Pre-positioning planning for emergency response with service quality constraints. OR Spectrum 33(3):481–498.Crossref, Google Scholar
- (2010) Stochastic optimization for natural disaster asset prepositioning. Production Oper. Management 19(5):561–574.Crossref, Google Scholar
- Texas House of Representatives (2006) Evacuation planning in Texas: Before and after Hurricane Rita. Interim News (February 14), http://www.hro.house.state.tx.us/interim/int79-2.pdf.Google Scholar
- (2017) Strategic emergency preparedness network design integrating supply and demand sides in a multi-objective approach. IISE Trans. 49(4):395–413.Crossref, Google Scholar
- (2007) Benders decomposition with alternative multiple cuts for a multi-product closed-loop supply chain network design model. Naval Res. Logist. 54(8):890–907.Crossref, Google Scholar
