Advanced search
Publication Cover
IISE Transactions Volume 51, 2019 - Issue 6
Submit an article Journal homepage
572
Views
8
CrossRef citations to date
0
Altmetric
Original Articles

Integrated design of emergency shelter and medical networks considering diurnal population shifts in urban areas

Qing-Mi HuAntai College of Economics and Management, Shanghai Jiao Tong University, Shanghai, P.R. China; View further author information
,
Laijun ZhaoAntai College of Economics and Management, Shanghai Jiao Tong University, Shanghai, P.R. China; ;Sino-US Global Logistics Institute, Shanghai Jiao Tong University, Shanghai, P.R. China; Correspondence[email protected]
View further author information
,
Huiyong LiSino-US Global Logistics Institute, Shanghai Jiao Tong University, Shanghai, P.R. China; View further author information
&
Rongbing HuangSchool of Administrative Studies, York University, Toronto, CanadaView further author information
Pages 614-637 | Received 10 Aug 2017, Accepted 20 Aug 2018, Published online: 02 Jan 2019

References

  • Ablanedo-Rosas, J.H., Gao, H., Alidaee, B. and Teng, W.-Y. W. (2009) Allocation of emergency and recovery centres in Hidalgo, Mexico. International Journal of Services Sciences, 2(2), 206–218.
  • Ahmadi-Javid, A., Seyedi, P. and Syam, S.S. (2017) A survey of healthcare facility location. Computers & Operations Research, 79, 223–263.
  • Alçada-Almeida, L., Tralhão, L., Santos, L. and Coutinho-Rodrigues, J. (2009) A multiobjective approach to locate emergency shelters and identify evacuation routes in urban areas. Geographical Analysis, 41(1), 9–29.
  • Andreas, A.K. and Smith, J.C. (2009) Decomposition algorithms for the design of a nonsimultaneous capacitated evacuation tree network. Networks, 53(2), 91–103.
  • Apte, A., Heidtke, C. and Salmerón, J. (2014) Casualty collection points optimization: A study for the District of Columbia. Interfaces, 45(2), 149–165.
  • Aringhieri, R., Bruni, M.E., Khodaparasti, S. and Essen, J.T.V. (2017) Emergency medical services and beyond: Addressing new challenges through a wide literature review. Computers & Operations Research, 78, 349–368.
  • Barneveld, T.C.V., Bhulai, S. and Mei, R.D.V.D. (2016) The effect of ambulance relocations on the performance of ambulance service providers. European Journal of Operational Research, 252(1), 257–269.
  • Bayram, V. and Yaman, H. (2018) A stochastic programming approach for shelter location and evacuation planning. RAIRO - Operations Research, 52(3), 779–805.
  • Bayram, V. and Yaman, H. (2018) Shelter location and evacuation route assignment under uncertainty: A Benders decomposition approach. Transportation Science, 52(2), 416–436.
  • Benders, J.F. (1962) Partitioning procedures for solving mixed-variables programming problems. Numerische Mathematik, 4(1), 238–252.
  • Beraldi, P. and Bruni, M.E. (2009) A probabilistic model applied to emergency service vehicle location. European Journal of Operational Research, 196(1), 323–331.
  • Beraldi, P., Bruni, M.E. and Conforti, D. (2004) Designing robust emergency medical service via stochastic programming. European Journal of Operational Research, 158(1), 183–193.
  • Bozorgi-Amiri, A., Tavakoli, S., Mirzaeipour, H. and Rabbani, M. (2017) Integrated locating of helicopter stations and helipads for wounded transfer under demand location uncertainty. The American Journal of Emergency Medicine, 35(3), 410–417.
  • Branas, C.C., Mackenzie, E.J. and Revelle, C.S. (2000) A trauma resource allocation model for ambulances and hospitals. Health Services Research, 35(2), 489–507.
  • Branas, C.C. and Revelle, C.S. (2001) An iterative switching heuristic to locate hospitals and helicopters. Socio-Economic Planning Sciences, 35(1), 11–30.
  • Carson, Y.M. and Batta, R. (1990) Locating an ambulance on the Amherst campus of the State University of New York at Buffalo. Interfaces, 20(5), 43–49.
  • Chanta, S., Mayorga, M.E., Kurz, M.E. and Mclay, L.A. (2011) The minimum p-envy location problem: A new model for equitable distribution of emergency resources. IIE Transactions on Healthcare Systems Engineering, 1(2), 101–115.
  • Chanta, S., Mayorga, M.E. and Mclay, L.A. (2014) Improving emergency service in rural areas: A bi-objective covering location model for EMS systems. Annals of Operations Research, 221(1), 133–159.
  • Chen, A.Y. and Yu, T.-Y. (2016) Network based temporary facility location for the Emergency Medical Services considering the disaster induced demand and the transportation infrastructure in disaster response. Transportation Research Part B: Methodological, 91, 408–423.
  • Chen, Z., Chen, X., Li, Q. and Chen, J. (2013) The temporal hierarchy of shelters: A hierarchical location model for earthquake-shelter planning. International Journal of Geographical Information Science, 27(8), 1612–1630.
  • Cho, S.-H., Jang, H., Lee, T. and Turner, J. (2014) Simultaneous location of trauma centers and helicopters for emergency medical service planning. Operations Research, 62(4), 751–771.
  • Contreras, I., Cordeau, J.-F. and Laporte, G. (2011) Benders decomposition for large-scale uncapacitated hub location. Operations Research, 59(6), 1477–1490.
  • Coskun, N. and Erol, R. (2010) An optimization model for locating and sizing emergency medical service stations. Journal of Medical Systems, 34(1), 43–49.
  • Coutinho-Rodrigues, J., Sousa, N. and Natividade-Jesus, E. (2015) Design of evacuation plans for densely urbanised city centres. Proceedings of the Institution of Civil Engineers - Municipal Engineer. 169(3), 160–172.
  • Coutinho-Rodrigues, J., Tralhão, L. and Alçada-Almeida, L. (2012) Solving a location-routing problem with a multiobjective approach: The design of urban evacuation plans. Journal of Transport Geography, 22, 206–218.
  • Dalal, J., Mohapatra, P.K.J. and Mitra, G.C. (2007) Locating cyclone shelters: A case. Disaster Prevention and Management: An International Journal, 16(2), 235–244.
  • Dalal, J. and Üster, H. (2018) Combining worst case and average case considerations in an integrated emergency response network design problem. Transportation Science, 52(1), 171–188.
  • Daskin, M.S. (1983) A maximum expected covering location model: Formulation, properties and heuristic solution. Transportation Science, 17(1), 48–70.
  • Dekle, J., Lavieri, M.S., Martin, E., Emir-Farinas, H. and Francis, R.L. (2005) A Florida county locates disaster recovery centers. Interfaces, 35(2), 133–139.
  • Dogan, K. and Goetschalckx, M. (1999) A primal decomposition method for the integrated design of multi-period production-distribution systems. IIE Transactions, 31(11), 1027–1036.
  • Drezner, T. (2004) Location of casualty collection points. Environment and Planning C: Politics and Space, 22(6), 899–912.
  • Drezner, T., Drezner, Z. and Salhi, S. (2006) A multi-objective heuristic approach for the casualty collection points location problem. Journal of the Operational Research Society, 57(6), 727–734.
  • Drezner, Z., Marianov, V. and Wesolowsky, G.O. (2016) Maximizing the minimum cover probability by emergency facilities. Annals of Operations Research, 246(1), 349–362.
  • Ehrgott, M. and Gandibleux, X. (2000) A survey and annotated bibliography of multiobjective combinatorial optimization. OR-Spektrum, 22(4), 425–460.
  • Esmaelian, M., Tavana, M., Arteaga, F.J.S. and Mohammadi, S. (2015) A multicriteria spatial decision support system for solving emergency service station location problems. International Journal of Geographical Information Science, 29(7), 1187–1213.
  • Fischetti, M. and Lodi, A. (2003) Local branching. Mathematical Programming, 98(1), 23–47.
  • Furuta, T. and Tanaka, K.-I. (2013) Minisum and minimax location models for helicopter emergency medical service systems. Journal of the Operations Research Society of Japan, 56(3), 221–242.
  • Geoffrion, A.M. and Graves, G.W. (1974) Multicommodity distribution system design by Benders decomposition. Management Science, 20(5), 822–844.
  • Grass, E. and Fischer, K. (2016) Two-stage stochastic programming in disaster management: A literature survey. Surveys in Operations Research and Management Science, 21(2), 85–100.
  • Hamming, R.W. (1950) Error detecting and error correcting codes. Bell Labs Technical Journal, 29(2), 147–160.
  • He, S., Zhang, L., Song, R., Wen, Y. and Wu, D. (2009) Optimal transit routing problem for emergency evacuations. Presented at the Transportation Research Board 88th Annual Meeting, Washington DC, United States.
  • Hoyos, M.C., Morales, R.S. and Akhavan-Tabatabaei, R. (2015) OR models with stochastic components in disaster operations management: A literature survey. Computers & Industrial Engineering, 82, 183–197.
  • Hu, F., Xu, W. and Li, X. (2012) A modified particle swarm optimization algorithm for optimal allocation of earthquake emergency shelters. International Journal of Geographical Information Science, 26(9), 1643–1666.
  • Hu, Z.-H. and Sheu, J.-B. (2013) Post-disaster debris reverse logistics management under psychological cost minimization. Transportation Research Part B: Methodological, 55, 118–141.
  • Jia, H., Ordóñez, F. and Dessouky, M. (2007) A modeling framework for facility location of medical services for large-scale emergencies. IIE Transactions, 39(1), 41–55.
  • Khodaparasti, S., Maleki, H.R., Bruni, M.E., Jahedi, S., Beraldi, P. and Conforti, D. (2016) Balancing efficiency and equity in location-allocation models with an application to strategic EMS design. Optimization Letters, 10(5), 1053–1070.
  • Kılcı, F., Kara, B.Y. and Bozkaya, B. (2015) Locating temporary shelter areas after an earthquake: A case for Turkey. European Journal of Operational Research, 243(1), 323–332.
  • Kim, I.Y. and Weck, O.L.D. (2005) Adaptive weighted-sum method for bi-objective optimization: Pareto front generation. Structural and Multidisciplinary Optimization, 29(2), 149–158.
  • Kim, I.Y. and Weck, O.L.D. (2006) Adaptive weighted sum method for multiobjective optimization: A new method for Pareto front generation. Structural and Multidisciplinary Optimization, 31(2), 105–116.
  • Ko, Y.D., Song, B.D. and Hwang, H. (2016) Location, capacity and capability design of emergency medical centers with multiple emergency diseases. Computers & Industrial Engineering, 101, 10–20.
  • Ko, Y.D., Song, B.D., Morrison, J.R. and Hwang, H. (2013) Location design for emergency medical centers based on category of treatable medical diseases and center capability. International Journal of Industrial Engineering, 21(3), 117–128.
  • Kobayashi, T., Medina, R.M. and Cova, T.J. (2011) Visualizing diurnal population change in urban areas for emergency management. The Professional Geographer, 63(1), 113–130.
  • Kongsomsaksakul, S., Yang, C. and Chen, A. (2005) Shelter location-allocation model for flood evacuation planning. Journal of the Eastern Asia Society for Transportation Studies, 6, 4237–4252.
  • Kouvelis, P. and Yu, G. (1997) Robust discrete optimization and its applications, in Nonconvex Optimization and its Applications, Springer-Verlag, Boston, MA.
  • Kulshrestha, A., Wu, D., Lou, Y. and Yin, Y. (2011) Robust shelter locations for evacuation planning with demand uncertainty. Journal of Transportation Safety & Security, 3(4), 272–288.
  • Lambert, J.H., Parlak, A.I., Zhou, Q., Miller, J.S., Fontaine, M.D., Guterbock, T.M., Clements, J.L. and Thekdi, S.A. (2013) Understanding and managing disaster evacuation on a transportation network. Accident Analysis & Prevention, 50, 645–658.
  • Leknes, H., Aartun, E.S., Andersson, H., Christiansen, M. and Granberg, T.A. (2017) Strategic ambulance location for heterogeneous regions. European Journal of Operational Research, 260(1), 122–133.
  • Li, A.C.Y., Nozick, L., Xu, N. and Davidson, R. (2012) Shelter location and transportation planning under hurricane conditions. Transportation Research Part E: Logistics and Transportation Review, 48(4), 715–729.
  • Li, A.C.Y., Xu, N., Nozick, L. and Davidson, R. (2011) Bilevel optimization for integrated shelter location analysis and transportation planning for hurricane events. Journal of Infrastructure Systems, 17(4), 184–192.
  • Li, G.C., Huang, G.H., Wu, C.Z., Li, Y.P., Chen, Y.M. and Tan, Q. (2008) TISEM: A two-stage interval-stochastic evacuation management model. Journal of Environmental Informatics, 12(1), 64–74.
  • Li, H., Zhao, L., Huang, R. and Hu, Q. (2017) Hierarchical earthquake shelter planning in urban areas: A case for Shanghai in China. International Journal of Disaster Risk Reduction, 22, 431–446.
  • Li, L., Jin, M. and Zhang, L. (2011) Sheltering network planning and management with a case in the Gulf Coast region. International Journal of Production Economics, 131(2), 431–440.
  • Liu, Q., Ruan, X. and Shi, P. (2011) Selection of emergency shelter sites for seismic disasters in mountainous regions: Lessons from the 2008 Wenchuan Ms 8.0 Earthquake, China. Journal of Asian Earth Sciences, 40(4), 926–934.
  • Lv, Y., Huang, G.H., Guo, L., Li, Y.P., Dai, C., Wang, X.W. and Sun, W. (2013) A scenario-based modeling approach for emergency evacuation management and risk analysis under multiple uncertainties. Journal of Hazardous Materials, 246, 234–244.
  • Magnanti, T.L. and Wong, R.T. (1981) Accelerating Benders decomposition: Algorithmic enhancement and model selection criteria. Operations Research, 29(3), 464–484.
  • Maleki, M., Majlesinasab, N. and Sepehri, M.M. (2014) Two new models for redeployment of ambulances. Computers & Industrial Engineering, 78, 271–284.
  • Marler, R.T. and Arora, J.S. (2004) Survey of multi-objective optimization methods for engineering. Structural and Multidisciplinary Optimization, 26(6), 369–395.
  • Mete, H.O. and Zabinsky, Z.B. (2010) Stochastic optimization of medical supply location and distribution in disaster management. International Journal of Production Economics, 126(1), 76–84.
  • Mileti, D.S., Sorensen, J.H. and O'brien, P.W. (1992) Toward an explanation of mass care shelter use in evacuations. International Journal of Mass Emergencies and Disasters, 10(1), 25–42.
  • Mohamadi, A. and Yaghoubi, S. (2017) A bi-objective stochastic model for emergency medical services network design with backup services for disasters under disruptions: An earthquake case study. International Journal of Disaster Risk Reduction, 23, 204–217.
  • Murali, P., Ordóñez, F. and Dessouky, M.M. (2012) Facility location under demand uncertainty: Response to a large-scale bio-terror attack. Socio-Economic Planning Sciences, 46(1), 78–87.
  • Murray-Tuite, P. and Wolshon, B. (2013) Evacuation transportation modeling: An overview of research, development, and practice. Transportation Research Part C: Emerging Technologies, 27, 25–45.
  • Na, H.S. and Banerjee, A. (2015) A disaster evacuation network model for transporting multiple priority evacuees. IIE Transactions, 47(11), 1287–1299.
  • Nappi, M.M.L. and Souza, J.C. (2015) Disaster management: Hierarchical structuring criteria for selection and location of temporary shelters. Natural Hazards, 75(3), 2421–2436.
  • Ng, M., Park, J. and Waller, S.T. (2010) A hybrid bilevel model for the optimal shelter assignment in emergency evacuations. Computer-Aided Civil and Infrastructure Engineering, 25(8), 547–556.
  • Ng, M. and Waller, S.T. (2010) Reliable evacuation planning via demand inflation and supply deflation. Transportation Research Part E: Logistics and Transportation Review, 46(6), 1086–1094.
  • Nickel, S., Reuter-Oppermann, M. and Saldanha-Da-Gama, F. (2016) Ambulance location under stochastic demand: A sampling approach. Operations Research for Health Care, 8, 24–32.
  • Noyan, N. (2010) Alternate risk measures for emergency medical service system design. Annals of Operations Research, 181(1), 559–589.
  • Noyan, N., Balcik, B. and Atakan, S. (2016) A stochastic optimization model for designing last mile relief networks. Transportation Science, 50(3), 10921113.
  • Oliveira, F., Grossmann, I.E. and Hamacher, S. (2014) Accelerating Benders stochastic decomposition for the optimization under uncertainty of the petroleum product supply chain. Computers & Operations Research, 49, 47–58.
  • Pan, A. (2010) The applications of maximal covering model in typhoon emergency shelter location problem, in Proceedings of the IEEE International Conference on Industrial Engineering and Engineering Management,. IEEE Press, Piscataway, NJ, pp. 1727–1731.
  • Papadakos, N. (2008) Practical enhancements to the Magnanti–Wong method. Operations Research Letters, 36(4), 444–449.
  • Paul, J.A. and Batta, R. (2008) Models for hospital location and capacity allocation for an area prone to natural disasters. International Journal of Operational Research, 3(5), 473–496.
  • Pishvaee, M.S., Razmi, J. and Torabi, S.A. (2014) An accelerated Benders decomposition algorithm for sustainable supply chain network design under uncertainty: A case study of medical needle and syringe supply chain. Transportation Research Part E: Logistics and Transportation Review, 67, 14–38.
  • Rei, W., Cordeau, J.-F., Gendreau, M. and Soriano, P. (2009) Accelerating Benders decomposition by local branching. INFORMS Journal on Computing, 21(2), 333–345.
  • Saharidis, G.K.D., Minoux, M. and Ierapetritou, M.G. (2010) Accelerating Benders method using covering cut bundle generation. International Transactions in Operational Research, 17(2), 221–237.
  • Salmerón, J. and Apte, A. (2010) Stochastic optimization for natural disaster asset prepositioning. Production and Operations Management, 19(5), 561–574.
  • Schmid, V. and Doerner, K.F. (2010) Ambulance location and relocation problems with time-dependent travel times. European Journal of Operational Research, 207(3), 1293–1303.
  • Sherali, H.D. and Carter, T.B. (1991) A location-allocation model and algorithm for evacuation planning under hurricane/flood conditions. Transportation Research Part B: Methodological, 25(6), 439–452.
  • Sherali, H.D. and Lunday, B.J. (2013) On generating maximal nondominated Benders cuts. Annals of Operations Research, 210(1), 57–72.
  • Sheu, J.-B. and Pan, C. (2014) A method for designing centralized emergency supply network to respond to large-scale natural disasters. Transportation Research Part B: Methodological, 67, 284–305.
  • Shishebori, D. and Babadi, A.Y. (2015) Robust and reliable medical services network design under uncertain environment and system disruptions. Transportation Research Part E: Logistics and Transportation Review, 77, 268–288.
  • Sorensen, J.H. (2000) Hazard warning systems: Review of 20 years of progress. Natural Hazards Review, 1(2), 119–125.
  • Toro-Díaz, H., Mayorga, M.E., Chanta, S. and Mclay, L.A. (2013) Joint location and dispatching decisions for emergency medical services. Computers & Industrial Engineering, 64(4), 917–928.
  • Ünlüyurt, T. and Tunçer, Y. (2016) Estimating the performance of emergency medical service location models via discrete event simulation. Computers & Industrial Engineering, 102, 467–475.
  • Üster, H. and Dalal, J. (2017) Strategic emergency preparedness network design integrating supply and demand sides in a multi-objective approach. IISE Transactions, 49(4), 395–413.
  • Üster, H., Wang, X. and Yates, J.T. (2018) Strategic evacuation network design (SEND) under cost and time considerations. Transportation Research Part B: Methodological, 107, 124–145.
  • van den Berg, P.L. and Aardal, K. (2015) Time-dependent MEXCLP with start-up and relocation cost. European Journal of Operational Research, 242(2), 383–389.
  • Vatsa, A.K. and Jayaswal, S. (2016) A new formulation and Benders decomposition for the multi-period maximal covering facility location problem with server uncertainty. European Journal of Operational Research, 251(2), 404–418.
  • Verma, A. and Gaukler, G.M. (2015) Pre-positioning disaster response facilities at safe locations: An evaluation of deterministic and stochastic modeling approaches. Computers & Operations Research, 62, 197–209.
  • Wang, W., Yang, S., Hu, F., He, S., Shi, X., Meng, Y. and Shi, M. (2016) Integrated optimization model for shelter allocation and evacuation routing with consideration of reliability. Transportation Research Record: Journal of the Transportation Research Board, 2599, 33–42.
  • Xu, J., Yin, X., Chen, D., An, J. and Nie, G. (2016) Multi-criteria location model of earthquake evacuation shelters to aid in urban planning. International Journal of Disaster Risk Reduction, 20, 51–62.
  • Yao, T., Mandala, S.R. and Chung, B.D. (2009) Evacuation transportation planning under uncertainty: A robust optimization approach. Networks and Spatial Economics, 9(2), 171–189.
  • Yazici, M. and Ozbay, K. (2007) Impact of probabilistic road capacity constraints on the spatial distribution of hurricane evacuation shelter capacities. Transportation Research Record: Journal of the Transportation Research Board, 2022, 55–62.
  • Yi, W. and Özdamar, L. (2007) A dynamic logistics coordination model for evacuation and support in disaster response activities. European Journal of Operational Research, 179(3), 1177–1193.
  • Yin, Z.Q., Li, S.Z., Zhao, Z. and Yang, S.W. (1991) A method for prediction and classification of earthquake disasters. Earthquake Research in China, 7(1), 9–19.
  • Zarrinpoor, N., Fallahnezhad, M.S. and Pishvaee, M.S. (2018) The design of a reliable and robust hierarchical health service network using an accelerated Benders decomposition algorithm. European Journal of Operational Research, 265(3), 1013–1032.
  • Zhang, J.L. and Ponnambalam, K. (2006) Hydro energy management optimization in a deregulated electricity market. Optimization and Engineering, 7(1), 47–61.
  • Zhang, Z.-H. and Jiang, H. (2014) A robust counterpart approach to the bi-objective emergency medical service design problem. Applied Mathematical Modelling, 38(3), 1033–1040.
  • Zhang, Z.-H. and Li, K. (2015) A novel probabilistic formulation for locating and sizing emergency medical service stations. Annals of Operations Research, 229(1), 813–835.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.