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International Journal of Production Research Volume 61, 2023 - Issue 2
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Research Articles

Risk-averse two-stage distributionally robust optimisation for logistics planning in disaster relief management

Duo Wanga State Key Laboratory of Rail Traffic Control and Safety, Beijing Jiaotong University, Beijing, People's Republic of ChinaView further author information
,
Kai Yangb School of Traffic and Transportation, Beijing Jiaotong University, Beijing, People's Republic of ChinaCorrespondence[email protected]
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&
Lixing Yanga State Key Laboratory of Rail Traffic Control and Safety, Beijing Jiaotong University, Beijing, People's Republic of ChinaCorrespondence[email protected]
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Pages 668-691 | Received 02 Mar 2021, Accepted 06 Nov 2021, Published online: 24 Dec 2021

References

  • Alem, D., A. Clark, and A. Moreno. 2016. “Stochastic Network Models for Logistics Planning in Disaster Relief.” European Journal of Operational Research 255 (1): 187–206.
  • Altay, N., and W. G. Green. 2006. “Or/Ms Research in Disaster Operations Management.” European Journal of Operational Research 175 (1): 475–493.
  • Anaya-Arenas, A. M., J. Renaud, and A. Ruiz. 2014. “Relief Distribution Networks: A Systematic Review.” Annals of Operations Research 223 (1): 53–79.
  • Bai, X. J., J. W. Gao, and Y. K. Liu. 2018. “Prepositioning Emergency Supplies Under Uncertainty: A Parametric Optimization Method.” Engineering Optimization 50 (7): 1114–1133.
  • Barbarosolu, G., and Y. Arda. 2004. “A Two-stage Stochastic Programming Framework for Transportation Planning in Disaster Response.” The Journal of the Operational Research Society 55 (1): 43–53.
  • Ben-Tal, A., L. El Ghaoui, and A. Nemirovski 2009. Robust Optimization. Princeton Series in Applied Mathematics. U.K., Princeton, Princeton University Press.
  • Bertsimas, D., and M. Sim. 2004. “The Price of Robustness.” Operations Research 52 (1): 35–53.
  • Bozorgi-Amiri, A., M. S. Jabalameli, and S. M. J. Mirzapour Al-e-Hashem. 2013. “A Multi-objective Robust Stochastic Programming Model for Disaster Relief Logistics Under Uncertainty.” OR Spectrum 35 (4): 905–933.
  • Elçi, Ö., and N. Noyan. 2018. “A Chance-constrained Two-stage Stochastic Programming Model for Humanitarian Relief Network Design.” Transportation Research Part B-methodological 108 (7): 55–83.
  • Esfahani, P. M., and D. Kuhn. 2018. “Data-driven Distributionally Robust Optimization Using the Wasserstein Metric: Performance Guarantees and Tractable Reformulations.” Mathematical Programming 171 (1–2): 115–166.
  • Galindo, G., and R. Batta. 2014. “Review of Recent Developments in Or/Ms Research in Disaster Operations Management.” European Journal of Operational Research 230 (2): 201–211.
  • Garrido, R., P. Lamas, and F. Pino. 2015. “A Stochastic Programming Approach for Floods Emergency Logistics.” Transportation Research Part E: Logistics and Transportation Review 75: 18–31.
  • Ghorbani, M., and R. Ramezanian. 2020. “Integration of Carrier Selection and Supplier Selection Problem in Humanitarian Logistics.” Computers and Industrial Engineering 144 (1): 106473.
  • Goh, J., and M. Sim. 2010. “Distributionally Robust Optimization and Its Tractable Approximations.” Operations Research 58 (4): 902–917.
  • Grass, E., and K. Fischer. 2016. “Two-stage Stochastic Programming in Disaster Management: A Literature Survey.” Surveys in Operations Research and Management Science 21 (2): 85–100.
  • Grass, E., K. Fischer, and A. Rams. 2018. “An Accelerated L-shaped Method for Solving Two-stage Stochastic Programs in Disaster Management.” Annals of Operations Research 284 (2): 557–582.
  • Hoyos, M. C., R. S. Morales, and R. Akhavan-Tabatabaei. 2015. “OR Models with Stochastic Components in Disaster Operations Management: A Literature Survey.” Computers and Industrial Engineering 82 (1): 183–197.
  • Hu, S. L., C. F. Han, and L. P. Meng. 2016. “Stochastic Optimization for Investment in Facilities in Emergency Prevention.” Transportation Research Part E: Logistics and Transportation Review 89 (1): 14–31.
  • Huang, R. P., S. J. Qu, Z. W. Gong, M. Goh, and Y. Ji. 2020. “Data-driven Two-stage Distributionally Robust Optimization with Risk Aversion.” Applied Soft Computing 87 (1): 105978.
  • Jia, R. R., Y. K. Liu, and X. J. Bai. 2020. “Sustainable Supplier Selection and Order Allocation: Distributionally Robust Goal Programming Model and Tractable Approximation.” Computers and Industrial Engineering 140 (2): 106267.
  • Krasko, V., and S. Rebennack. 2017. “Two-stage Stochastic Mixed-integer Nonlinear Programming Model for Post-wildfire Debris Flow Hazard Management: Mitigation and Emergency Evacuation.” European Journal of Operational Research 263 (1): 265–282.
  • Liu, K. L., Q. F. Li, and Z. H. Zhang. 2019. “Distributionally Robust Optimization of An Emergency Medical Service Station Location and Sizing Problem with Joint Chance Constraints.” Transportation Research Part B: Methodological 119 (3): 79–101.
  • Ma, L., Y. K. Liu, and Y. Liu. 2020. “Distributionally Robust Design for Bicycle-sharing Closed-loop Supply Chain Network Under Risk-averse Criterion.” Journal of Cleaner Production 246 (6): 118967.
  • Manopiniwes, W., and T. Irohara. 2017. “Stochastic Optimisation Model for Integrated Decisions on Relief Supply Chains: Preparedness for Disaster Response.” International Journal of Production Research 55 (4): 979–996.
  • Mete, H. O., and Z. B. Zabinsky. 2010. “Stochastic Optimization of Medical Supply Location and Distribution in Disaster Management.” International Journal of Production Economics 126 (1): 76–84.
  • Ni, W., J. Shu, and M. Song. 2018. “Location and Emergency Inventory Pre-positioning for Disaster Response Operations: Min-max Robust Model and A Case Study of Yushu Earthquake.” Production and Operations Management 27 (1): 160–183.
  • Noyan, N. 2012. “Risk-averse Two-stage Stochastic Programming with An Application to Disaster Management.” Computers and Operations Research 39 (3): 541–559.
  • Paul, J. A., and X. F. Wang. 2019. “Robust Location-allocation Network Design for Earthquake Preparedness.” Transportation Research Part B-methodological 119 (8): 139–155.
  • Paul, J. A., and M. J. Zhang. 2019. “Supply Location and Transportation Planning for Hurricanes: A Two-stage Stochastic Programming Framework.” European Journal of Operational Research 274 (1): 108–125.
  • Rahimian, H., and S. Mehrotra. 2019. “Distributionally Robust Optimization: A Review.” https://arxiv.org/abs/1908.05659.
  • Rath, S., M. Gendreau, and W. J. Gutjahr. 2016. “Bi-objective Stochastic Programming Models for Determining Depot Locations in Disaster Relief Operations.” International Transactions in Operational Research 23 (6): 997–1023.
  • Rawls, C. G., and M. A. Turnquist. 2010. “Pre-positioning of Emergency Supplies for Disaster Response.” Transportation Research Part B-methodological 44 (4): 521–534.
  • Rawls, C. G., and M. A. Turnquist. 2011. “Pre-positioning Planning for Emergency Response with Service Quality Constraints.” OR Spectrum 33 (3): 481–498.
  • Rockafellar, R. T., and S. Uryasev. 2000. “Optimization of Conditional Value At Risk.” Journal of Risk 3 (3): 21–41.
  • Sarhadi, H., J. Naoum-Sawaya, and M. Verma. 2020. “A Robust Optimization Approach to Locating and Stockpiling Marine Oil-spill Response Facilities.” Transportation Research Part E: Logistics and Transportation Review 141 (1): 102005.
  • Song, J. M., W. Chen, and L. Lei. 2018. “Supply Chain Flexibility and Operations Optimisation Under Demand Uncertainty: A Case in Disaster Relief.” International Journal of Production Research 56 (10): 3699–3713.
  • Soyster, A. L. 1973. “Technical Noteconvex Programming with Set-inclusive Constraints and Applications to Inexact Linear Programming.” Operations Research 21 (5): 1154–1157.
  • Tofighi, S., S. A. Torabi, and S. A. Mansouri. 2016. “Humanitarian Logistics Network Design Under Mixed Uncertainty.” European Journal of Operational Research 250 (1): 239–250.
  • Venkatachalam, S., and A. Narayanan. 2019. “Two-stage Absolute Semi-deviation Mean-risk Stochastic Programming: An Application to the Supply Chain Replenishment Problem.” Computers and Operations Research 106 (1): 62–75.
  • Wang, L. 2020. “A Two-stage Stochastic Programming Framework for Evacuation Planning in Disaster Responses.” Computers and Industrial Engineering 145 (1): 106458.
  • Wang, C. J., and S. T. Chen. 2020. “A Distributionally Robust Optimization for Blood Supply Network Considering Disasters.” Transportation Research Part E: Logistics and Transportation Review 134 (5): 101840.
  • Wiesemann, W., D. Kuhn, and M. Sim. 2014. “Distributionally Robust Convex Optimization.” Operations Research 62 (6): 1358–1376.
  • Yahyaei, M., and A. Bozorgi-Amiri. 2019. “Robust Reliable Humanitarian Relief Network Design: An Integration of Shelter and Supply Facility Location.” Annals of Operations Research 283 (1): 897–916.
  • Yang, W., Q. Su, S. H. Huang, Q. G. Wang, Y. H. Zhu, and M. Zhou. 2019. “Simulation Modeling and Optimization for Ambulance Allocation Considering Spatiotemporal Stochastic Demand.” Journal of Management Science and Engineering 4 (4): 252–265.
  • Yin, F. H., Y. J. Chen, F. X. Song, and Y. K. Liu. 2019. “A New Distributionally Robust P-hub Median Problem with Uncertain Carbon Emissions and Its Tractable Approximation Method.” Applied Mathematical Modelling 74 (1): 668–693.
  • Zhang, Z., Y. Y. Liu, Q. F. Tong, S. M. Guo, and D. Q. Li. 2021. “Evacuation Based on Spatio-temporal Resilience with Variable Traffic Demand.” Journal of Management Science and Engineering 6 (1): 86–98.
  • Zhang, P. Y., Y. K. Liu, G. Q. Yang, and G. Q. Zhang. 2020a. “A Distributionally Robust Optimisation Model for Last Mile Relief Network Under Mixed Transport.” International Journal of Production Research 1: 1–25.
  • Zhang, P. Y., Y. K. Liu, G. Q. Yang, and G. Q. Zhang. 2020b. “A Distributionally Robust Optimization Model for Designing Humanitarian Relief Network with Resource Reallocation.” Soft Computing 24 (4): 2749–2767.
  • Zhong, S. P., R. Chen, Y. Jiang, Z. Wang, A. Larsen, and O. A. Nielsen. 2020. “Risk-averse Optimization of Disaster Relief Facility Location and Vehicle Routing Under Stochastic Demand.” Transportation Research Part E: Logistics and Transportation Review 141 (3): 102015.
  • Zhu, S. S., and M. Fukushima. 2009. “Worst-case Conditional Value-at-risk with Application to Robust Portfolio Management.” Operations Research 57 (5): 1155–1168.
  • Zokaee, S., A. Bozorgi-Amiri, and S. J. Sadjadi. 2016. “A Robust Optimization Model for Humanitarian Relief Chain Design Under Uncertainty.” Applied Mathematical Modelling 40 (17): 7996–8016.

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