A decision support model for robust allocation and routing of search and rescue resources after earthquake: a case study

The efficient planning of search and rescue (SAR) operations is highly impactful in the disaster response phase, which offers a limited time window with a declining chance for saving trapped people. The present paper introduces a new robust decision support framework for planning SAR resource deployment in post-disaster districts. A two-stage decomposition approach is applied to formulate the problem as iterative interrelated stages of mixed-integer programming (MIP) models. The first stage presents a robust multi-period allocation model for maximizing fair and effective demand coverage in the affected districts during the entire planning horizon. It takes into account the time-sensitiveness of the operations via a time-dependent demand satisfaction measure and incorporates resource transshipment optimization. The second stage optimizes the routing of the resources allocated in the first stage for each district during the upcoming period. It aims to minimize the weighted sum of SAR demand fulfillment times under consideration of secondary destruction risk, resource collaboration, and rest time requirements. At the end of each period, the proposed framework can be re-executed to capture updated resource, demand, and travel time parameters. To tackle the environment’s inherent uncertainty, an interval-based robust optimization approach is adopted. The proposed framework is solved and analyzed for an urban zone in Iran under an earthquake scenario. Results show that the proposed robust models have superior performance compared to a deterministic approach for adaptation to an uncertain disaster environment. More importantly, they prove to be a strong analysis tool for providing helpful managerial insights for the mitigation and preparedness phases.

[1]  Guy Desaulniers,et al.  A decomposition-based heuristic for large employee scheduling problems with inter-department transfers , 2019, EURO J. Comput. Optim..

[2]  Jianguo Jiang,et al.  Multiple emergency resource allocation for concurrent incidents in natural disasters , 2016 .

[3]  Andrea Matta,et al.  Pattern-based decompositions for human resource planning in home health care services , 2016, Comput. Oper. Res..

[4]  R. Tavakkoli-Moghaddam,et al.  Air and ground ambulance location-allocation-routing problem for designing a temporary emergency management system after a disaster , 2020, Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine.

[5]  Kyle H. Goldschmidt,et al.  Humanitarian operations and crisis/disaster management: A retrospective review of the literature and framework for development , 2016 .

[6]  Mohamad Saeed Jabalameli,et al.  A multi-objective robust stochastic programming model for disaster relief logistics under uncertainty , 2011, OR Spectrum.

[7]  Elise Miller-Hooks,et al.  Optimal team deployment in urban search and rescue , 2012 .

[8]  N. Ambraseys,et al.  The Seismicity of Kuhistan, Iran , 1977 .

[9]  David S. Johnson,et al.  Computers and Intractability: A Guide to the Theory of NP-Completeness , 1978 .

[10]  Caroline C. Krejci,et al.  Coordination in humanitarian relief chains: Practices, challenges and opportunities , 2010 .

[11]  Laurent El Ghaoui,et al.  Robust Solutions to Uncertain Semidefinite Programs , 1998, SIAM J. Optim..

[12]  Gilbert Laporte,et al.  Vehicle Routing and Location Routing with Intermediate Stops: A Review , 2017, Transp. Sci..

[13]  Christos D. Tarantilis,et al.  Resource constrained routing and scheduling: Review and research prospects , 2017, Eur. J. Oper. Res..

[14]  A. Alesheikh,et al.  Spatial Modelling of Urban Physical Vulnerability to Explosion Hazards Using GIS and Fuzzy MCDA , 2017 .

[15]  Jin Ye,et al.  A heuristic project scheduling approach for quick response to maritime disaster rescue , 2009 .

[16]  Asad Asadzadeh,et al.  An augmented approach for measurement of disaster resilience using connective factor analysis and analytic network process (F’ANP) model , 2015 .

[17]  Laurent El Ghaoui,et al.  Robust Solutions to Least-Squares Problems with Uncertain Data , 1997, SIAM J. Matrix Anal. Appl..

[18]  Hanane Allaoua,et al.  A matheuristic approach for solving a home health care problem , 2013, Electron. Notes Discret. Math..

[19]  Benita M. Beamon,et al.  Performance measurement in humanitarian relief chains , 2008 .

[20]  Robert J. Vanderbei,et al.  Robust Optimization of Large-Scale Systems , 1995, Oper. Res..

[21]  A Ben Tal,et al.  ROBUST SOLUTIONS TO UNCERTAIN PROGRAMS , 1999 .

[22]  Charles H. Fine,et al.  Assessing Trade‐offs among Multiple Objectives for Humanitarian Aid Delivery Using Expert Preferences , 2014 .

[23]  Simon French,et al.  The varied contexts of environmental decision problems and their implications for decision support , 2005 .

[24]  George Pallis,et al.  Factors that affect rescue time in urban search and rescue (USAR) operations , 2014, Natural Hazards.

[25]  Shangyao Yan,et al.  Logistical support scheduling under stochastic travel times given an emergency repair work schedule , 2014, Comput. Ind. Eng..

[26]  Rajan Batta,et al.  Review of recent developments in OR/MS research in disaster operations management , 2013, Eur. J. Oper. Res..

[27]  Jin Li,et al.  Multiple-resource and multiple-depot emergency response problem considering secondary disasters , 2012, Expert Syst. Appl..

[28]  Erik Rolland,et al.  Decision support for disaster management , 2010 .

[29]  Jian Yang,et al.  Personnel scheduling and supplies provisioning in emergency relief operations , 2015, Ann. Oper. Res..

[30]  Guido Schryen,et al.  An exact branch-and-price algorithm for scheduling rescue units during disaster response , 2019, Eur. J. Oper. Res..

[31]  M. Cioca,et al.  Decision Support Systems used in Disaster Management , 2010 .

[32]  Melvyn Sim,et al.  The Price of Robustness , 2004, Oper. Res..

[33]  Constantine Caramanis,et al.  Theory and Applications of Robust Optimization , 2010, SIAM Rev..

[34]  Guy Desaulniers,et al.  A two-stage solution approach for personalized multi-department multi-day shift scheduling , 2020, Eur. J. Oper. Res..

[35]  Ekambaram Palaneeswaran,et al.  Probabilistic allocation and scheduling of multiple resources for emergency operations; a Victorian bushfire case study , 2020, Comput. Environ. Urban Syst..

[36]  Allen L. Soyster,et al.  Technical Note - Convex Programming with Set-Inclusive Constraints and Applications to Inexact Linear Programming , 1973, Oper. Res..

[37]  Lori S. Franz,et al.  A binary-rounding heuristic for multi-period variable-task-duration assignment problems , 1996, Comput. Oper. Res..

[38]  C. Aubrecht,et al.  Integrating population dynamics into mapping human exposure to seismic hazard , 2012 .

[39]  Stefan Nickel,et al.  Mid-term and short-term planning support for home health care services , 2012, Eur. J. Oper. Res..

[40]  Raha Akhavan-Tabatabaei,et al.  OR models with stochastic components in disaster operations management: A literature survey , 2015, Comput. Ind. Eng..

[41]  Sönke Hartmann,et al.  A survey of variants and extensions of the resource-constrained project scheduling problem , 2010, Eur. J. Oper. Res..

[42]  Gündüz Ulusoy,et al.  Multi-project scheduling with two-stage decomposition , 2014, Ann. Oper. Res..

[43]  Mariagrazia Dotoli,et al.  An agent-based Decision Support System for resources' scheduling in Emergency Supply Chains , 2017 .

[44]  L El Ghaoui,et al.  ROBUST SOLUTIONS TO LEAST-SQUARE PROBLEMS TO UNCERTAIN DATA MATRICES , 1997 .

[45]  E. Quarantelli DISASTER CRISIS MANAGEMENT: A SUMMARY OF RESEARCH FINDINGS , 1988 .

[46]  Gilbert Laporte,et al.  Rich routing problems arising in supply chain management , 2013, Eur. J. Oper. Res..

[47]  S. Ara Impact of Temporal Population Distribution on Earthquake Loss Estimation: A Case Study on Sylhet, Bangladesh , 2014, International Journal of Disaster Risk Science.

[48]  X. Liu,et al.  A bi-objective robust model for emergency resource allocation under uncertainty , 2016 .

[49]  D. Alexander The health effects of earthquakes in the mid-1990s. , 1996, Disasters.

[50]  Jun Zhuang,et al.  A medical resource allocation model for serving emergency victims with deteriorating health conditions , 2016, Ann. Oper. Res..

[51]  Arkadi Nemirovski,et al.  Robust solutions of uncertain linear programs , 1999, Oper. Res. Lett..

[52]  Seyed Jafar Sadjadi,et al.  A robust optimization model for humanitarian relief chain design under uncertainty , 2016 .

[53]  Hossein Memarian,et al.  Modeling of the seismotectonic provinces of Iran using the self-organizing map algorithm , 2014, Comput. Geosci..

[54]  Arkadi Nemirovski,et al.  Robust solutions of Linear Programming problems contaminated with uncertain data , 2000, Math. Program..

[55]  Babak Abbasi,et al.  Possibilistic scheduling routing for short-notice bushfire emergency evacuation under uncertainties: An Australian case study , 2017 .

[56]  Nezih Altay,et al.  OR/MS research in disaster operations management , 2006, Eur. J. Oper. Res..

[57]  E. Noji,et al.  The Public Health Consequences of Disasters , 2000, Prehospital and Disaster Medicine.

[58]  J. K. Lenstra,et al.  Complexity of vehicle routing and scheduling problems , 1981, Networks.

[59]  S. Mohammad H. Mojtahedi,et al.  Stakeholders’ approaches to disaster risk reduction in built environment , 2014 .

[60]  Stefan Feuerriegel,et al.  Emergency response in natural disaster management: Allocation and scheduling of rescue units , 2014, Eur. J. Oper. Res..

[61]  Robert A. Olson,et al.  Urban Heavy Rescue , 1987 .

[62]  Yu-Jun Zheng,et al.  Disaster Rescue Task Scheduling: An Evolutionary Multiobjective Optimization Approach , 2018, IEEE Transactions on Emerging Topics in Computing.

[63]  Tina Comes,et al.  Resource Planning in Disaster Response , 2015, Bus. Inf. Syst. Eng..

[64]  Gilbert Laporte,et al.  What you should know about the vehicle routing problem , 2007 .

[65]  Yuan Chen,et al.  Decision making on post-disaster rescue routing problems from the rescue efficiency perspective , 2020, Eur. J. Oper. Res..

[66]  Robert T. Clemen,et al.  Making Hard Decisions: An Introduction to Decision Analysis , 1997 .

[67]  Xiang Chu,et al.  Post-earthquake allocation approach of medical rescue teams , 2015, Natural Hazards.

[68]  Denis Hatzfeld,et al.  Microseismicity in the region of Tehran , 2005 .

[69]  Saeed Yaghoubi,et al.  A bi-objective stochastic model for emergency medical services network design with backup services for disasters under disruptions: An earthquake case study , 2017 .

[70]  Wout Dullaert,et al.  A multi-objective robust optimization model for logistics planning in the earthquake response phase , 2013 .

[71]  Steven Thompson,et al.  Improving disaster response efforts with decision support systems , 2006 .

[72]  Ümit Bilge,et al.  A robust disaster preparedness model for effective and fair disaster response , 2020, Eur. J. Oper. Res..

[73]  Hai Jiang,et al.  A robust counterpart approach to the bi-objective emergency medical service design problem , 2014 .

[74]  Jie Cao,et al.  Emergency Rescue Vehicle Dispatch Planning Using a Hybrid Algorithm , 2018, Int. J. Inf. Technol. Decis. Mak..

[75]  Christopher W. Zobel,et al.  An optimization model for humanitarian relief volunteer management , 2009 .

[76]  Dimitris Bertsimas,et al.  A Robust Optimization Approach to Inventory Theory , 2006, Oper. Res..

[77]  C. Zhang,et al.  A two-stage resource allocation model for lifeline systems quick response with vulnerability analysis , 2016, Eur. J. Oper. Res..

[78]  Arkadi Nemirovski,et al.  Robust Convex Optimization , 1998, Math. Oper. Res..

[79]  Saeed Yaghoubi,et al.  Fuzzy multi-objective stochastic programming model for disaster relief logistics considering telecommunication infrastructures: a case study , 2019, Oper. Res..

[80]  Pieter Smet,et al.  An analysis of generalised heuristics for vehicle routing and personnel rostering problems , 2015, J. Oper. Res. Soc..

[81]  Fritz Gehbauer,et al.  Optimized resource allocation for emergency response after earthquake disasters , 2000 .

[82]  Andrea Matta,et al.  A Decomposition Approach for the Home Health Care Problem with Time Windows , 2017 .

[83]  Hussein Naseraldin,et al.  Facility Location: A Robust Optimization Approach , 2011 .

[84]  Yasamin O. Izadkhah,et al.  Main challenges on community-based approaches in earthquake risk reduction: case study of Tehran, Iran , 2014 .

[85]  Tadeusz Sawik An integer programming approach to scheduling in a contaminated area , 2010 .