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A decision support model for staff allocation of mobile medical service

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Abstract

Princess Mother’s Medical Volunteer (PMMV) Foundation is the most recognized and significant free-of-charge mobile medical service (MMS) provider in Thailand. They require volunteers from partner hospitals to give medical care to poor populations residing in remote areas of the country where access to general medical services is limited. Volunteers usually include four types of staff: doctors, dentists, nurses, and pharmacists. According to their operational plan, the PMMV and their working partners need to properly allocate/assign volunteer medical staff to operation sites according to site requirements. In current planning process, the PMMV has to organize massive amounts of data from different organizations in the country, resulting in a long processing time for allocation decisions. In addition, the current process does not allow decision makers to efficiently allocate medical staff with acceptable transportation cost. There is a significant opportunity to improve this process by using analytical models to support this decision making. Thus, this paper proposes a decision support model for staff allocation. The proposed model is in a form of computer information system (CIS) that is carefully developed to facilitate the access to heterogeneous data and ease of use by decision makers. The proposed CIS will assist the PMMV central offices and partners to manage massive data more efficiently and effectively, while the decision algorithm can facilitate planners to achieve the lowest possible cost associated with their decisions. The outcomes of this research were verified by potential users through a focus group manner. The result showed that the potential users were very satisfied with the overall performance of this system.

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References

  • Beliën, J., & Demeulemeester, E. (2005). Integrating nurse and surgery scheduling. In Proceedings of the 2nd multidisciplinary international scheduling conference: Theory and applications, New York, USA (pp. 408-409) . July 18–21, 2005.

  • Beaulieu, H., Ferland, J. A., Gendron, B., & Philippe, M. (2000). A mathematical programming approach for scheduling physicians in the emergency room. Health Care Management Science, 3, 193–200.

    Article  Google Scholar 

  • Bozkaya, B., Zhang, J., & Erkut, E. (2002). An efficient genetic algorithm for the p-median problem. In Z. Drezner & H. W. Hamacher (Eds.), Facility location: Applications and theory (pp. 179–205). Berlin: Springer.

    Chapter  Google Scholar 

  • Carter, M. W., & Lapierre, S. D. (2001). Scheduling emergency room physicians. Health Care Management Science, 4, 347–360.

    Article  Google Scholar 

  • Church, R., & ReVelle, C. (1974). The maximal covering location problem. Papers of the Regional Science Association, 32, 101–118.

    Article  Google Scholar 

  • Daskin, M. S. (1995). Network and discrete location: Models, algorithms and applications. New York: Wiley.

    Book  Google Scholar 

  • Daskin, M. S., & Dean, L. K. (2004). Location of health care facilities. In F. Sainfort, M. Brandeau, & W. Pierskalla (Eds.), Handbook of OR/MS in health care: A handbook of methods and applications (pp. 43–76). Norwell: Kluwer.

    Google Scholar 

  • Eaton, D., Church, R., Bennett, V., Hamon, B., & Valencia, L. G. (1982). On deployment of health resources in rural Valle del Cauca, Colombia. In W. Cook (Ed.), Planning and development processes in the third world. Amsterdam: Elsevier.

    Google Scholar 

  • Ernst, A. T., Jiang, H., Krishnamoorthy, M., Owens, B., & Sier, D. (2004). An annotated bibliography of personnel scheduling and rostering. Annals of Operations Research, 127, 21–144.

    Article  Google Scholar 

  • Farahani, R. Z., Asgari, N., Heidari, N., Hosseininia, M., & Goh, M. (2012). Covering problems in facility location: A review. Computers and Industrial Engineering, 62, 368–407.

    Article  Google Scholar 

  • Fischer, K. (2002). Sequential discrete p-facility models for competitive location planning. Annals of Operations Research, 111, 253–270.

    Article  Google Scholar 

  • Gendreau, M., Laporte, G., & Semet, F. (1997). Solving an ambulance location model by tabu search. Location Science, 5, 75–88.

    Article  Google Scholar 

  • Gibson, B. A., Ghosh, D., Morano, J. P., & Altice, F. L. (2014). Accessibility and utilization patterns of a mobile medical clinic among vulnerable populations. Health & Place, 28, 153–166.

    Article  Google Scholar 

  • Hillier, F. S., & Lieberman, G. J. (1997). Introduction to operations research (6th ed.). New York: McGraw-Hill Inc.

    Google Scholar 

  • Huang, R., Kim, S., & Menezes, M. B. C. (2010). Facility location for large-scale emergencies. Annals of Operations Research, 181, 271–286.

    Article  Google Scholar 

  • Langer, M. (2007). Analysis and design of information system (3rd ed.). London: Springer.

    Google Scholar 

  • Nahmias, S. (2009). Production and operations analysis (6th ed.). New York: McGraw-Hill/Irwin.

    Google Scholar 

  • Özdamar, L., Ekinci, E., & Küçükyazici, B. (2004). Emergency logistics planning in natural disasters. Annals of Operations Research, 129, 217–245.

    Article  Google Scholar 

  • Petrovic, S., & Berghe, G. V. (2012). A comparison of two approaches to nurse rostering problems. Annals of Operations Research, 194, 365–384.

    Article  Google Scholar 

  • ReVelle, C., & Hogan, K. (1989). The maximum reliability location problem and \(\alpha \)-reliable P-center problem: Derivatives of the probabilistic location set covering problem. Annals of Operations Research, 18, 155–174.

    Article  Google Scholar 

  • Schilling, D., Jayaraman, V., & Barkhi, R. (1993). A review of covering problems in facility location. Location Science, 1, 25–56.

    Google Scholar 

  • Sheu, J. B. (2007). An emergency logistics distribution approach for quick response to urgent relief demand in disasters. Transportation Research Part E: Logistics and Transportation Review, 43, 687–709.

    Article  Google Scholar 

  • Tzeng, G. H., Cheng, H. J., & Huang, T. D. (2007). Multi-objective optimal planning for designing relief delivery systems. Transportation Research Part E: Logistics and Transportation Review, 43, 673–686.

    Article  Google Scholar 

  • Voss, S. (1996). A reverse elimination approach for the P-median problem. Studies in Locational Analysis, 8, 49–58.

    Google Scholar 

  • Warner, D. M. (1976). Scheduling nursing personnel according to nursing preference: A mathematical programming approach. Operations Research, 24, 842–856.

    Article  Google Scholar 

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Acknowledgments

This research was financially supported by National Research Council of Thailand and Chulalongkorn University. We also gratefully acknowledge Dr. Rein Boondiskulchok as well as all participating staff from PMMV Foundation, Ratchaburi Provincial Health Office, local public health offices, and local hospitals.

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Authors and Affiliations

  1. Department of Industrial Engineering, Chulalongkorn University, Bangkok, Thailand

    Paveena Chaovalitwongse, Krongsin Somprasonk & Naragain Phumchusri

  2. Department of Industrial & Systems Engineering, University of Washington, Seattle, WA, USA

    Joseph Heim, Zelda B. Zabinsky & W. Art Chaovalitwongse

Authors
  1. Paveena Chaovalitwongse
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  2. Krongsin Somprasonk
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  3. Naragain Phumchusri
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  4. Joseph Heim
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  5. Zelda B. Zabinsky
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  6. W. Art Chaovalitwongse
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Correspondence to Paveena Chaovalitwongse.

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Chaovalitwongse, P., Somprasonk, K., Phumchusri, N. et al. A decision support model for staff allocation of mobile medical service. Ann Oper Res 249, 433–448 (2017). https://doi.org/10.1007/s10479-015-1991-5

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