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April 10, 2013 - May 26, 2026

Available Issues

April 10, 2013 - May 26, 2026

Optimization Automates Emergency Department Nurse Scheduling at Hartford Hospital

Published Online:10 Jul 2024https://doi.org/10.1287/inte.2023.0071

References

  • Ahmed MA, Alkhamis TM (2009) Simulation optimization for an emergency department healthcare unit in Kuwait. Eur. J. Oper. Res. 198(3):936–942.Google Scholar
  • Aiken LH, Clarke SP, Sloane DM, Sochalski J, Silber JH (2002) Hospital nurse staffing and patient mortality, nurse burnout, and job dissatisfaction. JAMA 288(16):1987–1993.Google Scholar
  • Aiken LH, Sloane DM, Bruyneel L, Van den Heede K, Griffiths P, Busse R, Diomidous M, et al. (2014) Nurse staffing and education and hospital mortality in nine European countries: A retrospective observational study. Lancet 383(9931):1824–1830.Google Scholar
  • Anderson M, Bodur M, Rathwell S, Sarhangian V (2022) Optimization helps scheduling nursing staff at the long-term care homes of the city of Toronto. INFORMS J. Appl. Analytics 53(2):133–154.Google Scholar
  • Ang BY, Lam SWS, Pasupathy Y, Ong MEH (2018) Nurse workforce scheduling in the emergency department: A sequential decision support system considering multiple objectives. J. Nursing Management 26(4):432–441.Google Scholar
  • Bernstein SL, Aronsky D, Duseja R, Epstein S, Handel D, Hwang U, McCarthy M, et al. (2009) The effect of emergency department crowding on clinically oriented outcomes. Acad. Emergency Medicine 16(1):1–10.Google Scholar
  • Bertsimas D, den Hertog D, Pauphilet J (2021) Probabilistic guarantees in robust optimization. SIAM J. Optim. 31(4):2893–2920.Google Scholar
  • Bezanson J, Edelman A, Karpinski S, Shah VB (2017) Julia: A fresh approach to numerical computing. SIAM Rev. 59(1):65–98.Google Scholar
  • Brucker P, Qu R, Burke E (2011) Personnel scheduling: Models and complexity. Eur. J. Oper. Res. 210(3):467–473.Google Scholar
  • Chan CW, Huang M, Sarhangian V (2021) Dynamic server assignment in multiclass queues with shifts, with applications to nurse staffing in emergency departments. Oper. Res. 69(6):1936–1959.LinkGoogle Scholar
  • Chen TL, Wang CC (2016) Multi-objective simulation optimization for medical capacity allocation in emergency department. J. Simulations 10(1):50–68.Google Scholar
  • Clark A, Moule P, Topping A, Serpell M (2015) Rescheduling nursing shifts: Scoping the challenge and examining the potential of mathematical model based tools. J. Nursing Management 23(4):411–420.Google Scholar
  • Draeger MA (1992) An emergency department simulation model used to evaluate alternative nurse staffing and patient population scenarios. Proc. 24th Conf. Winter Simulation (ACM, New York), 1057–1064.Google Scholar
  • Dunning I, Huchette J, Lubin M (2017) Jump: A modeling language for mathematical optimization. SIAM Rev. 59(2):295–320.Google Scholar
  • Elder E, Johnston AN, Crilly J (2015) Systematic review of three key strategies designed to improve patient flow through the emergency department. Emergency Medicine Australasia 27(5):394–404.Google Scholar
  • Gurobi Optimization LLC (2023) Gurobi optimizer reference manual. Accessed April 15, 2023, https://www.gurobi.com.Google Scholar
  • Hamid M, Tavakkoli-Moghaddam R, Golpaygani F, Vahedi-Nouri B (2020) A multi-objective model for a nurse scheduling problem by emphasizing human factors. Proc. Institute Mechanical Engrg. H 234(2):179–199.Google Scholar
  • Hu Y, Chan CW, Dong J (2024) Prediction-driven surge planning with application in the emergency department. Management Sci., ePub ahead of print May 24, https://doi.org/10.1287/mnsc.2021.02781.Google Scholar
  • Kellogg DL, Walczak S (2007) Nurse scheduling: From academia to implementation or not? INFORMS J. Appl. Analytics 37(4):309–399.Google Scholar
  • Kim SH, Whitt W (2014) Are call center and hospital arrivals well modeled by nonhomogeneous Poisson processes? Manufacturing Service Oper. Management 16(3):464–480.LinkGoogle Scholar
  • Leineweber C, Chungkham HS, Lindqvist R, Westerlund H, Runesdotter S, Alenius LS, Tishelman C, et al. (2016) Nurses’ practice environment and satisfaction with schedule flexibility is related to intention to leave due to dissatisfaction: A multi-country, multilevel study. Internat. J. Nursing Stud. 58:47–58.Google Scholar
  • Lim G, Mobasher A (2011) Robust nurse scheduling problem. Proc. Industrial Engrg. Res. Conf. (IISE, Peachtree Corners, GA).Google Scholar
  • Maman S (2009) Uncertainty in the demand for service: The case of call centers and emergency departments. PhD thesis, Technion–Israel Institute of Technology, Haifa.Google Scholar
  • Mohammadian M, Babaei M, Amin Jarrahi M, Anjomrouz E (2019) Scheduling nurse shifts using goal programming based on nurse preferences: A case study in an emergency department. Internat. J. Engrg. 32(7):954–963.Google Scholar
  • Needleman J, Buerhaus P, Mattke S, Stewart M, Zelevinsky K (2002) Nurse-staffing levels and the quality of care in hospitals. New England J. Medicine 346:1715–1722.Google Scholar
  • Park CSY, Kabak M, Kim H, Lee S, Cummings GG (2022) No more unimplementable nurse workforce planning. Contemporary Nurse 58(2–3):237–247.Google Scholar
  • Peters M (2023) Time to solve persistent, pernicious and widespread nursing workforce shortages. Internat. Nursing Rev. 70(2):247–253.Google Scholar
  • Ramsey Z, Palter JS, Hardwick J, Moskoff J, Christian EL, Bailitz J (2018) Decreased nursing staffing adversely affects emergency department throughput metrics. West. J. Emergency Medicine 19(3):496–500.Google Scholar
  • Rerkjirattikal P, Singhaphandu R, Huynh VN, Olapiriyakul S (2022) Job-satisfaction enhancement in nurse scheduling: A case of hospital emergency department in Thailand. Proc. 9th Internat. Sympos. Integrated Uncertainty Knowledge Model. Decision Making (Springer, Berlin), 143–154.Google Scholar
  • Saghafian S, Austin G, Traub SJ (2015) Operations research/management contributions to emergency department patient flow optimization: Review and research prospects. IIE Trans. Healthcare Systems Engrg. 5(2):101–123.Google Scholar
  • Svirsko AC, Norman BA, Rausch D, Woodring J (2019) Using mathematical modeling to improve the emergency department nurse-scheduling process. J. Emergency Nursing 45(4):425–432.Google Scholar
  • Twigg DE, Kutzer Y, Jacob E, Seaman K (2019) A quantitative systematic review of the association between nurse skill mix and nursing-sensitive patient outcomes in the acute care setting. J. Adv. Nursing 75(12):3404–3423.Google Scholar
  • Van Hulst D, den Hertog D, Nuijten W (2017) Robust shift generation in workforce planning. Comput. Management Sci. 14:115–134.Google Scholar
  • Wickert TI, Smet P, Berghe GV (2019) The nurse rerostering problem: Strategies for reconstructing disrupted schedules. Comput. Oper. Res. 104:319–337.Google Scholar
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