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April 16, 2013 - May 25, 2026

Available Issues

April 16, 2013 - May 25, 2026

Appointment Scheduling of Outpatient Clinical Services Under Uncertain Patient Flows

Published Online:1 Jun 2026https://doi.org/10.1287/opre.2022.0353

References

  • Anisi S, Zarei E, Sabzi M, Chehrazi M (2018) Missed appointments: Factors contributing to patient no-show in outpatient hospital clinics in Tehran, Iran. Shiraz E-Medical J. 19(8):e63238.Google Scholar
  • Argon NT, Ding L, Glazebrook K, Ziya S (2009) Dynamic routing of customers with general delay costs in a multiserver queuing system. Probability Engrg. Inform. Sci. 23(2):175–203.CrossrefGoogle Scholar
  • Astaraky D, Patrick J (2015) A simulation based approximate dynamic programming approach to multi-class, multi-resource surgical scheduling. Eur. J. Oper. Res. 245(1):309–319.CrossrefGoogle Scholar
  • Ayers AA (2021) Are there any restrictions on an urgent care provider charging a no-show or cancellation fee? Accessed March 20, 2025, https://www.jucm.com/are-there-any-restrictions-on-an-urgent-care-provider-charging-a-no-show-or-cancellation-fee/.Google Scholar
  • Bao Y, Fan G, Zou D, Wang T, Xue D (2017) Patient experience with outpatient encounters at public hospitals in shanghai: Examining different aspects of physician services and implications of overcrowding. PLoS One 12(2):e0171684.CrossrefGoogle Scholar
  • Bell SL, Williams RJ (2001) Dynamic scheduling of a system with two parallel servers in heavy traffic with resource pooling: Asymptotic optimality of a threshold policy. Ann. Appl. Probability 11(3):608–649.CrossrefGoogle Scholar
  • Bryant M (2017) 7 tips to engage patients and keep them coming back. Accessed March 20, 2025, https://www.healthcaredive.com/news/7-tips-to-engage-patients-and-keep-them-coming-back/447569/.Google Scholar
  • Cayirli T, Veral E (2003) Outpatient scheduling in health care: A review of literature. Production Oper. Management 12(4):519–549.CrossrefGoogle Scholar
  • Chen X, Gao X, Hu Z (2015) A new approach to two-location joint inventory and transshipment control via L♮-convexity. Oper. Res. Lett. 43(1):65–68.CrossrefGoogle Scholar
  • Chen N, Gürlek R, Lee D, Shen H (2024) Can customer arrival rates be modelled by sine waves? Service Sci. 16(2):70–84.AbstractGoogle Scholar
  • Cooper WL (2002) Asymptotic behavior of an allocation policy for revenue management. Oper. Res. 50(4):720–727.LinkGoogle Scholar
  • Dai J, Geng N, Xie X (2021) Dynamic advance scheduling of outpatient appointments in a moving booking window. Eur. J. Oper. Res. 292(2):622–632.CrossrefGoogle Scholar
  • Dios PD, González NP, Lestón JS, Carmona IT, Posse JL, Varela-Centelles P (2005) “Scheduling delay” in oral cancer diagnosis: A new protagonist. Oral Oncology 41(2):142–146.CrossrefGoogle Scholar
  • Feldman J, Liu N, Topaloglu H, Ziya S (2014) Appointment scheduling under patient preference and no-show behavior. Oper. Res. 62(4):794–811.LinkGoogle Scholar
  • Feldman Z, Mandelbaum A, Massey WA, Whitt W (2008) Staffing of time-varying queues to achieve time-stable performance. Management Sci. 54(2):324–338.LinkGoogle Scholar
  • Feng Q, Li C, Lu M, Shanthikumar JG (2022) Dynamic substitution for selling multiple products under supply and demand uncertainties. Production Oper. Management 31(4):1645–1662.CrossrefGoogle Scholar
  • Gallucci G, Swartz W, Hackerman F (2005) Impact of the wait for an initial appointment on the rate of kept appointments at a mental health center. Psychiatric Services 56(3):344–346.CrossrefGoogle Scholar
  • Geng N, Xie X, Augusto V, Jiang Z (2011) A monte carlo optimization and dynamic programming approach for managing MRI examinations of stroke patients. IEEE Trans. Automated Control 56(11):2515–2529.CrossrefGoogle Scholar
  • Gerchak Y, Gupta D, Henig M (1996) Reservation planning for elective surgery under uncertain demand for emergency surgery. Management Sci. 42(3):321–334.LinkGoogle Scholar
  • Gier J (2017) Missed appointments cost the US healthcare system $150 B each year. Accessed March 20, 2025, https://www.hcinnovationgroup.com/clinical-it/article/13008175/missed-appointments-cost-the-us-healthcare-system-150b-each-year.Google Scholar
  • Grant B, Gurvich I, Mutharasan RK, Van Mieghem JA (2021) Optimal dynamic appointment scheduling of base and surge capacity. Manufacturing Service Oper. Management 24(1):59–76.LinkGoogle Scholar
  • Green LV, Savin S (2008) Reducing delays for medical appointments: A queueing approach. Oper. Res. 56(6):1526–1538.LinkGoogle Scholar
  • Gudbranson E, Glickman A, Emanuel EJ (2017) Reassessing the data on whether a physician shortage exists. J. Amer. Medical Assoc. 317(19):1945–1946.CrossrefGoogle Scholar
  • Gupta D, Denton B (2008) Appointment scheduling in health care: Challenges and opportunities. IIE Trans. 40(9):800–819.CrossrefGoogle Scholar
  • Gupta D, Wang L (2008) Revenue management for a primary-care clinic in the presence of patient choice. Oper. Res. 56(3):576–592.LinkGoogle Scholar
  • Hallsworth M, Berry D, Sanders M, Sallis A, King D, Vlaev I, Darzi A (2015) Stating appointment costs in SMS reminders reduces missed hospital appointments: Findings from two randomised controlled trials. PLoS One 10(9):e0137306.CrossrefGoogle Scholar
  • Huh WT, Liu N, Truong VA (2013) Multiresource allocation scheduling in dynamic environments. Manufacturing Service Oper. Management 15(2):280–291.LinkGoogle Scholar
  • Hur Y, Bard JF, Morrice DJ (2021) Appointment scheduling at a multidisciplinary outpatient clinic using stochastic programming. Naval Res. Logist. 68(1):134–155.CrossrefGoogle Scholar
  • Ikeda M, Kodama S (1973) Large-scale dynamical systems: State equations, lipschitz conditions, and linearization. IEEE Trans. Circuit Theory 20(3):193–202.CrossrefGoogle Scholar
  • Jasin S (2014) Reoptimization and self-adjusting price control for network revenue management. Oper. Res. 62(5):1168–1178.LinkGoogle Scholar
  • Jiang R, Shen S, Zhang Y (2017) Integer programming approaches for appointment scheduling with random no-shows and service durations. Oper. Res. 65(6):1638–1656.LinkGoogle Scholar
  • Kim S, Giachetti RE (2006) A stochastic mathematical appointment overbooking model for healthcare providers to improve profits. IEEE Trans. Systems Man Cybernetics Part A Systems Humans 36(6):1211–1219.CrossrefGoogle Scholar
  • Kong Q, Li S, Liu N, Teo CP, Yan Z (2020) Appointment scheduling under time-dependent patient no-show behavior. Management Sci. 66(8):3480–3500.LinkGoogle Scholar
  • LaGanga LR, Lawrence SR (2007) Clinic overbooking to improve patient access and increase provider productivity. Decision Sci. 38(2):251–276.CrossrefGoogle Scholar
  • Leeftink G, Martinez G, Hans EW, Sir MY, Pasupathy KS (2022) Optimising the booking horizon in healthcare clinics considering no-shows and cancellations. Internat. J. Production Res. 60(10):3201–3218.CrossrefGoogle Scholar
  • Liu Y, Whitt W (2012) Stabilizing customer abandonment in many-server queues with time-varying arrivals. Oper. Res. 60(6):1551–1564.LinkGoogle Scholar
  • Liu N, Ziya S, Kulkarni VG (2010) Dynamic scheduling of outpatient appointments under patient no-shows and cancellations. Manufacturing Service Oper. Management 12(2):347–364.LinkGoogle Scholar
  • Masterson L (2017) Same-day scheduling can improve patient satisfaction and your bottom line. Accessed March 20, 2025, https://www.healthcaredive.com/news/same-day-scheduling-can-improve-patient-satisfaction-and-your-bottom-line/506048/.Google Scholar
  • McMullen MJ, Netland PA (2015) Lead time for appointment and the no-show rate in an ophthalmology clinic. Clinical Ophthalmology 9:513–516.Google Scholar
  • Min D, Yih Y (2010) An elective surgery scheduling problem considering patient priority. Comput. Oper. Res. 37(6):1091–1099.CrossrefGoogle Scholar
  • Morris J, Twizeyemariya A, Grimmer K (2017) The cost of waiting on an orthopaedic waiting list: A scoping review. Asia Pacific J. Health Management 12(2):42–54.CrossrefGoogle Scholar
  • Murray M, Berwick DM (2003) Advanced access: Reducing waiting and delays in primary care. JAMA 289(8):1035–1040.CrossrefGoogle Scholar
  • Murray M, Tantau C (1999) Redefining open access to primary care. Management Care Quart. 7(3):45–55.Google Scholar
  • Nocedal J, Wright S (2006) Numerical Optimization (Springer Science & Business Media, Boston, MA).Google Scholar
  • Nossbaum S (2021) The complete guide to surgery cancellation fees for practices Accessed March 20, 2025, https://www.surgimate.com/blog/paying-the-price-of-cancellations-the-case-for-charging/.Google Scholar
  • O’Neill L, Dexter F, Wachtel RE (2009) Should anesthesia groups advocate funding of clinics and scheduling systems to increase operating room workload? J. Amer. Soc. Anesthesiologists 111(5):1016–1024.Google Scholar
  • Parizi MS, Ghate A (2016) Multi-class, multi-resource advance scheduling with no-shows, cancellations and overbooking. Comput. Oper. Res. 67:90–101.CrossrefGoogle Scholar
  • Patrick J (2012) A Markov decision model for determining optimal outpatient scheduling. Health Care Management Sci. 15(2):91–102.CrossrefGoogle Scholar
  • Patrick J, Puterman ML, Queyranne M (2008) Dynamic multipriority patient scheduling for a diagnostic resource. Oper. Res. 56(6):1507–1525.LinkGoogle Scholar
  • Plambeck EL, Ward AR (2006) Optimal control of a high-volume assemble-to-order system. Math. Oper. Res. 31(3):453–477.LinkGoogle Scholar
  • Ray KN, Chari AV, Engberg J, Bertolet M, Mehrotra A (2015) Opportunity costs of ambulatory medical care in the United States. Amer. J. Management Care 21(8):567.Google Scholar
  • Reiman MI, Wang Q (2008) An asymptotically optimal policy for a quantity-based network revenue management problem. Math. Oper. Res. 33(2):257–282.LinkGoogle Scholar
  • Robinson LW, Chen RR (2010) A comparison of traditional and open-access policies for appointment scheduling. Manufacturing Service Oper. Management 12(2):330–346.LinkGoogle Scholar
  • Shaked M, Shanthikumar JG (2006) Stochastic Orders, 1st ed. (Springer, New York).Google Scholar
  • Siciliani L, Stanciole A, Jacobs R (2009) Do waiting times reduce hospital costs? J. Health Econom. 28(4):771–780.CrossrefGoogle Scholar
  • Truong VA (2015) Optimal advance scheduling. Management Sci. 61(7):1584–1597.LinkGoogle Scholar
  • Wang D, Muthuraman K, Morrice D (2019) Coordinated patient appointment scheduling for a multistation healthcare network. Oper. Res. 67(3):599–618.LinkGoogle Scholar
  • Xu X (2020) Multi-armed bandits in large-scale complex systems. PhD dissertation, Cornell University, Ithaca, NY.Google Scholar
  • Yu S, Kulkarni VG, Deshpande V (2020) Appointment scheduling for a health care facility with series patients. Production Oper. Management 29(2):388–409.CrossrefGoogle Scholar
  • Zacharias C, Armony M (2017) Joint panel sizing and appointment scheduling in outpatient care. Management Sci. 63(11):3978–3997.LinkGoogle Scholar
  • Zacharias C, Liu N, Begen MA (2024) Dynamic interday and intraday scheduling. Oper. Res. 72(1):317–335.LinkGoogle Scholar
  • Zenios SA (1999) Modeling the transplant waiting list: A queueing model with reneging. Queueing Systems 31(3):239–251.CrossrefGoogle Scholar
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