Joint Panel Sizing and Appointment Scheduling in Outpatient Care

References

• Abad PL (1996) Optimal pricing and lot-sizing under conditions of perishability and partial backordering. Management Sci. 42(8):1093–1104.Link, Google Scholar
• Abate J, Whitt W (1987) Transient behavior of regulated Brownian motion, I: Starting at the origin. Adv. Appl. Probab. 19(3):560–598.Crossref, Google Scholar
• Araman VF, Glynn PW (2012) Fractional Brownian motion with H < 1/2 as a limit of scheduled traffic. J. Appl. Probab. 49(3):710–718.Crossref, Google Scholar
• Armony M, Israelit S, Mandelbaum A, Marmor YN, Tseytlin Y, Yom-Tov GB (2015) On patient flow in hospitals: A data-based queueing-science perspective. Stochastic Systems 5(1):146–194.Link, Google Scholar
• Balasubramanian H, Muriel A, Wang L (2012) The impact of provider flexibility and capacity allocation on the performance of primary care practices. Flexible Services and Manufacturing J. 24(4):422–447.Crossref, Google Scholar
• Balasubramanian H, Banerjee R, Denton B, Naessens J, Stahl J (2010) Improving clinical access and continuity through physician panel redesign. J. General Internal Medicine 25(10):1109–1115.Crossref, Google Scholar
• Bandi C, Bertsimas D (2012) Tractable stochastic analysis in high dimensions via robust optimization. Math. Programming 134(1):23–70.Crossref, Google Scholar
• Begen MA, Queyranne M (2011) Appointment scheduling with discrete random durations. Math. Oper. Res. 36(2):240–257.Link, Google Scholar
• Browne S, Whitt W (1995) Piecewise-linear diffusion processes. Dshalalow JH, ed. Advances in Queueing: Theory, Methods, and Open Problems (CRC Press, Boca Raton, FL), 463–480.Google Scholar
• Bulinskaya EV (1964) Some results concerning optimum inventory policies. Theory Probab. Appl. 9(3):389–403.Crossref, Google Scholar
• Cayirli T, Veral E (2003) Outpatient scheduling in health care: A review of literature. Production Oper. Management 12(4):519–549.Crossref, Google Scholar
• Cayirli T, Veral E, Rosen H (2006) Designing appointment scheduling systems for ambulatory care services. Health Care Management Sci. 9(1):47–58.Crossref, Google Scholar
• Chen H, Yao DD (2001) Fundamentals of Queuing Networks: Performance, Asymptotics, and Optimization, Vol. 46 (Springer, New York).Crossref, Google Scholar
• Dai JG, He S (2010) Customer abandonment in many-server queues. Math. Oper. Res. 35(2):347–362.Link, Google Scholar
• Dai JG, Shi P (2015) A two-time-scale approach to time-varying queues for hospital inpatient flow management. Working paper, Cornell University, Ithaca, NY.Google Scholar
• Defife JA, Conklin CZ, Smith JM, Poole J (2010) Psychotherapy appointment no-shows: Rates and reasons. Psychotherapy: Theory, Res., Practice, Training 47(3):413–417.Crossref, Google Scholar
• De Vuyst S, Bruneel H, Fiems D (2014) Computationally efficient evaluation of appointment schedules in health care. Eur. J. Oper. Res. 237(3):1142–1154.Crossref, Google Scholar
• Dreiher J, Froimovici M, Bibi Y, Vardy DA, Cicurel A, Cohen AD (2008) Nonattendance in obstetrics and gynecology patients. Gynecologic and Obstetric Investigation 66(1):40–43.Crossref, Google Scholar
• Gallucci G, Swartz W, Hackerman F (2005) Brief reports: 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.Crossref, Google Scholar
• Green LV, Savin S (2008) Reducing delays for medical appointments: A queueing approach. Oper. Res. 56(6):1526–1538.Link, Google Scholar
• Green LV, Savin S, Murray M (2007) Providing timely access to care: What is the right patient panel size? Joint Commission J. Quality and Patient Safety 33(4):211–218.Crossref, Google Scholar
• Gupta D, Denton B (2008) Appointment scheduling in health care: Challenges and opportunities. IIE Trans. 40(9):800–819.Crossref, Google Scholar
• Hall R (2012) Handbook of Healthcare System Scheduling, Vol. 168 (Springer, New York).Crossref, Google Scholar
• Harrison JM (1985) Brownian Motion and Stochastic Flow Systems (John Wiley & Sons, New York).Google Scholar
• Hassin R, Mendel S (2008) Scheduling arrivals to queues: A single-server model with no-shows. Management Sci. 54(3):565–572.Link, Google Scholar
• Honnappa H, Jain R, Ward AR (2015) On transitory queueing. Working paper, Purdue University, West Lafayette, IN.Google Scholar
• Iglehart D, Whitt W (1970) Multiple channel queues in heavy traffic I. Adv. Appl. Probab. 2(1):150–177.Crossref, Google Scholar
• Kaandorp GC, Koole G (2007) Optimal outpatient appointment scheduling. Health Care Management Sci. 10(3):217–229.Crossref, Google Scholar
• Kesling B (2014) “Serious conditions” at Phoenix Veterans Affairs office, watchdog says. Wall Street Journal (May 28), http://www.wsj.com/articles/serious-conditions-at-phoenix-veterans-affairs-office-watchdog-says-1401297619.Google Scholar
• Klassen KJ, Yoogalingam R (2009) Improving performance in outpatient appointment services with a simulation optimization approach. Production Oper. Management 18(4):447–458.Crossref, Google Scholar
• Krueger AB (2009) A hidden cost of health care: Patient time. New York Times (February 9), http://economix.blogs.nytimes.com/2009/02/09/a-hidden-cost-of-health-care-patient-time/?_r=0.Google Scholar
• Kuiper A, Kemper B, Mandjes M (2015) A computational approach to optimized appointment scheduling. Queueing Systems 79(1):5–36.Crossref, Google Scholar
• LaGanga LR, Lawrence SR (2007) Clinic overbooking to improve patient access and increase provider productivity. Decision Sci. 38(2):251–276.Crossref, Google Scholar
• LaGanga LR, Lawrence SR (2012) Appointment overbooking in health care clinics to improve patient service and clinic performance. Production Oper. Management 21(5):874–888.Crossref, Google Scholar
• Liu N, Ziya S (2014) Panel size and overbooking decisions for appointment-based services under patient no-shows. Production Oper. Management 23(12):2209–2223.Crossref, Google Scholar
• Liu N, Finkelstein SR, Kruk ME, Rosenthal D (2015) When waiting to see a doctor is less irritating: Understanding patient preferences and choice behavior in appointment scheduling. Working paper, Columbia University, New York.Google Scholar
• Luo J, Kulkarni VG, Ziya S (2015) A tandem queueing model for an appointment-based service system. Queueing Systems 79(1):53–85.Crossref, Google Scholar
• Mak HY, Rong Y, Zhang J (2014) Sequencing appointments for service systems using inventory approximations. Manufacturing Service Oper. Management 16(2):251–262.Link, Google Scholar
• Mancilla C, Storer R (2012) A sample average approximation approach to stochastic appointment sequencing and scheduling. IIE Trans. 44(8):655–670.Crossref, Google Scholar
• Mandelbaum A, Momcilovic P (2012) Queues with many servers and impatient customers. Math. Oper. Res. 37(1):41–65.Link, Google Scholar
• Merritt H (2014) Physician appointment wait times and Medicaid and Medicare acceptance rates. Accessed September 25, 2015, http://www.merritthawkins.com/uploadedFiles/MerrittHawkings/Surveys/mha2014waitsurvPDF.pdf.Google Scholar
• Millhiser WP, Veral E (2015) Designing appointment system templates with operational performance targets. IIE Trans. Healthcare Systems Engrg. 5(3):125–146.Crossref, Google Scholar
• Murray M, Tantau C (2000) Same-day appointments: Exploding the access paradigm. Family Practice Management 7(8):45–50.Google Scholar
• Murray M, Davies M, Boushon B (2007) Panel size: How many patients can one doctor manage? Family Practice Management 14(4):44–51.Google Scholar
• Norris JB, Kumar C, Chand S, Moskowitz HT, Shade SA, Willis DR (2014) An empirical investigation into factors affecting patient cancellations and no-shows at outpatient clinics. Decision Support Systems 57(January):428–443.Crossref, Google Scholar
• Pack CD (1975) The output of an M/D/1 queue. Oper. Res. 23(4):750–760.Link, Google Scholar
• Reed J, Tezcan T (2012) Hazard rate scaling of the abandonment distribution for the GI/M/n + GI queue in heavy traffic. Oper. Res. 60(4):981–995.Link, Google Scholar
• Reed J, Ward AR (2008) Approximating the GI/GI/1 +GI queue with a nonlinear drift diffusion: Hazard rate scaling in heavy traffic. Math. Oper. Res. 33(3):606–644.Link, Google 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.Link, Google Scholar
• Rust CT, Gallups NH, Clark WS, Jones DS, Wilcox WD (1995) Patient appointment failures in pediatric resident continuity clinics. Archives of Pediatrics and Adolescent Medicine 149(6):693–695.Crossref, Google Scholar
• Shi P, Chou MC, Dai JG, Ding D, Sim J (2016) Models and insights for hospital inpatient operations: Time-dependent ED boarding time. Management Sci. 62(1):1–28.Link, Google Scholar
• Truong VA (2015) Optimal advance scheduling. Management Sci. 61(7):1584–1597.Link, Google Scholar
• Ward AR, Glynn PW (2003) Properties of the reflected Ornstein-Uhlenbeck process. Queueing Systems 44(2):109–123.Crossref, Google Scholar
• Ward AR, Glynn PW (2005) A diffusion approximation for a GI/GI/1 queue with balking or reneging. Queueing Systems 50(4):371–400.Crossref, Google Scholar
• Wessman BV, Moriarity AK, Ametlli V, Kastan DJ (2014) Reducing barriers to timely MR Imaging scheduling. RadioGraphics 34(7):2064–2070.Crossref, Google Scholar
• Whitt W (2002) Stochastic-Process Limits: An Introduction to Stochastic-Process Limits and Their Application to Queues (Springer, New York).Crossref, Google Scholar
• Zacharias C, Pinedo M (2014) Appointment scheduling with no-shows and overbooking. Production Oper. Management 23(5):788–801.Crossref, Google Scholar
• Zacharias C, Pinedo M (2016) Managing customer arrivals in service systems with multiple servers. Working paper, University of Miami, Coral Gables, FL.Google Scholar
• Zeltyn S, Mandelbaum A (2005) Call centers with impatient customers: Many-server asymptotics of the M/M/n + G queue. Queueing Systems 51(3–4):361–402.Crossref, Google Scholar
• Zeng B, Turkcan A, Lin J, Lawley M (2010) Clinic scheduling models with overbooking for patients with heterogeneous no-show probabilities. Annals Oper. Res. 178(1):121–144.Crossref, Google Scholar