A General Framework to Compare Announcement Accuracy: Static vs. LES-Based Announcement

Published Online:https://doi.org/10.1287/mnsc.2020.3722

References

  • Akşin Z , Ata B , Emadi SM , Su C-L (2016) Impact of delay announcements in call centers: An empirical approach. Oper. Res. 65(1):242–265.LinkGoogle Scholar
  • Ang E , Kwasnick S , Bayati M, Plambeck EL, Aratow M (2015) Accurate emergency department wait time prediction. Manufacturing Service Oper. Management 18(1):141–156.LinkGoogle Scholar
  • Armony M , Maglaras C (2004) Contact centers with a call-back option and real-time delay information. Oper. Res. 52(4):527–545.LinkGoogle Scholar
  • Armony M , Shimkin N , Whitt W (2009) The impact of delay announcements in many-server queues with abandonment. Oper. Res. 57(1):66–81.LinkGoogle Scholar
  • Bitran G , Caldentey R (2002) Two-class priority queueing system with state-dependent arrivals. Queueing Systems 40(4):355–382.CrossrefGoogle Scholar
  • Brown L , Gans N , Mandelbaum A , Sakov A , Shen H , Zeltyn S , Zhao L (2005) Statistical analysis of a telephone call center: A queueing-science perspective. J. Amer. Statist. Assoc. 100(469):36–50.CrossrefGoogle Scholar
  • Dong J , Yom-Tov E , Yom-Tov GB (2018) The impact of delay announcements on hospital network coordination and waiting times. Management Sci. 65(5):1969–1994.Google Scholar
  • Gal A , Mandelbaum A , Schnitzler F , Senderovich A , Weidlich M (2017) Traveling time prediction in scheduled transportation with journey segments. Inform. Systems 64(C):266–280.CrossrefGoogle Scholar
  • Garnett O , Mandelbaum A , Reiman M (2002) Designing a call center with impatient customers. Manufacturing Service Oper. Management 4(3):208–227.LinkGoogle Scholar
  • Guo P , Zipkin P (2007) Analysis and comparison of queues with different levels of delay information. Management Sci. 53(6):962–970.LinkGoogle Scholar
  • Halfin S , Whitt W (1981) Heavy-traffic limits for queues with many exponential servers. Oper. Res. 29(3):567–588.LinkGoogle Scholar
  • Holt CC (2004) Forecasting seasonals and trends by exponentially weighted moving averages. Internat. J. Forecasting 20(1):5–10.CrossrefGoogle Scholar
  • Hu M , Li Y , Wang J (2018) Efficient ignorance: Information heterogeneity in a queue. Management Sci. 64(6):2650–2671.LinkGoogle Scholar
  • Ibrahim R (2010) Real-time delay prediction in customer service systems. PhD thesis, Columbia University, New York.Google Scholar
  • Ibrahim R (2018) Sharing delay information in service systems: A literature survey. Queueing Systems 89(1-2):49–79.CrossrefGoogle Scholar
  • Ibrahim R , Whitt W (2009a) Real-time delay estimation based on delay history. Manufacturing Service Oper. Management 11(3):397–415.LinkGoogle Scholar
  • Ibrahim R , Whitt W (2011) Real-time delay estimation based on delay history in many-server service systems with time-varying arrivals. Production Oper. Management 20(5):654–667.CrossrefGoogle Scholar
  • Ibrahim R , Armony M , Bassamboo A (2016) Does the past predict the future? the case of delay announcements in service systems. Management Sci . 63(6):1762–1780Google Scholar
  • Jouini O , Dallery Y , Akşin Z (2009) Queueing models for full-flexible multi-class call centers with real-time anticipated delays. Internat. J. Production Econom. 120(2):389–399.CrossrefGoogle Scholar
  • Jouini O , Akşin OZ , Karaesmen F , Aguir MS , Dallery Y (2015) Call center delay announcement using a newsvendor-like performance criterion. Production Oper. Management 24(4):587–604.CrossrefGoogle Scholar
  • Kleinrock L (1975) Queueing systems, Volume 2: Computer Applications (Wiley, New York).Google Scholar
  • Nakibly E 2002. Predicting waiting times in telephone service systems. PhD thesis, Technion–Israel Institute of Technology, Haifa.Google Scholar
  • Pender J , Rand RH , Wesson E (2017) Queues with choice via delay differential equations. Internat. J. Bifurcation Chaos 27(4):1730016.CrossrefGoogle Scholar
  • Roubos A , Jouini O (2013) Call centers with hyperexponential patience modeling. Internat. J. Production Econom. 141(1):307–315.CrossrefGoogle Scholar
  • Senderovich A , Weidlich M , Gal A , Mandelbaum A (2014) Queue mining–predicting delays in service processes. Jarke M, Mylopoulos J, Quix C, Rolland C, Manolopoulos Y, Mouratadis H, Horkoff J, eds. Internat. Conf. on Adv. Inform. Systems Engrg. (Springer, New York), 42–57.Google Scholar
  • Senderovich A , Weidlich M , Gal A , Mandelbaum A (2015) Queue mining for delay prediction in multi-class service processes. Inform. Systems 53:278–295.CrossrefGoogle Scholar
  • Shah A , Wikum A , Pender J (2019) Using simulation to study the last to enter service delay announcement in multiserver queues with abandonment. Mustafee N, ed. Proc. 2019 Winter Simulation Conf. (IEEE Press, New York), 2595–2605.Google Scholar
  • Singh SP , Delasay M , Scheller-Wolf A (2017) Evaluating the first-mover’s advantage in announcing real-time delay information. Technical report, University College, London.Google Scholar
  • Thiongane M , Chan W , L’Ecuyer P (2015) Waiting time predictors for multi-skill call centers. Yilmaz L, Chan WKV, Roeder TMK, Macal C, Rossetti MD, eds. Proc. 2015 Winter Simulation Conf. (IEEE Press, New York), 3073–3084.Google Scholar
  • Thiongane M , Chan W , L’Ecuyer P (2016) New history-based delay predictors for service systems. Roeder TMK, Frazier PI, Szetchman R, Zhou E, eds. Winter Simulation Conf. (WSC) (IEEE Press, New York), 425–436.Google Scholar
  • Ward AR , Whitt W (2000) Predicting response times in processor-sharing queues. Analysis Comm. Networks: Call Centres, Traffic, Performance 28:1.Google Scholar
  • Whitt W (1999) Predicting queueing delays. Management Sci. 45(6):870–888.LinkGoogle Scholar
  • Whitt W (2004) Efficiency-driven heavy-traffic approximations for many-server queues with abandonments. Management Sci. 50(10):1449–1461.LinkGoogle Scholar
  • Yu Q , Allon G , Bassamboo A (2016) How do delay announcements shape customer behavior? an empirical study. Management Sci . 63(1):1–20.LinkGoogle Scholar
  • Yu Q , Allon G , Bassamboo A (2020) The reference effect of delay announcements: A field experiment. Management Sci. Forthcoming.Google Scholar
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