Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - May 13, 2026

Available Issues

April 10, 2013 - May 13, 2026

Strategic Idleness and Dynamic Scheduling in an Open-Shop Service Network: Case Study and Analysis

Published Online:27 Oct 2016https://doi.org/10.1287/msom.2016.0591

References

  • Afèche P (2013) Incentive-compatible revenue management in queueing systems: Optimal strategic delay. Manufacturing Service Oper. Management 15(3):423–443.LinkGoogle Scholar
  • Alcaide D, Rodriguez-Gonzalez A, Sicilia J (2006) A heuristic approach to minimize expected makespan in open shops subject to stochastic processing times and failures. Internat. J Flexible Manufacturing Systems 17(3):201–226.CrossrefGoogle Scholar
  • Alcaide D, Sicilia J, Vigo D (1997) A tabu search algorithm for the open shop problem. Trabajos de Investigación Operativa 5(2):283–296.Google Scholar
  • Atar R, Mandelbaum A, Zviran A (2012) Control of fork-join networks in heavy traffic. 2012 50th Annual Allerton Conf., Comm., Control, Comput. 823–830.CrossrefGoogle Scholar
  • Baron O, Milner J (2009) Staffing to maximize profit for call centers with alternate service level agreements. Oper. Res. 57(3):685–700.LinkGoogle Scholar
  • Baron O, Berman O, Krass D, Wang J (2014) Using strategic idleness to improve customer service experience in service networks. Oper. Res. 62(1):123–140.LinkGoogle Scholar
  • Bouch A, Kuchinsky A, Bhatti N (2000) Quality is in the eye of the beholder: Meeting users’ requirements for internet quality of service. Proc. CHI2000 Human Factors in Comput. Systems Conf. (ACM Press, New York), 297–394.CrossrefGoogle Scholar
  • Chen H, Yao D (2001) Fundamentals of Queueing Networks: Performance, Asymptotics and Optimization (Springer-Verlag, New York).CrossrefGoogle Scholar
  • Chhaochhria P, Graves S (2013) A Forecast-driven tactical planning model for a serial manufacturing system. Internat. J. Production Res. 51(23–24):6860–6879.CrossrefGoogle Scholar
  • de-Véricourt F, Jennings O (2011) Review on nurse staffing in medical units: A queueing perspective. Oper. Res. 59(6):1320–1331.LinkGoogle Scholar
  • de-Véricourt F, Zhou Y-P (2005) A routing problem for call centers with customer callbacks after service failure. Oper. Res. 53(6):968–981.LinkGoogle Scholar
  • Friedman HH, Friedman LW (1997) Reducing the “wait” in waiting-line systems: Waiting line segmentation. Bus. Horizons 40(4):54–58.CrossrefGoogle Scholar
  • Gans N, Koole G, Mandelbaum A (2003) Telephone call centers: Tutorial, review, and research prospects. Manufacturing Service Oper. Management 5(2):79–141.LinkGoogle Scholar
  • Graves S (1986) A tactical planning model for a job shop. Oper. Res. 34(4):522–533.LinkGoogle Scholar
  • Huang J, Carmeli B, Mandelbaum A (2015) Control of patient flow in emergency departments, or multiclass queues with deadlines and feedback. Oper. Res. 63(4):892–908.LinkGoogle Scholar
  • Larson RC (1987) Perspectives on queues: Social justice and the psychology of queueing. Oper. Res. 35(6):895–905.LinkGoogle Scholar
  • Masin M, Herer Y, Dar-el EM (2005) Design of self-regulating production control systems by tradeoffs programming. IIE Trans. 37(3):217–232.CrossrefGoogle Scholar
  • Mehrotra V, Ross K, Ryder G, Zhou YP (2012) Routing to manage resolution and waiting time in call centers with heterogeneous servers. Manufacturing Service Oper. Management 14(1):66–81.LinkGoogle Scholar
  • Milner J, Olsen TL (2008) Service level agreements in call centers: Perils and prescriptions. Management Sci. 54(2):238–252.LinkGoogle Scholar
  • Ouelhadj D, Petrovic S (2009) A survey of dynamic scheduling in manufacturing systems. J. Scheduling 12(4):417–431.CrossrefGoogle Scholar
  • Pinedo M (1984) A note on the flow time and the number of tardy jobs in stochastic open shops. Eur. J. Oper. Res. 18(1):81–85.CrossrefGoogle Scholar
  • Pinedo M (2012) Scheduling: Theory, Algorithms, and Systems (Springer, New York).CrossrefGoogle Scholar
  • Pinedo M, Ross SM (1982) Minimizing expected makespan in stochastic open shops. Adv. Appl. Probab. 14(4):898–911.CrossrefGoogle Scholar
  • Roemer TA (2006) A note on the complexity of the concurrent open shop problem. J. Scheduling 9(4):389–396.CrossrefGoogle Scholar
  • Saghafian S, Hopp WJ, Van Oyen MP, Desmond JS, Kronick SL (2012) Patient streaming as a mechanism for improving responsiveness in emergency departments. Oper. Res. 60(5):1080–1097.LinkGoogle Scholar
  • Shtrichman O, Ben-Haim R, Pollatschek MA (2001) Using simulation to increase efficiency in an army recruitment office. Interfaces 31(4):61–70.LinkGoogle Scholar
  • Simchi-Levi D (2014) OM forum—OM research: From problem-driven to data-driven research. Manufacturing Service Oper. Management 16(1):2–10.LinkGoogle Scholar
  • Soh SB, Gurvich I (2016) Call center staffing: Service-level constraints and index priorities. Oper. Res. Forthcoming.LinkGoogle Scholar
  • Soman D, Shi M (2003) Virtual progress: The effect of path characteristics on perceptions of progress and choice. Management Sci. 49(9):1229–1250.LinkGoogle Scholar
  • Stidham S (2002) Analysis, design, and control of queueing systems. Oper. Res. 50(1):197–216.LinkGoogle Scholar
  • Taylor S (1994) Waiting for service: The relationship between delays and evaluation of service. J. Marketing 58(2):56–69.CrossrefGoogle Scholar
  • Teo CC, Bhatnagar R, Graves S (2012) An application of master schedule smoothing and planned lead time control. Production Oper. Management 21(2):211–223.CrossrefGoogle Scholar
  • Whitt W (2013) Offered load analysis for staffing. Manufacturing Service Oper. Management 15(2):166–169.LinkGoogle Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree