Nonlinear Accumulating Priority Queues with Equivalent Linear Proxies

Published Online:https://doi.org/10.1287/opre.2017.1613

References

  • Abate J, Whitt W (2006) A unified framework for numerically inverting Laplace transforms. INFORMS J. Comput. 18(4):408–421.LinkGoogle Scholar
  • Doytchinov B, Lehoczky J, Shreve S (2001) Real-time queues in heavy traffic with earliest-deadline-first queue discipline. Ann. Appl. Probab. 11(2):332–378.CrossrefGoogle Scholar
  • Fajardo VA, Drekic S (2017) Waiting time distributions in the preemptive accumulating priority queue. Methodology Comput. Appl. Probab. 19(1):255–284.CrossrefGoogle Scholar
  • Goldberg HM (1977) Analysis of the earliest due date scheduling rule in queueing systems. Math. Oper. Res. 2(2):145–154.LinkGoogle Scholar
  • Haviv M, Ravner L (2016) Strategic bidding in an accumulating priority queue: Equilibrium analysis. Ann. Oper. Res. 244(2):505–523.CrossrefGoogle Scholar
  • Kanet JJ (1982) A mixed delay dependent queue discipline. Oper. Res. 30(1):93–96.LinkGoogle Scholar
  • Kella O, Ravner L (2017) Lowest priority waiting time distribution in an accumulating priority Lévy queue. Oper. Res. Lett. 45(1):40–45.CrossrefGoogle Scholar
  • Kleinrock L (1964) A delay dependent queue discipline. Naval Res. Logist. Quart. 11(3–4):329–341.CrossrefGoogle Scholar
  • Kleinrock L, Finkelstein R (1967) Time dependent priority queues. Oper. Res. 15(1):104–116.LinkGoogle Scholar
  • Leatherman S, Sutherland K (2010) Quality of Healthcare in Canada: A Chartbook. Canadian Health Services Research Foundation, Ottawa, Ontario. Accessed December 2014, http://www.cfhi-fcass.ca/migrated/pdf/chartbook/CHARTBOOK%20Eng_June_withdate.pdf.Google Scholar
  • Li N, Stanford DA (2016) Multi-server accumulating priority queues with heterogeneous servers. Eur. J. Oper. Res. 252(3):866–878.CrossrefGoogle Scholar
  • Netterman A, Adiri I (1979) A dynamic priority queue with general concave priority functions. Oper. Res. 27(6):1088–1100.LinkGoogle Scholar
  • Sharif AB, Stanford DA, Taylor P, Ziedins I (2014) A multi-class multi-server accumulating priority queue with application to health care. Oper. Res. Health Care 3(2):73–79.CrossrefGoogle Scholar
  • Stanford DA, Taylor P, Ziedins I (2014) Waiting time distributions in the accumulating priority queue. Queueing Systems 77(3):297–330.CrossrefGoogle Scholar
  • Stolyar AL, Ramanan K (2001) Largest weighted delay first scheduling: Large deviations and optimality. Ann. Appl. Probab. 11(1):1–48.CrossrefGoogle Scholar
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