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April 10, 2013 - May 13, 2026

Available Issues

April 10, 2013 - May 13, 2026

Production Campaign Planning Under Learning and Decay

Published Online:7 Aug 2019https://doi.org/10.1287/msom.2018.0766

References

  • Brown DB, Smith JE (2013) Optimal sequential exploration: Bandits, clairvoyants, and wildcats. Oper. Res. 61(3):644–665.LinkGoogle Scholar
  • Casas-Liza J, Pinto JM, Papageorgiou LG (2005) Mixed integer optimization for cyclic scheduling of multiproduct plants under exponential performance decay. Chemical Engrg. Res. Design 83(10):1208–1217.CrossrefGoogle Scholar
  • Ciocan DF, Farias V (2012) Model predictive control for dynamic resource allocation. Math. Oper. Res. 37(3):501–525.LinkGoogle Scholar
  • Dusonchet F, Hongler MO (2003) Continuous-time restless bandit and dynamic scheduling for make-to-stock production. IEEE Trans. Robotics Automation 19(6):977–990.CrossrefGoogle Scholar
  • Federgruen A, Katalan Z (1996) The stochastic economic lot scheduling problem: Cyclical base-stock policies with idle times. Management Sci. 42(6):783–796.LinkGoogle Scholar
  • Grasman SE, Olsen TL, Birge JR (2008) Setting basestock levels in multi-product systems with setups and random yield. IIE Trans. 40(12):1158–1170.CrossrefGoogle Scholar
  • Hofmann J, Freier U, Wecks M, Hohmann S (2007) Degradation of diclofenac in water by heterogeneous catalytic oxidation with H2O2. Appl. Catalysis B Environ. 70(1–4):447–451.CrossrefGoogle Scholar
  • Jain V, Grossmann IE (1998) Cyclic scheduling of continuous parallel process units with decaying performance. AIChE J. 44(7):1623–1636.CrossrefGoogle Scholar
  • Keller N, Rebmann G, Keller V (2010) Catalysts, mechanisms and industrial processes for the dimethylcarbonate synthesis. J. Molecular Catalysis A: Chemical 317(1–2):1–18.CrossrefGoogle Scholar
  • Korovessi E, Linninger AA (2005) Batch Processes (CRC Press, Boca Raton, FL).CrossrefGoogle Scholar
  • Levi R, Shi C (2013) Approximation algorithms for the stochastic lot-sizing problem with order lead times. Oper. Res. 61(3):593–602.LinkGoogle Scholar
  • Liu S, Yahia A, Papageorgiou LG (2014) Optimal production and maintenance planning of biopharmaceutical manufacturing under performance decay. Indust. Engrg. Chemical Res. 53(44):17075–17091.CrossrefGoogle Scholar
  • Loehndorf N, Minner S (2013) Simulation optimization for the stochastic economic lot scheduling problem. IIE Trans. 45(7):796–810.CrossrefGoogle Scholar
  • Mazzola JB, McCardle KF (1996) A Bayesian approach to managing learning curve uncertainty. Management Sci. 42(5):680–692.LinkGoogle Scholar
  • Mills PL, Chaudhari RV (1997) Multiphase catalytic reactor engineering and design for pharmaceuticals and fine chemicals. Catalysis Today 37(4):367–404.CrossrefGoogle Scholar
  • Molnar-Perl I, Morvai M, Pinter-Szakacs M, Kovago A, Petroczy J (1990) Gas-liquid chromatographic assay of the components of electrochemically reduced glucose solutions: Impurities in sorbitol samples. J. Chromatography A 520:185–191.CrossrefGoogle Scholar
  • Papachristos S, Konstantaras I (2006) Economic ordering quantity models for items with imperfect quality. Internat. J. Prod. Econom. 100(1):148–154.CrossrefGoogle Scholar
  • Rajaram K, Karmarkar US (2002) Product cycling with uncertain yields: Analysis and application to the process industry. Oper. Res. 50(4):680–691.LinkGoogle Scholar
  • Rajaram K, Karmarkar US (2004) Campaign planning and scheduling for multiproduct batch operations with applications to the food-processing industry. Manufacturing Service Oper. Management 6(3):253–269.LinkGoogle Scholar
  • Rajaram K, Tian Z (2009) Buffer location and sizing to optimize cost and quality in semi-continuous manufacturing processes: Methodology and application. IIE Trans. 41(12):1035–1048.CrossrefGoogle Scholar
  • Rajaram K, Jaikumar R (posthumously), Behlau F, van Esch F, Heynen C, Kaiser R, Kuttner A, van de Wege I (1999) Robust process control at Cerestar’s refineries. Interfaces 29(1):30–48.LinkGoogle Scholar
  • Sakai T, Kawashima A, Koshikawa T (2009) Economic assessment of batch biodiesel production processes using homogeneous and heterogeneous alkali catalysts. Bioresource Tech. 100(13):3268–3276.CrossrefGoogle Scholar
  • Schwarz LB (2008) The economic order-quantity (EOQ) model. Chhajed D, Lowe TJ, eds. Building Intuition (Springer, New York), 135–154.CrossrefGoogle Scholar
  • Steinfeld JI, Francisco JS, Hase WL (1989) Chemical Kinetics and Dynamics, vol. 3 (Prentice Hall, Englewood Cliffs, NJ).Google Scholar
  • Vaughan TS (2007) Cyclical schedules vs. dynamic sequencing: Replenishment dynamics and inventory efficiency. Internat. J. Production Econom. 107(2):518–527.CrossrefGoogle Scholar
  • Vieira M, Pinto-Varela T, Barbosa-Póvoa AP (2017) Production and maintenance planning optimisation in biopharmaceutical processes under performance decay using a continuous-time formulation: A multi-objective approach. Comput. Chemical Engrg. 107:111–139.CrossrefGoogle Scholar
  • Wang J, Li X, Zhu X (2012) Intelligent dynamic control of stochastic economic lot scheduling by agent-based reinforcement learning. Internat. J. Prod. Res. 50(16):4381–4395.CrossrefGoogle Scholar
  • Weekman VW Jr (1968) Model of catalytic cracking conversion in fixed, moving, and fluid-bed reactors. Indust. Engrg Chemical Process Design Dev. 7(1):90–95.CrossrefGoogle Scholar
  • Winands EM, Adan IJ, Van Houtum GJ (2011) The stochastic economic lot scheduling problem: A survey. Eur. J. Oper. Res. 210(1):1–9.CrossrefGoogle Scholar
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