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Optimal Sizing and Timing of Modular Capacity Expansions

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  • Porteus, Evan L.

    (Stanford U)

  • Angelus, Alexandar

    (Strategic Decision Group)

  • Wood, Samuel C.

    (Stanford U)

Abstract

We build a discrete time, serially correlated stochastic demand, nonstationary, finite horizon, capacity expansion model that includes (1) economies of scale in capacity costs, (2) positive expansion leadtimes, and (3) a fixed maximum cumulative capacity, called the shell size. When the shell size is finite, we have what is called the modular approach to capacity expansion, in which a shell is built along with the first module, and additional modules (of varying sizes) can be added at less cost than entire new plants of their respective sizes. (When the shell size is infinite, we have the traditional approach in which every expansion is a new plant.) We show that an (s, S) expansion point, expansion level, policy is optimal: Capacity is expanded to S if and only if the initial level is below s. These parameters depend on the period, the last observed demand, and the shell size. We also show that the optimal value of the enterprise is a convex decreasing function of the lump-sum cost incurred at the time of each expansion. We illustrate the model with a numerical example taken from semiconductor manufacturing.

Suggested Citation

  • Porteus, Evan L. & Angelus, Alexandar & Wood, Samuel C., 2000. "Optimal Sizing and Timing of Modular Capacity Expansions," Research Papers 1479r2, Stanford University, Graduate School of Business.
    • Handle: RePEc:ecl:stabus:1479r2
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    References listed on IDEAS

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    Cited by:

    1. Torres-Rincón, Samuel & Sánchez-Silva, Mauricio & Bastidas-Arteaga, Emilio, 2021. "A multistage stochastic program for the design and management of flexible infrastructure networks," Reliability Engineering and System Safety, Elsevier, vol. 210(C).
    2. Alexandar Angelus & Evan L. Porteus, 2002. "Simultaneous Capacity and Production Management of Short-Life-Cycle, Produce-to-Stock Goods Under Stochastic Demand," Management Science, INFORMS, vol. 48(3), pages 399-413, March.
    3. Sarah M. Ryan, 2004. "Capacity Expansion for Random Exponential Demand Growth with Lead Times," Management Science, INFORMS, vol. 50(6), pages 740-748, June.
    4. Poretus, Evan L. & Angelus, Alexander, 2000. "Simultaneous Production and Capacity Management under Stochastic Demand for Perishable Goods," Research Papers 1419r, Stanford University, Graduate School of Business.
    5. Sarah M. Ryan, 2003. "Capacity expansion with lead times and autocorrelated random demand," Naval Research Logistics (NRL), John Wiley & Sons, vol. 50(2), pages 167-183, March.
    6. Golmohammadi, Amirmohsen & Hassini, Elkafi, 2019. "Capacity, pricing and production under supply and demand uncertainties with an application in agriculture," European Journal of Operational Research, Elsevier, vol. 275(3), pages 1037-1049.
    7. Alexandar Angelus & Evan L. Porteus, 2008. "An Asset Assembly Problem," Operations Research, INFORMS, vol. 56(3), pages 665-680, June.

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