Abstract
We analyze a continuous-time, two-stage production/inventory system In the first stage, a common intermediate product is produced in batches, and possibly stored. In the second phase, the intermediate product is fabricated into n distinct finished products Several finished products may be included in a single production batch of limited capacity to exploit economies of scale. We propose a planning methodology to address the combined problem of joint setup costs and capacity limits (per setup). We restrict ourselves to a class of replenishment strategies with the following properties a replenishment strategy specifies a collection of families (subsets of items) covering all end-items, if an item belongs to several families a specific fraction of its sales is assigned to each family Each time the inventory of one item in a family is replenished, the inventories of all other items in the family are replenished as well. We derive a simple (roughly 0(n log n)) algorithm that results in a strategy whose long-run average cost comes within a few percentage points of a lower bound for the minimum achievable cost (within the above class of strategies).
Original language | English |
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Pages (from-to) | 443-455 |
Number of pages | 13 |
Journal | Operations Research |
Volume | 39 |
Issue number | 3 |
DOIs | |
State | Published - 1 May 1991 |
Keywords
- Inventories
- System analysis
- Algorithms
- Production engineering
- Inventory control
- Manufacturing processes
- Industrial engineering
- Mechanical engineering