Designing an Optimal Two-Bin Strategy for Selling Perishable Produce to Responsible and Mainstream Buyers

Designing an Optimal Two-Bin Strategy for Selling Perishable Produce to Responsible and Mainstream Buyers

Upstream produce vendors in supply chains are paying attention to the possibility of supplying goods to downstream buyers that strive to source responsibly. We explore a problem-the application of a two-bin strategy by vendors to sell produce to responsible buyers (RBs) and mainstream buyers (MBs)....

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Veröffentlicht in:IEEE transactions on engineering management 2024, Vol.71, p.2089-2102
Hauptverfasser: Chen, Li-Ming, Yang, Shu-Jung Sunny
Format: Artikel
Sprache:eng
Schlagworte:
Biological system modeling
Business
Buyers
Contracts
Decisions
Dynamic programming
Inventory control
joint replenishment and price decisions
Mathematical models
Oils
Perishable goods
Prices
Procurement
Replenishment
responsible operations
Safety
Shelf life
Supply chains
two-bin strategy
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Yang, Shu-Jung Sunny
description Upstream produce vendors in supply chains are paying attention to the possibility of supplying goods to downstream buyers that strive to source responsibly. We explore a problem-the application of a two-bin strategy by vendors to sell produce to responsible buyers (RBs) and mainstream buyers (MBs). In this strategy, goods in the primary bin are supplied to an RB, which procures stable quantities of goods and provides fair procurement prices; goods in the secondary bin are supplied to MBs, which are price sensitive. We investigate a vendor's joint decisions regarding the primary bin replenishment quantity and selling price of goods in the secondary bin for short shelf life and long shelf life produce. For short shelf life produce, we formulate stylized newsvendorlike models and identify the vendor's optimal joint replenishment-price decisions, which are irrelevant to any surplus. For long shelf life produce, we formulate periodic-review dynamic programming models and characterize the solution structure of joint decisions, which depend on the surplus quantity in the secondary bin; the joint decisions are reduced by an increase in the surplus, and when surpluses become sufficiently large, the primary bin replenishment quantity is fixed. We numerically discover that the optimized primary bin replenishment quantity leads to an average profit improvement of 1.5% and that the optimized selling price in the secondary bin results in another 0.25% gain. Furthermore, relative to the sales of produce to only MBs, the supply of goods to an RB can at least double a vendor's profits.
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For long shelf life produce, we formulate periodic-review dynamic programming models and characterize the solution structure of joint decisions, which depend on the surplus quantity in the secondary bin; the joint decisions are reduced by an increase in the surplus, and when surpluses become sufficiently large, the primary bin replenishment quantity is fixed. We numerically discover that the optimized primary bin replenishment quantity leads to an average profit improvement of 1.5% and that the optimized selling price in the secondary bin results in another 0.25% gain. 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For long shelf life produce, we formulate periodic-review dynamic programming models and characterize the solution structure of joint decisions, which depend on the surplus quantity in the secondary bin; the joint decisions are reduced by an increase in the surplus, and when surpluses become sufficiently large, the primary bin replenishment quantity is fixed. We numerically discover that the optimized primary bin replenishment quantity leads to an average profit improvement of 1.5% and that the optimized selling price in the secondary bin results in another 0.25% gain. 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subjects Biological system modeling
Business
Buyers
Contracts
Decisions
Dynamic programming
Inventory control
joint replenishment and price decisions
Mathematical models
Oils
Perishable goods
Prices
Procurement
Replenishment
responsible operations
Safety
Shelf life
Supply chains
two-bin strategy
title Designing an Optimal Two-Bin Strategy for Selling Perishable Produce to Responsible and Mainstream Buyers
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