Saved in:
Bibliographic Details
Main Authors: Khorramfar, Rahman, Ozaltin, Osman, Uzsoy, Reha, Kempf, Karl
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2401.17402
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866929229179912192
author Khorramfar, Rahman
Ozaltin, Osman
Uzsoy, Reha
Kempf, Karl
author_facet Khorramfar, Rahman
Ozaltin, Osman
Uzsoy, Reha
Kempf, Karl
contents We study the management of product transitions in a semiconductor manufacturing firm that requires the coordination of resource allocation decisions by multiple, autonomous Product Divisions using a multi-follower bilevel model to capture the hierarchical and decentralized nature of this decision process. Corporate management, acting as the leader, seeks to maximize the firm's total profit over a finite horizon. The followers consist of multiple Product Divisions that must share manufacturing and engineering resources to develop, produce and sell products in the market. Each Product Division needs engineering capacity to develop new products, and factory capacity to produce products for sale while also producing the prototypes and samples needed for the product development process. We model this interdependency between Product Divisions as a generalized Nash equilibrium problem at the lower level and propose a reformulation where Corporate Management acts as the leader to coordinate the resource allocation decisions. We then derive an equivalent single-level reformulation and develop a cut-and-column generation algorithm. Extensive computational experiments evaluate the performance of the algorithm and provide managerial insights on how key parameters and the distribution of decision authority affect system performance.
format Preprint
id arxiv_https___arxiv_org_abs_2401_17402
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Coordinating Resource Allocation during Product Transitions Using a Multifollower Bilevel Programming Model
Khorramfar, Rahman
Ozaltin, Osman
Uzsoy, Reha
Kempf, Karl
Theoretical Economics
We study the management of product transitions in a semiconductor manufacturing firm that requires the coordination of resource allocation decisions by multiple, autonomous Product Divisions using a multi-follower bilevel model to capture the hierarchical and decentralized nature of this decision process. Corporate management, acting as the leader, seeks to maximize the firm's total profit over a finite horizon. The followers consist of multiple Product Divisions that must share manufacturing and engineering resources to develop, produce and sell products in the market. Each Product Division needs engineering capacity to develop new products, and factory capacity to produce products for sale while also producing the prototypes and samples needed for the product development process. We model this interdependency between Product Divisions as a generalized Nash equilibrium problem at the lower level and propose a reformulation where Corporate Management acts as the leader to coordinate the resource allocation decisions. We then derive an equivalent single-level reformulation and develop a cut-and-column generation algorithm. Extensive computational experiments evaluate the performance of the algorithm and provide managerial insights on how key parameters and the distribution of decision authority affect system performance.
title Coordinating Resource Allocation during Product Transitions Using a Multifollower Bilevel Programming Model
topic Theoretical Economics
url https://arxiv.org/abs/2401.17402