Article ID: | iaor20123126 |
Volume: | 40 |
Issue: | 6 |
Start Page Number: | 774 |
End Page Number: | 781 |
Publication Date: | Dec 2012 |
Journal: | Omega |
Authors: | Jeang Angus |
Keywords: | management, design, production, combinatorial optimization |
The purpose of this study is to combine production‐inventory management with process‐quality design for determining production lot size and process parameters under the possibility of process deterioration and breakdown. The total cost of such an integrated model includes: the combined setup cost (production setup and process resetting), the costs of quality loss, tolerance and mean costs for processes established, a penalty cost for process breakdown and carrying costs for cumulated inventory. The quadratic quality loss function is introduced to assess quality loss within the system. Decision variables include the initial setting (process mean) and process tolerance for process parameters determination, and production lot size for production‐inventory management. The cycle time for production‐inventory management is assumed to be the same as the resetting cycle for the new process‐quality system. The contribution of this study lies in its development of an integrated model that enables process parameters, production lot size, and cycle time to be determined concurrently for quality and economic considerations, and at an earlier time in the process design and production management stage. An example is presented to demonstrate the proposed model.