Abstract

This paper proposes an efficient approach for solving the buffer allocation problem with limited number of repair resources. In this problem, the objective is to maximize the throughput of a series production line through solving the buffer allocation optimization problem and electing the best repair polices. This is done using a simulation model to estimate the throughput combined with a self-adjusting search heuristic approach. The total count of repairmen is constrained to be strictly less than or equal to the count of repairable machines. Therefore, a self-adjusting search algorithm that is based on a nonlinear threshold accepting criterion is employed to reach the best production line configurations in terms of the buffer-levels and repair policies. The effectiveness of the combined simulation-search solution mechanism is tested using three different scenarios with 8 different repair policies. The numerical results showed that not only the proposed approach can find a near optimal solution in a limited and acceptable time, but also the overall production system performance can be improved by selecting the best repair policy.

Article history: Received (March 12, 2022); Revised (October 14, 2022); Accepted (October 25, 2022); Published online (November 14, 2022)