A cell formation algorithm incorporating multiple practical production factors

Numerous cell formation methods were designed to minimize the cost of the material flows between cells. However, most of them do not simultaneously take various production factors under consideration. In this paper, multiple key real-life production factors, namely production volume, batch size, alternative process routing and perfect coefficient of each routing, cell size, unit cost of intercell/intracell movement, and path coefficient of material flows are considered. Since the considering problem is NP-complete, a three-stage heuristic algorithm is developed to obtain the approximate solutions. The proposed algorithm comprise three stages: I) initially group the machines according to the alternative process routings of each part. 2) select the appropriate process routing of each part with respect to the over-all material movement cost, and 3) regularly form cells based on the chosen appropriate process routing. A simple numerical example and an industrial case are used to test the computational performance of the proposed algorithm. The test results imply that it is useful in generating cell configurations in both quality and speed.