![]() We show that these algorithms are not overly conservative and that, indeed, Banker's approach can provide very good operational flexibility when properly applied to the manufacturing environment. ![]() In this work, we investigate this issue by developing variants of Banker's algorithm applicable to buffer space allocation in flexible manufacturing. Manufacturing researchers have tended to dismiss Banker's algorithm as too conservative in the manufacturing environment where future resource requirements are well defined by part routes. The seminal deadlock avoidance procedure, Banker's algorithm, was developed for computer operating systems, an environment where very little information regarding the future resource requirements of executing processes is known. We show that these algorithms are not overly conservative and that, indeed, Banker's approach can provide very good operational flexibility when properly applied to the manufacturing environment.ĪB - Deadlock-free operation is essential for operating highly automated manufacturing systems. In this work, we investigate this issue by developing variants of Banker's algorithm applicable to buffer space allocation in flexible manufacturing. Any deadlock avoidance algorithm suffice, but, to make the description more concrete, the bankers algorithm 17 is used. N2 - Deadlock-free operation is essential for operating highly automated manufacturing systems. ![]() ![]() T1 - The Application and Evaluation of Banker's Algorithm for Deadlock-Free Buffer Space Allocation in Flexible Manufacturing SystemsĬopyright 2018 Elsevier B.V., All rights reserved. ![]()
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