Title :
A knowledge-based system for stacker crane control in a manufacturing environment
Author :
Matsuo, Hirofumi ; Shang, Jen S. ; Sullivan, Robert S.
Author_Institution :
Texas Univ., Austin, TX, USA
Abstract :
A knowledge-based intelligent crane scheduling (INCS) system is developed for controlling a stacker crane in a CIM environment where PCBs are made. INCS involves two types of rules, one for cyclic scheduling, which is shown to be near optimal if there is no machine breakdown, and another for handling machine breakdowns, which adjusts the cyclic schedule to real-time disturbances. After briefly reviewing the literature on knowledge-based systems for manufacturing, the authors describe the problem environment. A framework is used to develop not only INCS but also several other knowledge-based systems that use dispatching rules in place of cyclic schedule. The knowledge-based systems are tested by using data from an existing CIM environment, the feasibility and superiority of INCS are demonstrated, and its advantages and disadvantages are discussed
Keywords :
computerised materials handling; cranes; knowledge based systems; scheduling; CIM; IKBS; PCBs; cyclic scheduling; dispatching rules; intelligent crane scheduling; knowledge-based system; machine breakdowns; manufacturing environment; stacker crane control; Computer aided manufacturing; Computer integrated manufacturing; Control systems; Cranes; Electric breakdown; Job shop scheduling; Knowledge based systems; Printed circuits; Processor scheduling; Throughput;
Journal_Title :
Systems, Man and Cybernetics, IEEE Transactions on
