本研究探討用分支定界法求解零工式生產排程的問題,其環境具有批量生產與時間延遲之限制特性,批量生產為機台上指定之作業可以被批量加工。而等候時間延滯上的限制中,因考量到批量機台的加工,故當作業從前一個工作站離開後,該作業不需要等待最小的時間,可以直接進入下個工作站,但仍需要在一定的時間之內抵達下一個工作站。 因此時間延滯上的限制需要考慮到當工件抵達機台上可以開始被加工的時間,再加上指定機台具有批量生產之功能,希望藉由批量生產來減少所需的完工時間。為了解決以上研究內容中提出的限制問題,我們將在本研究中發展一分支定界的演算法,並加入批量生產的限制,目標為在此環境下能夠得到最小的完工時間。 ;The main purpose of this research is to discuss a branch and bound algorithm for job shop problem with a batch machine and time-lags, the environment have the batches and the time lags, batch processing of machine indicated on the workpiece can be batch processing, and waiting time constraints, when after the completion of the artifacts used workstation, over a period of time is needed to enter to the next station for processing, and the workpiece must wait for a certain minimum time, at the same time wait for no more than a certain time. Therefore, the waiting time limit needs to take into account the time that each workpiece can start processing. In addition, some limited machines have the capacity of mass production. It is hoped that by batch processing, the required completion time can be reduced. To solve this problem, we will develop a branch and bound algorithm, and the objective is minimize the maximum makespan.
