本研究針對在電腦整合製造環境下的自動化物料搬運系統,在面對許多工件搬運需求發生時,無人搬運車(Automated Guided Vehicles; AGVs)應該先執行那個工件搬運需求問題做探討,首先探討無人搬運車的指派邏輯,針對推式策略(push strategy)和拉式策略(pull strategy)進行分析,再來是根據所定義之系統環境與運用的控制方法,利用eM-Plant分別建立軌道佈置和模擬實驗程式並進行模擬。最後,將模擬結果得到的數據資料,在推式策略下相對在拉式策略下的平均流程時間(Mean Flow Time)、產出量(Throughput)和最大完工時間(Makespan)三績效加以評估。並根據此結果證明拉式策略比推式策略有較好的表現,提供有效的AGV即時控制方法,以提升系統績效,使物料指派策略更符合經濟效益。
This research reports on a simulation of a computer-integrated manufacturing environment based on an automated material handling system (AMHS). Work pieces can be moved through the system by a push strategy or a pull strategy. Automated Guided Vehicles (AGVs) move the work pieces according to these two strategies. The simulation is made with eM-Plant and includes AGV path layout considerations. The simulation results are used to evaluate Mean Flow Time, Throughput, and Makespan under push and pull strategies. This research suggests an efficient real time AGV control method, thus performance of the production system can be elevated.
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