工业工程
工業工程
공업공정
INDUSTRIAL ENGINEERING JOURNAL
2014年
5期
85-91
,共7页
张惠煜%康伟成%毛宁%陈庆新
張惠煜%康偉成%毛寧%陳慶新
장혜욱%강위성%모저%진경신
定制生产系统%柔性流水车间%缓冲配置问题%状态空间分解%扩展法
定製生產繫統%柔性流水車間%緩遲配置問題%狀態空間分解%擴展法
정제생산계통%유성류수차간%완충배치문제%상태공간분해%확전법
customized manufacturing%flexible flow shop(FFS)%buffer allocation problem (BAP)%de-composition of state space%expansion method
针对定制型装备制造企业中具有有限缓冲区的开排队网制造单元,其车间负荷界限即缓冲设置难以确定的问题( buffer allocation problem ,BAP),文章对每阶段具有有限缓冲区且含有多台加工设备的三阶段柔性流水车间( flexi-ble flow shop,FFS)进行排队网建模,应用状态空间分解法对该模型进行分析求解,获得系统的一系列性能指标值。为了对该方法的有效性进行验证,对该模型设计仿真实验,并利用扩展法对模型进行求解,将数值结果进行比较分析,验证了利用该方法对FFS缓冲区进行优化配置的合理性,这对较大规模的多节点每阶段具有多台设备的流水车间负荷界限的有效设定及其规划具有参考和指导意义。
針對定製型裝備製造企業中具有有限緩遲區的開排隊網製造單元,其車間負荷界限即緩遲設置難以確定的問題( buffer allocation problem ,BAP),文章對每階段具有有限緩遲區且含有多檯加工設備的三階段柔性流水車間( flexi-ble flow shop,FFS)進行排隊網建模,應用狀態空間分解法對該模型進行分析求解,穫得繫統的一繫列性能指標值。為瞭對該方法的有效性進行驗證,對該模型設計倣真實驗,併利用擴展法對模型進行求解,將數值結果進行比較分析,驗證瞭利用該方法對FFS緩遲區進行優化配置的閤理性,這對較大規模的多節點每階段具有多檯設備的流水車間負荷界限的有效設定及其規劃具有參攷和指導意義。
침대정제형장비제조기업중구유유한완충구적개배대망제조단원,기차간부하계한즉완충설치난이학정적문제( buffer allocation problem ,BAP),문장대매계단구유유한완충구차함유다태가공설비적삼계단유성류수차간( flexi-ble flow shop,FFS)진행배대망건모,응용상태공간분해법대해모형진행분석구해,획득계통적일계렬성능지표치。위료대해방법적유효성진행험증,대해모형설계방진실험,병이용확전법대모형진행구해,장수치결과진행비교분석,험증료이용해방법대FFS완충구진행우화배치적합이성,저대교대규모적다절점매계단구유다태설비적류수차간부하계한적유효설정급기규화구유삼고화지도의의。
The workload problem, namely the buffer allocation problem (BAP), is complex, which exists in the open queuing network of customized equipment manufacturing enterprises with finite buffer .A queu-ing network model is proposed for a three-stage flexible flow shop where every stage has a finite buffer .To solve this queuing network model , a decomposition of state space method is proposed .With solving the state space equations , a series of system performance values are obtained .To test the validity of this meth-od proposed , a simulation experiment is designed and an extended method is used to solve the problem re-spectively .By comparing the results solved by this three methods , the decomposition of state space method has proved rational , which will provide guidance and reference for the design and schedule of workload control in the large-scale flow shop with multistage and multiservice in each stage .