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0外文资料翻译院系专业学生姓名班级学号外文出处WWWSCIENCEDIRECTCOM附件1外文资料翻译译文(约3000汉字);2外文资料原文与课题相关的1万印刷符号左右。指导教师评语指导教师签名年月日1外文文献GRAPHICALBASEDMULTISTAGESCHEDULINGMETHODFORRCBUILDINGSYCHUANGDEPARTMENTOFCONSTRUCTIONMANAGEMENT,HWAHSIAINSTITUTEOFTECHNOLOGYANDCOMMERCE,111HWAHSINSTREET,CHUNGHOCITY,TAIPEIHSIEN,TAIWAN,REPUBLICOFCHINARECEIVED13FEBRUARY2004ACCEPTED4MARCH2005INTAIWAN,CONTRACTORSAREBECOMINGSPECIALIZEDINCERTAINTYPESOFCONSTRUCTIONINANINCREASINGLYCOMPETITIVEENVIRONMENTANDTHISSPECIALIZATIONREQUIRESSOMESCHEDULINGMODELSTOPROVIDEBETTERSCHEDULINGRESULTSFOREACHTYPEOFCONSTRUCTIONANEWPRACTICALMETHOD,GRAPHICALBASEDMULTISTAGESCHEDULINGMETHODGMSM,FORSCHEDULINGRCBUILDINGSUPERSTRUCTURESISPRESENTEDHEREINFROMTHEANALYSISOFCHARACTERISTICSANDCONSTRUCTIONCUSTOMOFRCBUILDINGS,FOURCONSTRAINTS,ADOWNUPCONSTRUCTION,BBUILDINGINSPECTION,CREUSEOFBEAMFORMS,ANDDREUSEOFSLABFORMS,CANBEESTABLISHEDTHEGMSMISDEVELOPEDUTILIZINGAGRAPHICALBASEDMETHODANDTHECONCEPTOFRESOURCEREUSE,ANDTHEGENERALFORMOFTHEGMSMTOBEFACILELYIMPLEMENTEDINANYWORKSHEETSOFTWAREISDERIVEDASWELLTHERESULTSOFTHISSTUDYPROVIDESOMEQUANTITATIVEINFORMATIONASAUSEFULGUIDEFORSCHEDULINGRCBUILDINGSUPERSTRUCTURESKEYWORDSMULTISTAGESCHEDULING,REPETITIVEPROJECT,RCBUILDING,GMSMINTRODUCTIONINTAIWAN,CONTRACTORSAREBECOMINGSPECIALIZEDINCERTAINTYPESOFCONSTRUCTIONINANINCREASINGLYCOMPETITIVEENVIRONMENTANDTHISSPECIALIZATIONREQUIRESSOMESCHEDULINGMODELSTOPROVIDEABETTERSCHEDULINGFOREACHTYPEOFCONSTRUCTIONTHEMAJORITYOFHIGHRISEBUILDINGSLOCATEDINURBANAREASINTAIWANARERCSTRUCTURESITISDEEMEDCRUCIALFORHIGHRISEBUILDINGSTHATASCHEDULINGMODELFORTHISTYPEOFCONSTRUCTIONCANNOTONLYINCREASEPROFITSBUTALSOREDUCETHEIMPACTONURBANTRAFFICOFTHEHIGHRISEBUILDINGSCONSTRUCTEDTODATE,THENETWORKPLANNINGTECHNIQUEHASBEEN2COMMONLYADOPTEDINSCHEDULINGTHECRITICALPATHMETHODCPMISTHEMOSTPOPULARONEFORINSTANCE,PREVALENTSCHEDULINGSOFTWARESUCHASMSPROJECT,PRIMAVERAPROJECTPLANNER,ETC,WEREDEVELOPEDBASEDONCPMHOWEVER,ASSUMINGTHATALLACTIVITIESAREINDEPENDENT,THECPMDOESNOTTAKEINTOCONSIDERATIONTHERESOURCEREUSEWHERETHEREISREPETITIONOFIDENTICALACTIVITIESONEVERYFLOOROBRIEN1975PROPOSEDTHATHIGHRISEBUILDINGBEDIVIDEDINTOTWOCATEGORIES1NONREPETITIVEWORKS,SUCHASEARTHWORKS,FOUNDATIONS,ANDNONTYPICALFLOORPLANSAND2REPETITIVEWORKS,SUCHASSUPERSTRUCTURESWITHSTANDARDFLOORDESIGNSINTHEFORMERCATEGORY,CPMISUTILIZEDTOEXECUTESCHEDULINGFORTHELATTER,ASCHEDULINGMODELSUITABLEFORREPETITIVECONSTRUCTIONHASTOBEDEVELOPEDREDA1990ANDCOLE1991ALSODEMONSTRATEDTHENECESSITYOFSCHEDULINGFORREPETITIVEPROJECTSTHISSTUDY,ACCORDINGTOOBRIENSSUGGESTION,ISTODEVELOPAGRAPHICALBASEDSCHEDULINGMETHODAPPLICABLETOREPETITIVEPROJECTSOFRCBUILDINGSUPERSTRUCTURESSOTHATTHEMOSTPOPULARLYPRACTICEDCONSTRUCTIONMETHODINTAIWAN,SITECASTCONCRETESTRUCTURESWITHWOODENFORMS,MAYBEINLINEWITHITLITERATUREREVIEWSTHETHEORETICALSCHEDULINGAPPROACHOFREPETITIVEPROJECTSISBASEDONTHEPRINCIPLEOFASSEMBLYLINEBALANCE,INWHICHTHEREARETWOPREMISES1WORKCONTINUITYFOREACHACTIVITYFROMONEUNITTOTHENEXT,AND2APPROPRIATENESSFORTHELOWERBOUNDLIMITOFCONSTRUCTIONINTERVALSBETWEENADJACENTACTIVITIESWITHINTHESAMEUNITTHEPRINCIPALMETHODSFORREPETITIVESCHEDULINGARETHELINEOFBALANCELOBMETHODANDTHELINEARSCHEDULINGMETHODLSMTHEDIFFERENCEBETWEENTHEMISTHATTHEDURATIONBETWEENUNITSHAVINGIDENTICALACTIVITIESISASSUMEDASACONSTANTFORLOBMETHOD,ANDVARIABLEFORLSMMOSELHIANDKHALED,1993INRECENTDECADES,FORTHESCHEDULINGOFREPETITIVEPROJECTS,ANUMBEROFMETHODOLOGIESHAVEBEENDEVELOPED,SUCHASLINEARPROGRAMMINGHANDAANDBARCIA,1986REDA,1990RPMRUSSELLANDCASELTON,1998,DYNAMICPROGRAMMINGSELINGER,1980RUSSELLANDCASELTON,1988ELDINANDSENOUCI,1994SENOUCANDELDIN,1996ELRAYESANDMOSELHI,2001,SIMULATIONHALPIN,1977CYCLONEASHLEY,1980KAVANAGH,1985SIRENABOURIZKANDHALPIN,1990LUTZETAL,1994CHEHAYEBANDABOURIZK,1998SHIANDABOURIZK,1998,NEURAL3NETWORKADELIANDKARIM,1997,ANDGENETICALGORITHMSHEGAZYANDWASSEF,2001LEUANDHWANG,2001THECOMMONASSUMPTIONOFTHEABOVEMENTIONEDSTUDIESISTHEWORKCONTINUITYFOREACHACTIVITYFROMONEUNITTOTHENEXT,ORTHEWORKCONTINUITYONPARTIALUNITSWANGANDHUANG1998PRESENTEDAMULTISTAGELINEARSCHEDULINGMLSMETHODTOTACKLETHEPROBLEMOFADJACENTACTIVITIESOFTHESAMEUNITRESTRICTEDBYANUPPERLIMITOFTHEINTERVALTIMEITHASBEENFOUNDFROMTHEMLSMETHODTHATTHEINTERVALBETWEENTHESTARTTIMESFORADJACENTUNITSATLEASTEQUALSTHELONGESTDURATIONAMONGALLACTIVITIESINAUNITMOREOVER,SOMESCHEDULINGMETHODSFORHIGHRISEBUILDINGSHAVEBEENPRESENTEDOBRIEN1975PRESENTEDTHEVERTICALPRODUCTIONMETHODVPM,ADOPTINGTHECONCEPTOFANASSEMBLYLINEWITHAPREDETERMINEDPROGRESSRATEOFEACHACTIVITYAGRAPHICALTECHNIQUEWASINCORPORATEDTOINSPECTEACHACTIVITYWITHREGARDTOWHETHERTHECONSTRUCTIONLOGICISACHIEVEDORNOTTHABETANDBELIVEAU1994ANALYZEDTHESTARTTIMEOFEACHACTIVITYWITHINAUNIT,ANDESTABLISHEDAHORIZONTALANDVERTICALLOGICSCHEDULINGHVLSPROCEDURETOMANAGEBOTHHORIZONTALANDVERTICALCONSTRAINTSINHIGHRISEBUILDINGTHISSCHEDULINGPROCEDURECANBEIMPLEMENTEDBASEDONCRITICALFLOORS,DETERMINEDBYHORIZONTALAND/ORVERTICALCONSTRAINTSASSPECIFIEDBYTHEUSERSINADDITION,THABETANDBELIVEAU1997USEDAKNOWLEDGEBASEDSYSTEMTOADJUSTTHEHVLSPROCEDURESOTHATITWOULDSATISFYTHECONSTRAINTSOFFIELDSPACEANDUSEFULRESOURCESNEVERTHELESS,ASTHESEMODELSSATISFYTHEASSUMPTIONOFCONTINUOU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,(一)顺序施工(二)建设检验(三)梁模板的反复利用,以及(四)板模板的反复利用,可以被建立。由于GMSM被开发利用是基于图解的方法和资源再利用的概念,也就可以推得,一般形式的GMSM可以轻松的运用于任何软件。这项研究的结果为有效的指导钢筋混凝土建筑物上层建筑的施工提供了一些定量的信息。关键词多级施工计划,重复工序,钢筋混凝土建筑,GMSM说明在台湾,日益激烈的竞争环境使得承建商倾向专注于某些特定类型的建设,并且这种专业化需要一些计划模型为不同类型的建设提供更好的组织成果。在台湾,位于市区的高层建筑大部分是钢筋混凝土结构。对于高层建筑这种建筑类型的利用是非常受到重视的,它不仅可以增加利润,而且可以减少对城市交通的影响。对于安排高层建筑的施工日期,网络计划技术已经普遍被采用。关键路径法(CPM)是最流行的一种,例如,MSPROJECT,PRIMAVER计划软件等,都是基于关键线路法。然而,假设,所有活动都是独立的,当在每一层楼有重复相同的活动时,关键线路法不会考虑资源的反复利用。OBRIEN(1975)提出,高层建筑施工工序被分为两类(1)非重复性工程,如土方工程,基础工程,非标准平面层工程(2)重复性工程,如基于标准层设计的上层建筑。在前一类,关键线路法被用来执行计划。对于后者,适于反复施工的计划模型,尚有待开发。香港地产建设商会(1990)和COLE(1991)也证明了重复施工计划的必要性。这项研究中,根据OBRIEN的建议,是开发一个基于图解的施工计划,适用于钢筋混9凝土建筑上层建筑的重复工序。因此,在台湾,利用木模板施工现浇混凝土结构最普遍实用的施工方法,应该能和它建立联系。文献综述理论分析重复工序施工计划法是基于“流水作业”的原则,其中有两个前提(1)从一个施工段到下一个施工段的每一项工序都是连续的,和(2)同一施工段内的相邻工作之间的间隔时间的限制是适当的。重复施工计划的原则性方法是平衡线(LOB)法和线性计划法(LSM)。它们之间的区别是,具有相同工序的施工段之间的持续时间,对于平衡线法是不变的,而对于线性计划法是可变的。(MOSELHI哈立德,1993年)近几十年来,重复工序的施工计划方法已被大量开发,如线性规划法(HANDAANDBARCIA,1986年香港地产建设商会,1990RPMRUSSELLANDCASELTON,线性规划,1998年),动态计划(SELINGER,1980年RUSSELLANDCASELTON,1988ELDINANDSENOUCI,1994年SENOUC和ELDIN,1996年ELRAYES和MOSELHI,2001年),模拟法(HALPIN,1977年(CYCLONE)ASHLEY,1980KAVANAGH,1985(SIREN)ABOURIZK和HALPIN,1990年LUTZ等,1994CHEHAYEB和ABOURIZK,1998年SHI与ABOURIZK,1998年),神经网法ADELI和KARIM1997),遗传算法(HEGAZY和WASSEF,2001年LEUANDHWANG,2001)。上述研究的共同假设是每个活动从一个施工段到另一施工段工作是连续的,或局部施工段工作是连续的。WANG和HUANG(1998)提出了多级线性计划(MLS)的方法来解决被间隔时间上限限制的同一施工段相邻的工序的安排问题。基于多级线性计划可以发现,相邻工序的开始间隔时间最少等于这个施工段上最长的工序持续时间。此外,一些高层建筑的施工计划方法已提出。OBRIEN(1975)提出的垂直生产法(VPM),采取一个每项工序具有既定施工速度的流水作业线概念。一种利用图解技术检验每项工序是否符合施工逻辑。THABET和BELIVEAU(1994)通过分析了一个施工段每一个工序的开始时间,并建立了一个水平和垂直逻辑计划(HVLS)来管理在高层建筑的水平和垂直约束。这种计划安排可以基于关键层被应用,并由用户指定的水平和/或垂直的限制决定。此外,THABET和BELIVEAU(1997)以知识系统程序来调整水平和垂直逻辑计划的过程,因此,它将满足施工面和有用资源的约束。当这些模型满足楼层上相同工序的连续性假设时,它们就被用于钢结构或型钢混凝土结构。然而本文的目的是提出一个可用于钢筋混凝土多层建筑物的施工计划模型。这个基于图解方法的计划模型是基于纯数学方法计算出的可利用资源的概念来确定每层钢筋混凝10土建筑物的开始时间。下面将阐述GMSM详细的假设和公式。假设和约束条件假设基于GMSM的假设,通过分析钢筋混凝土建筑上层建筑的施工定制和特点,推导,总结如下(1)每一楼层每项工作的连续性保持不变。(2)任一楼层任何工作必须等到前一楼层相同工作结束才能开始。(3)在不同楼层的每个工序的持续时间应是恒定的并且(4)每层楼的施工方法应保持相同。由于模板工人和钢筋工人这两大类劳工在台湾是钢筋混凝土建筑上层建筑施工的主要工
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