文献检索报告—贺映兰

《文献检索》课程论文姓名分数备注深水海底管道铺设技术研究进展1203010533xx1203010441xx任课教师：贺映兰阅卷老师签字：完成日期：二〇一五年一月四日评分项目满分得分文本格式规范15%应用检索原理检索方法情况20%检索文献的范围和类型20%参考文献的引用和著录规范10%结论的准确性25%各小组成员在课题完成中担负的责任大小5%课题组成员系数5%2《文献检索》课专题综述选题申报表拟选专题综述题目深水海底管道铺设技术研究进展题目属性□教师指定√自选课题组成员及分工情况(课题组成员不得超过3人)姓名性别学号课题内分工xx男1203010533课题分析，课题负责人xx男1203010441检索文献，资料分析，课题报告联系人电话注：课题内分工，指课题组成员拟承担的主要工作，如：分析课题要求、检索文献、获取原文、资料综合与分析、执笔写作、课题报告最后陈述人、课题总负责人，等。3目录1.课题分析.....................................................................................................................42检索策略.....................................................................................................................42.1选择检索工具................................................................................................42.2选择检索词....................................................................................................43.检索步骤、检索结果及其评价...............................................................................43.1IEEE..................................................................................................................53.2超星数字图书馆..............................................................................................83.3图书馆统一搜索平台（图书）......................................................................93.4中国期刊全文数据库(CNKI)......................................................................103.5国外石油文献数据库....................................................................................174.文献综述...................................................................................................................195.自我评价...................................................................................................................246．附件........................................................................................................................2541.课题分析海底管道是海洋油气资源开发的生命线,对海底石油和天然气的生产和外输起着关键性的作用。由于深水海洋环境十分恶劣,海底管道同时受到弯矩、轴向拉力和静水压力的共同作用,其安全性受到很大的挑战,因此开展深水海底管道铺设施工工艺和铺管形态的研究显得尤为重要。深水海底管道铺设有四种方法:拖曳式铺管法、S型铺管法、J型铺管法和卷管式铺管法。2检索策略2.1选择检索工具检索工具名称访问方式检索年代文献类型超星数字图书馆不限图书图书馆统一搜索平台不限期刊、学位论文、会议论文、专利国外石油文献数据库不限文献2.2选择检索词从课题字面选从课题内涵选（同义词、近义词、上下位词）深水海底海洋、海底、深海、铺管船铺设技术安装技术研究进展发展状况3.检索步骤、检索结果及其评价4.Deepwaterpipelinelayingtechnologyresearch53.1IEEE序号检索策略检索结果检索评价1Deepwaterpipelinelayingtechnology3条相关性差2Submarinepipelinelaying8条相关性差3Deepwaterpipelinelaying3条相关率33.3%4Theunderwaterpipeline241条相关性差5Pipelinelaying231条相关性一般6thestudyofPipelinelaying41条相关性级差从序号3中选出1篇Title:ATensionerSystemforaDeepwaterPipelayingVesselmainpoints:Toensurethesafetyofpipelineinthelayingprocess,atensionersystemforapipelayingvesselwasdesignedtorealizetheconstantcontroltopipeline.Thetensionerusestwotrackstoclampingpipeline,hydraulicsystemtodriveuppertrack,ACservomotortosendthepipelineintothesea.Inthisdesign,asthecriticalcomponentofthetensioner,trackshoewasdesigned;furthermoreitsstrengthanddeformationareanalyzed.Inthehydraulicsystem,afterdeterminingtheparameterofallelements,thehydrauliccylindersonthestageoffast-forward,press,pressuremaintaining,quickreturn,andsynchronismwereemulated.Theresultshowedthattheuppertrackwasstablyandtheclampingtensionwasinvariable.Indrivingsystem,fuzzycontrollerwasadoptedtocontrolACservomotortooutputconstanttension.Accordingtosimulationanalysis,theresultshowed,duringtheworkingperiodoflayingpipeline,thepipelinekepttheconstanttension.Publishedin:MeasuringTechnologyandMechatronicsAutomation,2009.ICMTMA'09.InternationalConferenceon(Volume:2)DateofConference:11-12April2009Page(s):636-39PrintISBN:978-0-7695-3583-8INSPECAccessionNumber:10835104ConferenceLocation:Zhangjiajie,HunanDOI:10.1109/ICMTMA.2009.488Publisher:IEEE从序号4中选出1篇Title:Roboticsvision-basedsystemforanunderwaterpipelineandcabletrackermainpoints:Thispaperpresentsaroboticsvision-basedsystemforanunderwaterpipelineandcabletracker.Thissystemisintroducedtoimprovethelevelofautomationofunderwaterremoteoperatedvehicles(ROVs)operationswhichcombinescomputervisionwithanunderwaterroboticssystemtoperformtargettrackingandintelligentnavigation.Thisstudyfocusesondevelopingimageprocessingalgorithmsandnonlinearcontrolmethodfortrackingthepipelineorcable.Byusingtheproposedimageprocessingmethod,atfirstthepictureframesareconvertedtograypicturesandtheseimagesshouldbeappliedforanedgedetectoratlastbyusingHoughtransformtheangleoftherobotcanbefound.Thisangleisusedasareferenceinputofheadingcontroller.Byusingtheadaptiveslidingmodecontroller,theROVcaneasilytrackthecableorpipeline.ThesystemhasbeentestedusingsequencescomingfromavideotapeobtainedinseveraltrackingsessionsofvariouscablesandpipelineswithanROV.Publishedin:OCEANS2009-EUROPEDateofConference:11-14May20097Page(s):1-6E-ISBN:978-1-4244-2523-5PrintISBN:978-1-4244-2522-8INSPECAccessionNumber:10915040ConferenceLocation:BremenDOI:10.1109/OCEANSE.2009.5278327Publisher:IEEE从序号5中选出1篇Title:Developmentofautomaticweldingsystemappliedinsubseapipelinelayingmainpoints:InordertoexploredeepwateroilandgasfieldsinSouthChinaS