最新学科研究热点与前沿第4期.docx
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最新学科研究热点与前沿第4期.docx
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最新学科研究热点与前沿第4期
图书情报专题研究
最新学科研究热点与前沿
2014年第4期
西北工业大学图书馆
2015年1月
前言
《图书情报专题研究》的宗旨是为我校师生开展学术研究提供有价值的参考信息,此项工作由图书馆信息咨询与发展研究部承担。
“最新学科研究热点与前沿”根据学校所购买的数字资源,通过分析其深层次的功能,从数据库中组织整理出了与我校学科领域相关的最新学科热点研究论文、最新研究前沿及最新国际会议信息等,以期能对我校师生开展学术研究、项目立项、开题等学术研究活动提供帮助。
本期收集整理了如下八个方面的热点文献和前沿信息:
1、ElsevierScienceDirectTop25,Elsevier数据库下载次数最多的25篇论文。
2、IELTop25,IEL数据库下载最多的25篇论文。
3、ACM最新会议。
根据ACM主页所提供的最新会议信息整理所得,可供相关研究者参考。
4、AIAA最新会议,由AIAA主站提供的最新会议信息,可供相关研究者参考。
5、IEEE最新会议,由IEEE主站提供的最新会议信息,可供相关研究者参考。
6、IQPC最新会议。
由国际质量与竞争力中心(IQPC:
InternationalQualityandProductivityCenter)提供的最新国际会议,内容涉及国防、能源、工业、科技、电信等领域。
IQPC是国际顶级的会议展览策划公司,于1973年成立于美国,旨在为全球业务主管提供量身定制的会议、大型会展以及培训课程,积极为行业人士的相互交流创建平台,使业内人士能够随时掌握行业发展的最新趋势及技术创新。
7、ESI(EssentialScienceIndicators)HOTPAPERS,ESI提供的最近两年的热点文章,其排名依据为文章的被引频次。
8、NatureAdvanceOnlinePublication(AOP),Nature系列刊物预先提供浏览未出版的最新文章。
如果您对我们的栏目设置、内容编排、出版方式等有好的意见和建议,欢迎与我们联系,我们将积极采纳,使这份电子刊物日臻完善,共同为把我校建成学科特色鲜明的世界一流大学而努力。
图书馆
2015年1月
目录
一、ElsevierScienceDirectTop25(工程类)1
二、ElsevierScienceDirectTop25(材料类)1
三、IELTop251
四、ACM最新会议1
五、AIAA最新会议1
六、IEEE最新会议1
七、IQPC最新国防会议(Defence)1
八、ESIHOTPAPERS(ENGINEERING)1
九、NatureAdvanceOnlinePublication(NaturePhysics)1
一、ElsevierScienceDirectTop25(工程类)
(来源:
1.标题:
TheInternetofThings:
Asurvey•Article
出处:
ComputerNetworks,Volume54,Issue15,October2010,Pages2787-2805
作者:
Atzori,L.;Iera,A.;Morabito,G.
摘要:
ThispaperaddressestheInternetofThings.Mainenablingfactorofthispromisingparadigmistheintegrationofseveraltechnologiesandcommunicationssolutions.Identificationandtrackingtechnologies,wiredandwirelesssensorandactuatornetworks,enhancedcommunicationprotocols(sharedwiththeNextGenerationInternet),anddistributedintelligenceforsmartobjectsarejustthemostrelevant.Asonecaneasilyimagine,anyseriouscontributiontotheadvanceoftheInternetofThingsmustnecessarilybetheresultofsynergeticactivitiesconductedindifferentfieldsofknowledge,suchastelecommunications,informatics,electronicsandsocialscience.Insuchacomplexscenario,thissurveyisdirectedtothosewhowanttoapproachthiscomplexdisciplineandcontributetoitsdevelopment.DifferentvisionsofthisInternetofThingsparadigmarereportedandenablingtechnologiesreviewed.Whatemergesisthatstillmajorissuesshallbefacedbytheresearchcommunity.Themostrelevantamongthemareaddressedindetails.
链接:
2.标题:
Synthesisandsurfaceengineeringofironoxidenanoparticlesforbiomedicalapplications•Reviewarticle
出处:
Biomaterials,Volume26,Issue18,June2005,Pages3995-4021
作者:
Gupta,A.K.;Gupta,M.
摘要:
Superparamagneticironoxidenanoparticles(SPION)withappropriatesurfacechemistryhavebeenwidelyusedexperimentallyfornumerousinvivoapplicationssuchasmagneticresonanceimagingcontrastenhancement,tissuerepair,immunoassay,detoxificationofbiologicalfluids,hyperthermia,drugdeliveryandincellseparation,etc.Allthesebiomedicalandbioengineeringapplicationsrequirethatthesenanoparticleshavehighmagnetizationvaluesandsizesmallerthan100nmwithoverallnarrowparticlesizedistribution,sothattheparticleshaveuniformphysicalandchemicalproperties.Inaddition,theseapplicationsneedspecialsurfacecoatingofthemagneticparticles,whichhastobenotonlynon-toxicandbiocompatiblebutalsoallowatargetabledeliverywithparticlelocalizationinaspecificarea.Tothisend,mostworkinthisfieldhasbeendoneinimprovingthebiocompatibilityofthematerials,butonlyafewscientificinvestigationsanddevelopmentshavebeencarriedoutinimprovingthequalityofmagneticparticles,theirsizedistribution,theirshapeandsurfaceinadditiontocharacterizingthemtogetaprotocolforthequalitycontroloftheseparticles.Natureofsurfacecoatingsandtheirsubsequentgeometricarrangementonthenanoparticlesdeterminenotonlytheoverallsizeofthecolloidbutalsoplayasignificantroleinbiokineticsandbiodistributionofnanoparticlesinthebody.Thetypesofspecificcoating,orderivatization,forthesenanoparticlesdependontheendapplicationandshouldbechosenbykeepingaparticularapplicationinmind,whetheritbeaimedatinflammationresponseoranti-canceragents.Magneticnanoparticlescanbindtodrugs,proteins,enzymes,antibodies,ornucleotidesandcanbedirectedtoanorgan,tissue,ortumourusinganexternalmagneticfieldorcanbeheatedinalternatingmagneticfieldsforuseinhyperthermia.Thisreviewdiscussesthesyntheticchemistry,fluidstabilizationandsurfacemodificationofsuperparamagneticironoxidenanoparticles,aswellastheiruseforabovebiomedicalapplications.
链接:
3.标题:
Data-intensiveapplications,challenges,techniquesandtechnologies:
AsurveyonBigData•Article
出处:
InformationSciences,Volume275,August2014,Pages314-347
作者:
PhilipChen,C.L.;Zhang,C.Y.
摘要:
ItisalreadytruethatBigDatahasdrawnhugeattentionfromresearchersininformationsciences,policyanddecisionmakersingovernmentsandenterprises.AsthespeedofinformationgrowthexceedsMoore’sLawatthebeginningofthisnewcentury,excessivedataismakinggreattroublestohumanbeings.However,therearesomuchpotentialandhighlyusefulvalueshiddeninthehugevolumeofdata.Anewscientificparadigmisbornasdata-intensivescientificdiscovery(DISD),alsoknownasBigDataproblems.Alargenumberoffieldsandsectors,rangingfromeconomicandbusinessactivitiestopublicadministration,fromnationalsecuritytoscientificresearchesinmanyareas,involvewithBigDataproblems.Ontheonehand,BigDataisextremelyvaluabletoproduceproductivityinbusinessesandevolutionarybreakthroughsinscientificdisciplines,whichgiveusalotofopportunitiestomakegreatprogressesinmanyfields.ThereisnodoubtthatthefuturecompetitionsinbusinessproductivityandtechnologieswillsurelyconvergeintotheBigDataexplorations.Ontheotherhand,BigDataalsoariseswithmanychallenges,suchasdifficultiesindatacapture,datastorage,dataanalysisanddatavisualization.Thispaperisaimedtodemonstrateaclose-upviewaboutBigData,includingBigDataapplications,BigDataopportunitiesandchallenges,aswellasthestate-of-the-arttechniquesandtechnologieswecurrentlyadopttodealwiththeBigDataproblems.Wealsodiscussseveralunderlyingmethodologiestohandlethedatadeluge,forexample,granularcomputing,cloudcomputing,bio-inspiredcomputing,andquantumcomputing.
链接:
4.标题:
Areviewonpolymernanofibersbyelectrospinningandtheirapplicationsinnanocomposites•Article
出处:
CompositesScienceandTechnology,Volume63,Issue15,November2003,Pages2223-2253
作者:
Huang,Z.-M.;Zhang,Y.-Z.;Kotaki,M.;Ramakrishna,S.
摘要:
Electrospinninghasbeenrecognizedasanefficienttechniqueforthefabricationofpolymernanofibers.Variouspolymershavebeensuccessfullyelectrospunintoultrafinefibersinrecentyearsmostlyinsolventsolutionandsomeinmeltform.Potentialapplicationsbasedonsuchfibersspecificallytheiruseasreinforcementinnanocompositedevelopmenthavebeenrealized.Inthispaper,acomprehensivereviewispresentedontheresearchesanddevelopmentsrelatedtoelectrospunpolymernanofibersincludingprocessing,structureandpropertycharacterization,applications,andmodelingandsimulations.Informationofthosepolymerstogetherwiththeirprocessingconditionsforelectrospinningofultrafinefibershasbeensummarizedinthepaper.Otherissuesregardingthetechnologylimitations,researchchallenges,andfuturetrendsarealsodiscussed.
链接:
5.标题:
Projectmanagement:
cost,timeandquality,twobestguessesandaphenomenon,itstimetoacceptothersuccesscriteria•Article
出处:
InternationalJournalofProjectManagement,Volume17,Issue6,December1999,Pages337-342
作者:
Atkinson,Roger
摘要:
ThispaperprovidessomethoughtsaboutsuccesscriteriaforIS–ITprojectmanagement.Cost,timeandquality(TheIronTriangle),overthelast50yearshavebecomeinextricablylinkedwithmeasuringthesuccessofprojectmanagement.Thisisperhapsnotsurprising,sinceoverthesameperiodthosecriteriaareusuallyincludedinthedescriptionofprojectmanagement.Timeandcostsareatbest,onlyguesses,calculatedatatimewhenleastisknownabouttheproject.Qualityisaphenomenon,itisanemergentpropertyofpeoplesdifferentattitudesandbeliefs,whichoftenchangeoverthedevelopmentlife-cycleofaproject.WhyhasprojectmanagementbeensoreluctanttoadoptothercriteriainadditiontotheIronTriangle,suchasstakeholderbenefitsagainstwhichprojectscanbeassessed?
Thispaperproposesanewframeworktoconsidersuccesscriteria,TheSquareRoute.
链接:
6.标题:
Areviewofshapememoryalloyresearch,applicationsandopportunities•Reviewarticle
出处:
Materials&Design,Volume56,April2014,Pages1078-1113
作者:
MohdJani,J.;Leary,M.;Subic,A.;Gibson,M.A.
摘要:
Shapememoryalloys(SMAs)belongtoaclassofshapememorymaterials(SMMs),whichhavetheabilityto‘memorise’orretaintheirpreviousformwhensubjectedtocertainstimulussuchasthermomechanicalormagneticvariations.SMAshavedrawnsignificantattentionandinterestinrecentyearsinabroadrangeofcommercialapplications,duetotheiruniqueandsuperiorproperties;thi
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