您的当前位置: 首页 > 招生资讯 > 导师简介 > 正文

华东师范大学通信工程系研究生导师简介:唐明

来源:www.ecnukao.com 作者:鸿知华东师大考研网 浏览:543 次 发布时间:2019/1/29

进入自己心仪的目标院校是多少学子心中的梦!而当考生们在选择报考专业的同时,也要密注意导师的选择,因为这将很大程度上决定着你未来硕士、博士生涯的生活和学术研究方向,甚至是今后的毕业论文与就业。在此,鸿知华东师范考研网为志在华东师范大学考研的考生们,认真总结了华东师范大学研究生院各专业的导师信息,希望能让大家未来的研究生之路更加顺畅!

华东师范大学考研真题资料

华东师范大学考研辅导班详情

华东师大考研复试交流群

华东师范考研复试指导

华东师范大学考研复试经验

华东师大导师简介


华东师范大学通信工程系研究生导师简介:唐明

               



唐明

紫江青年学者、研究员、博士生导师

信息科学技术学院

通信工程系

办公地点:闵行校区信息楼559

电子邮箱:tangminghan007@gmail.com,tangminghuang521@hotmail.com

通讯地址:上海市闵行区东川路500号信息楼559

 

研究方向

复杂系统与网络科学、大数据分析、机器学习、量化投资研究

 

社会兼职

任美国公共图书馆杂志PLoSOne学术编辑。长期担任NewJournalofPhysics,AppliedMathematicalModelling,ScientificReports,Chaos,EurophysicsLetters,WorldWideWeb,InformationSciences,PLoSONE,PhysicsLettersA,PhysicaA,InternationalJournalofModernPhysicsC,MathematicalProblemsinEngineering,ChinesePhysicsLetters,ChinesePhysicsB,ActaPhysicaSinica等三十几种国际权威SCI期刊,复杂系统与复杂性科学、电子科技大学学报、自动化学报和系统工程学报等国内知名EI期刊的审稿人。

 

学术成果

唐明,紫江青年学者,任职于华东师范大学信息科学技术学院通信工程系,2010年博士毕业于华东师范大学理论物理所,先后在新加坡、香港、韩国和美国等地从事过多年的博士后研究工作。研究方向为网络科学、大数据分析和机器学习研究等,主要面向大规模网络数据,利用计算机科学、统计物理学和信息科学等多学科交叉理论方法分析和挖掘网络数据隐含的复杂网络系统如在线社交网络系统、推荐系统、社会经济系统、生命系统的组织结构和功能,在此基础上研究复杂网络系统的优化策略和控制策略。此前工作于电子科技大学计算机科学与工程学院和大数据研究中心,所领导的研究小组在网络信息传播动力学方面做出了一系列开创性的工作,涉及网络传播研究的几乎各个问题,在国际上具有较高的声誉和影响力,在国内相关领域处于领先地位。

近七年以来已主持国家自然科学面上项目、国家自然科学青年基金、上海市自然科学基金、博士后特别资助、国家自然科学青年基金(联合项目)、博士点新教师基金、博士后基金和中央高校基本科研业务费项目共计8项。现已在Rep.Prog.Phys.,NewJ.Phys.,Phys.Rev.E,Sci.Rep.,Chaos,Europhys.Lett.等国际权威期刊发表论文80余篇;其中70篇为第一或通讯作者,中科院JCR二区以上文章40余篇;12Sci.Rep.(含8篇通讯)为Nature旗下著名学术期刊,2014SCI影响因子5.57811Chaos(含9篇一作或通讯)是中科院JCR一区的顶尖应用数学杂志;11Phys.Rev.E(含8篇一作或通讯)是物理类公认的权威期刊。SCI已检索70余篇,共被GoogleScholar(下面简称GS)引用1870余次,SCI引用1200余次,SCI他引1000余次,其中一篇荣获ESI高被引论文,一篇荣获2018年中国高引用作者奖。

作为责任导师指导了12名博士生,其中8名博士生已顺利毕业;所毕业博士生均已发表5篇以上的SCI论文,其中JCR二区以上论文2篇以上;并公派留学美国、英国和奥地利等国家;博士生获得国家奖学金共计8人次。另外,指导了6名学术硕士生和11名软件工程硕士。

 

现研究团队有4名博士生、5名硕士生和12名本科生。

 

欢迎所有对网络科学、大数据分析、机器学习和量化投资感兴趣的老师和同学加入进来~!!!也欢迎本校或学院的本科生前来开展科技创新工作!!!

GoogleScholar主页:https://scholar.google.com/citations?user=z7ygE20AAAAJ&hl=zh-CN

发表论文:Notethat*denotescorrespondingauthor.

[84]MuhuaZheng,WeiWang,MingTang,JieZhou,SBoccaletti,ZonghuaLiu*,Multiplepeakspatternsofepidemicspreadinginmulti-layernetworks,Chaos,Solitons&Fractals107,135(2018).

[83]ZiqiaoZhang,PengPu*,DingdingHan*,andMingTang*,Self-adaptiveLouvainalgorithm:fastandstablecommunitydetectionalgorithmbasedontheprincipleofsmallprobabilityevent,PhysicaA506,975(2018)..

[82]Quan-HuiLiu,Feng-MaoLv,QianZhang,MingTang*,andTaoZhou,ImpactsofOpinionLeadersonSocialContagions,Chaos28,053103(2018).

[81]LeiGao,PanpanShu,MingTang,WeiWang,andHuiGao,Effectivetrafficflowassignmentstrategyonmultilayernetworks,AcceptedbyPhys.Rev.E(2018).

[80]Quan-HuiLiu,WeiWang,Shi-MinCai,MingTang*,andYing-ChengLai,Synergisticinteractionspromotebehaviorspreadingandalterphasetransitionsonmultiplexnetworks,Phys.Rev.E97,022311(2018).

[79]WeiWang,MingTang*,HEugeneStanley,LidiaABraunstein,Socialcontagionswithcommunicationchannelsalternationonmultiplexnetworks,AcceptedbyPhys.Rev.E(2018).

[78]XiaolongChen,RuijieWang,MingTang*,ShiminCai,HEugeneStanley,LidiaABraunstein,Suppressingepidemicspreadinginmultiplexnetworkswithsocial-support,NewJ.Phys.20,013007(2018).

[77]ZhongyuanRuan,MingTang,ChangguiGu,JinshanXu,Epidemicspreadingbetweentwocoupledsubpopulationswithinnerstructures,Chaos27,103104(2017).

[76]Li-MinYing,JieZhou,MingTang,Shu-GuangGuan,andYongZou*,Mean-fieldapproximationsoffixationtimedistributionsofevolutionarygamedynamicsongraphs,Front.Phys.13,130201(2018).

[75]Han-XinYang*,MingTang,andZhenWang,Suppressingepidemicspreadingbyrisk-aversemigrationindynamicalnetworks,PhysicaA490,347(2018).

[74]YingLiu,MingTang*,YounghaeDo,andPakMingHui,Accuraterankingofinfluentialspreadersinnetworksbasedondynamicallyasymmetriclinkweights,Phys.Rev.E96,022323(2017).

[73]JiayangZhang,JieZhou,MingTang,HengGuo,MichaelSmall,andYongZou*,Constructingordinalpartitiontransitionnetworksfrommultivariatetimeseries,Sci.Rep.7,7795(2017).

[72]Yao-DongZhao,Shi-MinCai*,MingTang,andMin-ShengShang,Coarseclusterenhancingcollaborativerecommendationforsocialnetworksystems,PhysicaA483,209(2017).

[71]WeiWang*,MingTang*,HEugeneStanley*,andLidiaABraunstein*,Unificationoftheoreticalapproachesforepidemicspreadingoncomplexnetworks,Rep.Prog.Phys.80,036603(2017).

[70]Yu-XiaoZhu,WeiWang,MingTang*,Yong-YeolAhn*,Socialcontagionsonweightednetworks,Phys.Rev.E96,012306(2017).

[69]Mian-XinLiu,WeiWang,YingLiu,MingTang*,Shi-MinCai,andHai-FengZhang,Socialcontagionsontime-varyingcommunitynetworks,Phys.Rev.E95,052306(2017).

[68]Quan-HuiLiu,WeiWang,MingTang*,TaoZhou,andYing-ChengLai,Explosivespreadingoncomplexnetworks:Theroleofsynergy,Phys.Rev.E95,042320(2017).

[67]XiaoyuNie,MingTang,YongZou,ShuguangGuan,JieZhou,Theimpactofheterogeneousresponseoncoupledspreadingdynamicsinmultiplexnetworks,PhysicaA484,225(2017).

[66]Hai-FengZhang,Pan-PanShu,ZhenWang*,MingTang*,MichaelSmall*,Preferentialimitationcaninvalidatetargetedsubsidypoliciesonseasonal-influenzadiseases,Appl.Math.Comput.294,332(2017).

[65]Shi-MinCai,WeiChen,Dong-BaiLiu,MingTang,andXunChen,Complexnetworkanalysisofbrainfunctionalconnectivityunderamulti-st1epcognitivetask,PhysicaA466,663(2017).

[64]LeiGao,WeiWang,LimingPan,MingTang*,andHai-FengZhang,Effectiveinformationspreadingbasedonlocalinformationincorrelatednetworks,Sci.Rep.6,38220(2016).

[63]ChangguiGu,MingTang,JosH.T.Rohling,andHuijieYang,Theeffectsofnon-self-sustainedoscillatorsontheen-trainmentabilityofthesuprachiasmaticnucleus,Sci.Rep.6,37661(2016).

[62]ChangguiGu,MingTang,andHuijieYang,Thesynchronizationofneuronaloscillatorsdeterminedbythedirectednetworkstructureofthesuprachiasmaticnucleusunderdifferentphotoperiods,Sci.Rep.6,28878(2016).

[61]XiaolongChen,ChunYang,LinfengZhong,andMingTang*,Crossoverphenomenaofpercolationtransitioninevolutionnetworkswithhybridattachment,Chaos26,083114(2016).

[60]YingLiu,MingTang*,TaoZhou,andYounghaeDo,Identifyinfluentialspreadersincomplexnetworks,theroleofneighborhood,PhysicaA452,289(2016).

[59]MuhuaZheng,ZhongyuanRuan,MingTang,YounghaeDo,andZonghuaLiu*,Influenceofperiodictrafficcongestiononepidemicspreading,Int.J.Mod.Phys.C27,1650048(2016).

[58]WeiWang,Quan-HuiLiu,Shi-MinCai,MingTang*,LidiaABraunstein,andH.EugeneStanley,Suppressingdiseasespreadingbyusinginformationdiffusiononmultiplexnetworks,Sci.Rep.6,29259(2016).

[57]PanpanShu,WeiWang,MingTang*,PengchengZhao,andYi-ChengZhang,Recoveryrateaffectstheeffectiveepidemicthresholdwithsynchronousupdating,Chaos26,063108(2016).

[56]WeiWang,MingTang*,PanpanShu,andZhenWang,Dynamicsofsocialcontagionswithheterogeneousadoptionthresholds:crossoverphenomenainphasetransition,NewJ.Phys.18,013029(2016).

[55]HuiYang,MingTang*,Shi-MinCai,andTaoZhou,Core-peripherystructureinheterogeneousadaptivenetworkanditsinhibitingeffectonepidemicspreading,ActaPhys.Sin.65,058901(2016).

[54]WeiWang,Quan-HuiLiu,Lin-FengZhong,MingTang*,HuiGao,andHEugeneStanley,Predictingtheepidemicthresholdofthesusceptible-infected-recoveredmodel,SciRep.6,24676(2016).

[53]Quan-HuiLiu,WeiWang,MingTang*,andHai-FengZhang*,Impactsofcomplexbehavioralresponsesonasymmetricinteractingspreadingdynamicsinmultiplexnetworks,Sci.Rep.6,25617(2016).

[52]Jin-QingFang,Quan-HuiLiu,MingTang,QiangLiu,andYongLi,NetworkScienceFacestheChallengeandOpportunity:Exploring"NetworkofNetworks"anditsUnifiedTheoreticalframework,JournalofAppliedAnalysisandComputation6,12(2016).

[51]Pan-PanShu,WeiWang,MingTang*,andMing-ShengShang,Discriminabilityofnodeinfluenceinflowerfractalscale-freenetworks,ActaPhys.Sin.64,001(2015).

[50]CanLiu,Jia-RongXie,Han-ShuangChen,Hai-FengZhang*,andMingTang*,Interplaybetweenthelocalinformationbasedbehavioralresponsesandtheepidemicspreadingincomplexnetworks,Chaos25,103111(2015).

[49]HuiYang,MingTang*,andThiloGross,Largeepidemicthresholdsemergeinheterogeneousnetworksofheterogeneousnodes,Sci.Rep.5,13122(2015).

[48]YingLiu,MingTang*,TaoZhou,andYounghaeDo,Improvingtheaccuracyofthek-shellmethodbyremovingredundantlinks:Fromaperspectiveofspreadingdynamics,Sci.Rep.5,13172(2015).

[47]WeiWang,PanpanShu,Yu-XiaoZhu,MingTang*,andYi-ChengZhang,Dynamicsofsocialcontagionswithlimitedcontactcapacity,Chaos25,103102(2015).

[46]WeiWang,MingTang*,Hai-FengZhang*,andYing-ChengLai,Dynamicsofsocialcontagionswithmemoryofnonredundantinformation,Phys.Rev.E92,012820(2015).

[45]Han-XinYang*,MingTang*,andYing-ChengLai,Traffic-drivenepidemicspreadingincorrelatednetworks,Phys.Rev.E91,062817(2015).

[44]ElvisH.W.Xu,WeiWang,C.Xu,MingTang*,YounghaeDo,andP.M.Hui*,Suppressedepidemicsinmultirelationalnetworks,Phys.Rev.E92,022812(2015).

[43]PanpanShu,WeiWang,MingTang*,andYounghaeDo,Numericalidentificationofepidemicthresholdsforsusceptible-infected-recoveredmodelonfinite-sizenetworks,Chaos25,063104(2015).

[42]YingLiu,MingTang*,TaoZhou,andYounghaeDo,Core-likegroupsresultininvalidationofidentifyingsuper-spreaderbyk-shelldecomposition,Sci.Rep.5,9602(2015).

[41]Xiang-YuZhao,BinHuang,MingTang*,Hai-FengZhang,Duan-BingChen,Identifyingeffectivemultiplespreadersbycoloringcomplexnetworks,Europhys.Lett.108,68005(2014).

[40]WeiWang,MingTang*,Hai-FengZhang,HuiGao,YounghaeDo,andZong-HhuaLiu,Epidemicspreadingoncomplexnetworkswithgeneraldegreeandweightdistributions,Phys.Rev.E90,042803(2014).

[39]WeiWang,MingTang*,HuiYang,YounghaeDo,Ying-ChengLai,andGyuWonLee,Asymmetricallyinteractingspreadingdynamicsoncomplexlayerednetworks,Sci.Rep.4,5097(2014).

[38]PengbiCui,MingTang,andZhi-XiWu,Messagespreadinginnetworkswithstickinessandpersistence:Largeclusteringdoesnotalwaysfacilitatelarge-scalediffusion,Sci.Rep.4,6303(2014).

[37]Hai-FengZhang,Zhi-XiWu,MingTang,andYing-ChengLai,Effectsofbehavioralresponseandvaccinationpolicyonepidemicspreading-anapproachbasedonevolutionary-gamedynamics,Sci.Rep.4,5666(2014).

[36]Ai-XiangCui,WeiWang,MingTang*,YanFu,XiaomingLiang,andYounghaeDo,Efficientallocationofheterogeneousresponsetimesininformationspreadingprocess,Chaos24,033113(2014).

[35]Hai-FengZhang,Jia-RongXie,MingTang,andYing-ChengLai,Suppressionofepidemicspreadingincomplexnetworksbylocalinformationbasedbehavioralresponses,Chaos24,043106(2014).

[34]HanxinYang*andMingTang*,Adaptiveroutingstrategyonnetworksofmobilenodes,PhysicaA402,1–7(2014).

[33]HongkunLiu,HuiYang*,MingTang*,andTaoZhou,Localtransient-basedquarantinestrategyinadaptivenetworks,SCIENCECHINAPhysics,Mechanics&Astronomy44,32–41(2014).

[32]YuxiaoZhu,XiaoguangZhang,GuiquanSun,MingTang,TaoZhou,andZikeZhang,InfluenceofReciprocallinksinSocialNetworks,PLoSONE9(7),e103007(2014).

[31]KaiGong,MingTang*,PakmingHui*,HaifengZhang,YounghaeDo,andYingchengLai,Anefficientimmunizationstrategyforcommunitynetworks,PloSone8(12),e83489(2013).

[30]XiaomingLiang*,MingTang,andHuapingLü,SignaltransmissioninaY-shapedone-waychain,Chaos23(4),043113(2013).

[29]RuiqiLi,MingTang*,andPakmingHui,Epidemicspreadingonmulti-relationalnetworks,ActaPhys.Sin.62(16),168903(2013).

[28]BinHuang,XiangYuZhao,KaiQi,MingTang*,andYounghaDo,Coloringcomplexnetworksanditsapplicationforimmunizationstrategy,ActaPhys.Sin.62(21),218902(2013).

[27]HuiYang,MingTang*,andPakmingHui,Epidemicsdynamicsonadaptivenetworks—ashortreview,Complexsystemandcomplexityscience9(4),63-83(2013).

[26]YuGan,MingTang*,andHan-XinYang,Optimalforwardingratioondynamicalnetworkswithheterogeneousmobility,Eur.Phys.J.B86,209(2013).

[25]ZhongyuanRuan,MingTang,andZonghuaLiu,Howthecontagionatlinksinfluencesepidemicspreading,Eur.Phys.J.B86,149(2013).

[24]PanpanShu,MingTang*,KaiGong,andYingLiu,EffectsofWeakTiesonEpidemicPredictabilityinCommunityNetworks,Chaos22,043124(2012).

[23]HuiYang,MingTang*,andHai-FengZhang,Efficientcommunity-basedcontrolstrategiesinadaptivenetworks,NewJPhys14,123017(2012).

[22]Ai-XiangCui,Zi-keZhang,MingTang*,YanFu,andPakmingHui,Emergenceofscale-freeclose-knitfriendshipstructureinonlinesocialnetworks,PLoSONE7(12),e50702(2012).

[21]ZhongyuanRuan,MingTang,andZonghuaLiu,Epidemicspreadingwithinformation-drivenvaccination,Phys.Rev.E86,036117(2012).

[20]KaiQi,MingTang*,Ai-XiangCui,andYanFu,SlowDynamicsofZero-RangeProcessintheFrameworkofTrapsModel,Chin.Phys.Lett.29(5),050505(2012).

[19]Zhi-DanZhao,YingLiu,andMingTang*,EpidemicVariabilityinHierarchicalGeographicalNetworkswithHumanActivityPatterns,Chaos22,023150(2012).

[18]KaiGong,MingTang*,MingShengShang,andTaoZhou,EmpiricalstudyonSpatio-temporalevolutionofonlinepublicopinion,ActaPhys.Sin.61(9),098901(2012).

[17]KaiGong,MingTang*,HuiYang,andMingshengShang,Variabilityofcontactprocessincomplexnetworks,Chaos21,043130(2011).

[16]MingTangandTaoZhou,Efficientroutingstrategiesinscale-freenetworkswithlimitedbandwidth,Phys.Rev.E84,026116(2011).

[15]MingTang,AixiangCui,andKaiGong,OnSpreadingDynamicsonCoupledNetworks,Complexsystemandcomplexityscience8(2),87-91(2011).

[14]HongkuiLiuandMingTang,AReviewonGlobalEpidemicsSpreading,Complexsystemandcomplexityscience8(3),86-94(2011).

[13]MingTang,ZonghuaLiu,andBaowenLi,Influenceofzerorangeprocessinteractionondiffusion,Chaos20,043135(2010).

[12]MingTang,LiLiu,andZonghuaLiu,Influenceofdynamicalcondensationonepidemicspreadinginscale-freenetworks,Phys.Rev.E79,016108(2009).

[11]MingTang,ZonghuaLiu,XiaomingLiang,andP.M.Hui,Self-adjustingroutingschemesfortime-varyingtrafficinscale-freenetworks,Phys.Rev.E80,026114(2009).

[10]MingTang,ZonghuaLiu,andBaowenLi,Epidemicspreadingbyobjectivetraveling,Europhys.Lett.87,18005(2009).

[9]XiaomingLiang,MingTang,MukeshwarDhamala,andZonghuaLiu,Phasesynchronizationof

inhibitoryburstingneuronsinducedbydistributedtimedelaysinchemicalcoupling,Phys.Rev.E

80,066202(2009).

[8]LijuanMa,MingTang*,andXiaomingLiang,Zerorangeprocesscondensationbasedon

preferentialaggregatemechanisminscalefreenetworks,ActaPhys.Sin.(InChinese)58,0083

(2009).

[7]ZonghuaLiu,MingTang,andP.M.Hui,Adaptiveroutingapproachesofcontrollingtraffic

congestion,Complex2009,PartII,LNICST5,pp.1472(2009).

[6]MingTang,ZonghuaLiu,XiaoyanZhu,andXiaoyanWu,Condensationonweightednetworkswithsymmetricweights,Int.J.Mod.Phys.C19,927(2008).

[5]MingTangandZonghuaLiu,Detrendedfluctuationanalysisofparticlecondensationoncomplexnetworks,PhysicaA387,1361(2008).

[4]MingTangandZonghuaLiu,Relaxationdynamicsincondensationonweightedscale-freeNetworks,Commun.Theor.Phys.49,252(2008).

[3]HuanZhang,ZonghuaLiu,MingTang,andP.M.Hui,Anadaptiveroutingstrategyforpacketdeliveryincomplexnetworks,Phys.Lett.A364,177(2007).

[2]XiaoyanZhu,ZonghuaLiu,andMingTang,Detrendedfluctuationanalysisoftrafficdata,Chin.Phys.Lett.24,7(2007).

[1]MingTang,ZonghuaLiu,andJieZhou,Condensationinazerorangeprocessonweightedscale-freenetworks,

Phys.Rev.E74,036101(2006).



华东师范大学考研笔记、资料、资讯请登录鸿知华东师考研网查看最新华东师大研究生信息

点击加入2019华东师范大学考研复试群:691769196    2018厦门大学复试考研群


-----------------------^_^2019考研复试来袭,你准备好了吗?^_^------------------------------


班型

授课形式

授课内容

辅导价格

更多内容

【定制】2019华东师范大学考研复试通关班

 11

  网授

  面授

  复试提分

  协议保过

  人脉支持

10800

查看详情

定制】2019华东师范大学考研复试指导班

  11

  网授

  面授

  复试提分

  高效指导

  5200

查看详情




  

  • 电话咨询

  • 周一到周六上午
  • 0592-6061855
  • 电子邮箱

  • kaoyan818(微信号)
  • kaoyan1316(微信号)