简介:Threeyearsafterthe'BeltandRoad'(OBOR)Initiativewasproposed,morethan100countriesandinternationalorganizationshaveparticipated.ChinahassignedcooperationagreementstojointlypromoteOBORwithnearly40countries
简介:Aparallelalgorithmforsolvingblock-diagonalstructuredlargelinearsystemispresented.Thisalgorithmisbasedonthe"gradient-simplex"method.Itpartitionsalargelinearsystemintoseveralsmalllinearsubsystemssothattheycanbesolvedinparallel.Thealgorithmhasthemeritofhighspeedandissuitableforthelargelinearsystemswithlesscouplingconstrains.Theefficiencyandapplicabilityofthemethodisalsoanalyzed.
简介:WeproposeanefficientandrobustalgorithmtosolvethesteadyEulerequa-tionsonunstructuredgrids.ThenewalgorithmisaNewton-iterationmethodinwhicheachiterationstepisalinearmultigridmethodusingblocklower-uppersymmetricGauss-Seidel(LU-SGS)iterationasitssmootherToregularizetheJacobianmatrixofNewton-iteration,weadoptedalocalresidualdependentregularizationasthereplace-mentofthestandardtime-steppingrelaxationtechniquebasedonthelocalCFLnumberTheproposedmethodcanbeextendedtohighorderapproximationsandthreespatialdimensionsinanatureway.Thesolverwastestedonasequenceofbenchmarkprob-lemsonbothquasi-uniformandlocaladaptivemeshes.Thenumericalresultsillustratedtheefficiencyandrobustnessofouralgorithm.
简介:Inthispaperwereviewourworkonself-assemblyofthesystem,poly(ethyleneoxide)-poly(propyleneoxide)-poly(ethyleneoxide)(PEO-PPO-PEO)blockcopolymers,whichisakindofmacromolecularcomplexfluids.Thecontrolofself-assemblycouldbeobtainedbyaddinginorganicsaltsoraliphaticalcohols.Byself-assemblyofamphiphilicblockcopolymers,amicroemulsionphaseisformed,whichcouldbeappliedinmicelleextraction,suchashollow-fibermembranemicelleextraction,magneticmicelleextractionandimmobilizedmicelleextraction.
简介:ScientistsattheUniversityofPittsburghSchoolofMedicinehavediscoveredanewbiologicalpathwayofinnateimmunitythatrampsupinflammationandthenidentifiedagentsthatcanblockit,leadingtoincreasedsurvivalandimprovedlungfunctioninanimalmodelsofpneumonia.TheyreportedtheirfindingstodayinNatureImmunology.
简介:Non-destructivetesting(NDT)hasbeenwidelyusedinmanyfields,wecaneasilyseeitisbeingusedinshipbuilding,aerospace,weaponsmanufacturingandsoon.ICTisoneofthebestnondestructivetestingmethodscurrently,butithasnotbeenusedwidely,becauseitrequiresmuchcomputeandcostsmuchtime.Defectlocationisoneofthemostimportantprocessingstepsinthedigitalimageanalysis.Defectlocationwouldcorrespondinglyreducethetimespentinthetesting.Wemayonlyrequirelocatingthedefectsinsomecase.So,wedividetheCTimagesintoseverallittleblockswhichthesquareisequal,andthencalculatethefractaloneachblock.Bydeterminingthevalueandconnectedregionnumberofthefractaldimension,wecanlocatedefectsoftheimage.Theresultsshowthattheblockfractaldimensionisausefulandtime-savingdefectlocationmethod.
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简介:摘要目的探讨Twin-block矫治器的咬合重建和临床应用。方法选取2013年1月~2015年6月收治的安氏Ⅱ类错患者8例临床Twin-block矫治器治疗的临床应用进行分析。结果所有患者经Twin-block矫治器治疗均了得良好的矫治效果,前牙覆盖正常,侧貌均得到很大改善,矫治效果比较满意。结论当上下垫的接触斜面呈相反方向时,即可对下颌有强迫后退的作用,此时,可以用来矫治Ⅲ类错。
简介:为用仅仅一个推进器的一只underactuated太空船,关于轨道框架的态度可控制性面对期刊摆动骚乱被学习,它在为underactuated态度控制系统设计控制法律上提供一个preconditional指南。第一,态度动态模型为一只underactuated太空船被建立,并且态度运动用特殊的直角的组被描述(那么(3))。第二,Liouville定理被用来证实underactuated态度控制系统的飘移向量产生的流动是保存卷的。而且,根据Poincar?觥馽軥鮊鋥?菩蒚鳦?髧??蒚迥?髧???髧?????蒚裥邞雦閳軦??
简介:ChinatoConductOnePercentPopulationSamplingSurvey¥//ChinawillconductaonepercentpopulationsamplingsurveyonOctober1,1995,accordi...
简介:Thispaperpresentsaclassofhybridone-stepmethodsthatareobtainedbyusingCramer’sruleandrationalapproximationstofunctionexp(q).Thealgorithmsfallintothecatalogueofimplicitformula,whichinvolvessthorderderivativeands+1freeparameters.Theorderofthealgorithmssatisfiess+1≤p≤2s+2.Thestabilityofthemethodsisalsostudied,necessaryandsufficientconditionsforA-stabilityandL-stabilityaregiven.Inaddition,someexamplesarealsogiventodemonstratethemethodpresented.
简介:在这份报纸,我们证明在范畴之间有一个自然等价?与给定的周期的模块的过滤的复杂性1的Koszul模块的1(x)作为一个m鈥揹imensional向量空格的外面的代数学螞=鈭的因素模块,并且有限鈥揹imensional的范畴局部地m鈥?的多项式代数学的nilpotent模块1个变量。关键词外面的代数学-Koszul模块-复杂性先生(2000)题目分类16G70-在他们的第60生日奉献给教授Roberto市场铆nez鈥揤illa和RaymondoBautista的16D90这研究被NSFC#10371036并且由湖南的省的教育部的关键工程#2A024部分地支持