简介:InterferometricSyntheticApertureRadar(InSAR)allowsproductionofhighresolutionDEManddetectionofsmallearthmotionsusingmultiplepassSARdatasetsobtainedbyremotesensingsatellite.ButthewholeprocesshasnotyetreachedsufficientrobustnesstowarrantautomatedDEMproductionascommonlyproducedbystereovisionwithopticalimages.TheautomaticalgorithmforprecisionregistrationisoneofthebottlenecksinInSARdataprocessing.Inthispaper,anautomaticapproachwithmulti-stepimagematchingalgorithmispresented.Allproceduresareautomaticallyimplemented.TheexperimentiscarriedoutsuccessfullywithSIR-C/L-bandInSARdata.Thetriangularpiecewiserectificationisalsoadvancedinreducinglocaldistortionbetweentheimagesandprocessingthelargesceneimage.Theprimaryresulthasprospectintheprecisionregistrationfortherepeat-trackInSARdataandrevealsthepotentialofthepresentedautomaticstrategy.
简介:Syntheticapertureradarinterferometry(InSAR)hasbeenusedasaninnovativetechniquefordigitalelevationmodel(DEM)andtopographicmapgeneration.Inthispaper,externalDEMsareusedforInSARDEMgenerationtoreducetheerrorsindataprocessing.TheDEMsgeneratedfromrepeat-passInSARarecompared.Forsteepslopesandseverechangesintopography,phaseunwrappingqualitycanbeimprovedbysubtractingthephasecalculatedfromanexternalDEM.ItisaffirmativethattheabsoluteheightaccuracyoftheInSARDEMisimprovedbyusingexternalDEM.Thedataprocessingwasundertakenwithouttheuseofgroundcontrolpointsandothermanualoperation.
简介:在美国直接受下陷影响地区达45个,受灾面积超过17000平方英里,每年相关经济损失约为125万美元。导致下陷的主要原因有含水层系统挤压、有机土壤排水、地下采矿、自然挤压、污水池、冻土融化等(国家调查委员会,1991)。一个强大的映射成图工具(InSAR)对于评估和缓解下陷方面比较有效。InSAR能够以惊人的精度监测地表微小形变。InSAR所形成的干涉图增强了我们监控和处理由于含水层系统挤压引起的下陷,也展现了人类控制自然物理过程的新视野。干涉合成孔径雷达(InSAR)是一种新型的用雷达信号监测地表微小形变的工具,其反映的空间细节水平非常惊人,测量结果精度很高。美国地质调查局及其他一些单位正在利用InSAR成图和监控由于含水层系压造成的。
简介:全球定位系统(GPS)和合成孔径雷达干涉测量(InSAR)集成技术在地表形变监测中具有广阔的应用前景。分析了GPS和InSAR两种技术融合的可行性,论述了GPS—InSAR融合技术的理论和方法,对其应用前景和存在的问题进行了探讨。
简介:Digitalelevationmodel(DEM)canbegeneratedbyinterferometricsyntheticapertureradar(InSAR).Inthispaper,theinterferometricprocessingandanalysesarecarriedoutforDamxung-YangbajainareainTibet,usingapairofEuroperemote-sensingsatellite(ERS)-1/2tandemSARimagesacquiredon6and7April1996.AportionoftheIn-SAR-derivedDEMisselectedandcomparedwiththe1:50000DEMtodeterminetheprecisionoftheInSAR-derivedDEM.Thecomparisonindicatesthattherootmeansquarederrors(RMSE),whichareusedtoevaluateerror,areabout35,60,10,and15minthestudiedarea,mountainousarea,basinareaandnear-faultarea,respectively,suggestingthatobviouserrorsaremainlyinmountainousarea.Besides,thelimitationofInSARtechnologytogenerateDEMisanalyzed.OurinvestigationshowsthatInSARisaneffectivetoolingeodesyandanimportantcomplementtofieldsurveyinginsomedangerousareas.
简介:以伊朗巴姆地区为例,对伊朗巴姆地震造成的地表形变进行了差分干涉测量,得到了垂直向的同震三维形变场,并运用GIS三维分析技术对形变场进行了分析。实验结果表明,地震在巴姆城市的东侧造成了较大形变,在西侧也产生了微量形变。巴姆城市北部地块沉降,南部地块隆起。同时在巴姆城市南部可明显看到地震造成的断层。实验结果验证了基于C波段的SAR数据的D-InSAR技术在干燥地区监测地表形变方面的可行性。本文对产生去相关效应的原因进行了解释,认为对于干燥少植被的地区干涉效果较好。并指出,如果能够通过技术进步提高雷达干涉测量的精度并降低观测成本,同时将该技术与GPS、GIS等技术相结合,从而更好地研究形变机理,这将对地质灾害的研究产生重大意义。
简介:OnNovember13,2016,anMW7.8earthquakestruckKaikourainSouthIslandofNewZealand.Bymeansofback-projectionofarrayrecordings,ASTFs-analysisofglobalseismicrecordings,andjointinversionofglobalseismicdataandco-seismicInSARdata,weinvestigatedcomplexityoftheearthquakesource.Theresultshowsthatthe2016MW7.8Kaikouraearthquakerupturedabout100sunilaterallyfromsouthtonortheast(~N28°–33°E),producingaruptureareaabout160kmlongandabout50kmwideandreleasingscalarmoment1.01×1021Nm.Inparticular,theruptureareaconsistedoftwoslipasperities,withoneclosetotheinitialrupturepointhavingamaximalslipvalue~6.9mwhiletheotherfarawayinthenortheasthavingamaximalslipvalue~9.3m.Thefirstasperityslippedforabout65sandthesecondonestarted40safterthefirstonehadinitiated.Thetwoslippedsimultaneouslyforabout25s.Furthermore,thefirsthadanearlythrustslipwhilethesecondhadboththrustandstrikeslip.Itisinterestingthattherupturevelocitywasnotconstant,andthewholeprocessmaybedividedinto5stagesinwhichthevelocitieswereestimatedtobe1.4km/s,0km/s,2.1km/s,0km/sand1.1km/s,respectively.Thehigh-frequencysourcesdistributednearlyalongtheloweredgeoftherupturearea,thehighfrequencyradiatingmainlyoccurredatlaunchingoftheasperities,anditseemedthatnohigh-frequencyenergywasradiatedwhentherupturingwasgoingtostop.
简介:Weuseinterferometricsyntheticapertureradar(InSAR)andbroadbandseismicwaveformdatatoestimateasourcemodelofthe11thJuly,2004MW6.2Zhongbaearthquake,TibetofChina.ThiseventoccurredwithintheseismicallyactivezoneofsouthwesternTibetanPlateauwheretheeast-westextensionoftheuppercrustisobserved.BecauseoflimitationsinonepairofInSARdataavailable,therearetrade-offsamongcentroiddepth,ruptureareaandamountofslip.Availableseismicdatatightlyconstrainthefocalmechanismandcentroiddepthoftheearthquakebutnotthehorizontallocation.Together,twocomplementarydatasetscanbeusedtoidentifytheactualfaultplane,betterconstraintheslipmodelandeventlocation.Wefirstuseregionalseismicwaveformtoestimatepointsourcemechanism,thenInSARdataisusedtoobtainbetterlocation.Finally,ajointinversionofteleseismicP-wavesandInSARdataisperformedtoobtainadistributedmodel.Ourpreferredpointsourcemechanismindicatesaseismicmomentof~2.2×1018N·m(~MW6.2),afaultplanesolutionof171°(342°)/42°(48°)/-83°(-97°),correspondingtostrike/dip/rake,andadepthof11km.Thefaultplanewithstrikeof171°anddipof42°isidentifiedastherupturedfaultwiththeaidofInSARdata.Thepreferredsourcemodelfeaturescompactareaofslipsbetweendepthof5-11kmand10kmalongstrikewithmaximumslipamplitudeofabout1.5m.
简介:The2009MW7.8Fiordland(NewZealand)earthquakeisthelargesttohaveoccurredinNewZealandsincethe1931MW7.8Hawke'sBayearthquake,1000kmtothenorthwest.InthispapertwotracksofALOSPALSARinterferograms(oneascendingandonedescending)areusedtodeterminefaultgeometryandslipdistributionofthislargeearthquake.Modelingtheeventasdislocationinanelastichalf-spacesuggeststhattheearthquakeresultedfromsliponaSSW-NNEorientatedthrustfaultthatisassociatedwiththesubductionbetweenthePacificandAustralianPlates,withobliquedisplacementofupto6.3m.ThisfindingisconsistentwiththepreliminarystudiesundertakenbytheUSGSusingseismicdata.