简介:摘要目的应用彩色超声心动图与动态血压监测技术对200例高血压病进行观察对左室功能的影响。结果夜间平卧收缩压和舒张压均下降与左室肥厚指数(lvmi)呈显著负相关。更进一步研究说明,血压昼夜节律消失的高血压病人。左室肥厚检出率为43%,左室肥厚者血流动力学改变E峰减低,A峰明显增高,EDC减小,检出率高于非左室肥厚者81.9%,P<0.01。结论高血压病人夜间血压水平与血压昼夜节律变化对左室肥厚发生和发展起主导作用。而左室肥厚的有无又与彩色Doppler超声的血流动力学改变具有密切关系,所以超声对心脏检测的客观指标有助于临床治疗方案的确定及疗效判断。
简介:714SDDOPPLERWEATHERRADARSYSTEM¥GeRunsheng(葛润生),ZhangPeiyuan(张沛源)andPengHong(彭红)714SDDOPPLERWEATHERRADARSYSTEMGeRunsheng(葛润生),...
简介:ADopplersodarsystemcontrolledbymicrocomputerisdescribedinthispaper.Thesodarwasusedtodetecttheverticaldistributionofwindandtemperaturestratificationintheatmosphericboundarylayer.Thedetectingresultsshowthatatnighttheverticaldistributionofwindisverycomplicated,whichcanappearasastructureoftwoorthreelayers.Innocturnalatmosphericboundarylayersometimesthereexistsverythinlayerinmulti-layerinversionanditcanberetainedforalongtime.
简介:Windshearreflectsthatthewindfieldisnotuniform,whichisoneoftheprimaryfactorswhichmaketheretrievalofthewindfielddifficult.Basedonvolumevelocityprocess(VVP)windfieldretrievaltechnique,theintensityofwindshearisidentifiedinthispaper.Afteranalyzingthetraditionaltechniquesthatrelyonthedifferenceofradialvelocitytoidentifywindshear,afixeddifferenceamongradialvelocitiesthatmaycausefalseidentificationinauniformwindfieldwasfound.Becauseofthenon-uniformityinwindshearareas,thedifferenceofretrievedresultsbetweensurroundinganalysisvolumescanbeusedasameasurementtoshowhowstrongthewindshearis.AccordingtotheanalysisofasevereconvectiveweatherprocessthatoccurredinGuangzhou,itcanbefoundthattheareasofwindshearappearedwiththestrengthsignificantlylargerthaninotherregionsandthemagnitudegenerallylargerthan4.5m/(s·km).Besides,bycomparingthevariationofwindshearstrengthduringtheconvection,itcanbefoundthatnewcellswillbemorelikelytogeneratewhenthestrengthisabove3.0m/(s·km).Therefore,theanalysisofstrongwindshear'smovementanddevelopmentishelpfultoforecastingsevereconvections.
简介:Todetectthelaserdopplersignal,theunknownsignalistrackedbytheknownsignalusingtheconceptoftopologicalcontravariance.TheunknowntopologicalspaceUandknownspaceMarefounded,andthentheunknownsignal'stransformationistrackeddynamicallyaccordingtothismappingrelationshipbetweenthetwospaces.Thesystemequationisobtainedbygradient-descentmethod,andtheconditionsofstabilityaregivenbyPoincarémapping.Theproposedmethodisappliedtomeasurethein-planedisplacementsignalofthesolid50mawayusinglaserdoppler,signal.Theresultprovesthatthemethodcandetectlaserdoppler.signalaccurately,itsrelativeerrorislessthan0.7%.
简介:AjammingsuppressionmethodbasedonpolarizationsignaldetectionisproposedundercommonrangeandvelocitycheatingjammingforpulseDopplerradar.Onthebasisoftheseparationofthetargetandthejamming,therangeandvelocitytrackonthetruetargetarerealized.FirstlythesignalprocessingmodelofthefullpolarizationpulseDopplerradarisintroduced.Secondlythemethodofcorrecttargetseparationisdiscussed,whichisthetwicedetectionsofenergyandpolarizationstateonthetwodimensionresolutioncellsofrangeandvelocityoftheradarecho.Finallythesimulationsareperformedandtheresultsprovethevalidity.What'smore,multiplerangeandvelocitycheatingjammingcanbesuppressedatthesametimeifthetargetandthejammingaredifferentinthepolarizationdomain.
简介:Range-Doppler(RD)methodandReverse-Range-Doppler(RRD)methodarecombinedtogethertoachieveautomaticgeocodingofSyntheticApertureRadar(SAR)imagequicklyandaccuratelyinthepaper.TheRDmethodisfirstlyusedtolocatethefourcornersoftheimage,thentheotherpixelsoftheimagecanbelocatedbyReverse-Range-Doppler(RRD)method.Resamplingisperformedatlast.Theapproachhasanadvantageoverprevioustechniquesinthatitdoesnotrequiregroundcontrolpointsandisindependentofspacecraftattitudeknowledgeorcontrol.ItcancompensatetheshiftduetotheassumedDopplerfrequencyinSARimagepreprocessing.RRDsimplifiestheprocessofRD,thereforespeedsupthecomputation.TheexperimentalresultsshowthataSARimagecanbeautomatedgeocodedin30susingthesingleCPU(3GHz)with1Gmemoryandanaccuracyof10misattainablewiththismethod.
简介:Objective: ToinvestigatethevalueoftranscranialDoppler(TCD)ultrasonographyinevaluatingtheoutcomeofseveretraumaticbraininjuryandtocorrelatetheTCDvalueswithintracranialpressure(ICP)andcerebralperfusionpressure(CPP)monitoring. Methods: AprospectivestudywasconductedtoevaluatethecontributionofTCDultrasonographytoneurologicaloutcomeinaseriesof96severetraumaticbraininjurypatients.ThequantitativevariablesofTCDultrasonographyincludedthemeanbloodflowvelocityofthemiddlecerebralartery(MCA)andpulsatilityindexwithinthefirst24hoursofadmission.TheICPandCPPvalueswerealsorecorded.Outcomein6monthspostinjurywasevaluatedusingtheGlasgowOutcomeScale(GOS4-5wasconsideredas“good”andGOS1-3as“poor”). Results: ThemeanbloodflowvelocityoftheMCAwaslargerthan40cm/sin30(51%)patientswithgoodoutcomewhereasitwaslessthan40cm/sin27(73%)patientswithpooroutcome(P<0.025).ThemeanPIincasesofgoodoutcome(34patients,57%)waslowerthan1.5whereasinpooroutcome(30patients,83%)washigherthan1.5(P<0.001).ThecorrelationsofICPandCPPtopulsatilityindexwerestatisticallysignificant(P<0.01). Conclusions: TCDultrasonographyisvalidinpredictingthepatientsoutcomeof6monthsandcorrelatessignificantlywithICPandCPPvalueswhenitisperformedinthefirst24hoursofseveretraumaticbraininjury.
简介:Inanactiveradar-trackingsystem,thetarget-motionmodelisusuallymodeledintheCartesiancoordinates,whiletheradarmeasurementusuallyisobtainedinpolar/sphericalcoordinates.Thereforethetarget-trackingproblemintheCartesiancoordinatesbecomesanonlinearstateestimationproblem.Anumberofmeasurement-conversiontechniques,whicharebasedonpositionmeasurements,arewidelyusedsuchthattheKalmanfiltercanbeusedintheCartesiancoordinates.However,theyhavefundamentallimitationstoresultinfilteringperformancedegradation.Infact,inadditiontopositionmeasurements,theDopplermeasurementorrangerate,containinginformationoftargetvelocity,hasthepotentialcapabilitytoimprovethetrackingperformance.AfilterisproposedthatcanuseconvertedDopplermeasurements(i.e.theproductoftherangemeasurementsandDopplermeasurements)intheCartesiancoordinates.ThenovelfilteristheoreticallyoptimalintheruleofthebestlinearunbiasedestimationamongalllinearunbiasedfiltersintheCartesiancoordinates,andisfreeofthefundamentallimitationsofthemeasurement-conversionapproach.Basedonsimulationexperiments,anapproximate,recursiveimplementationofthenovelfilteriscomparedwiththoseobtainedbyfourstate-of-the-artconversiontechniquesrecently.Simulationresultsdemonstratetheeffectivenessoftheproposedfilter.
简介:在医药Doppler超声系统,是的一个高通行证的过滤器通常采用了过滤墙喧嚷部件,将移开未经触动的Doppler超声血表明的低速度血flow.To摘录的信息,一条新奇途径基于空间地选择的噪音过滤被建议。墙信号被空间地选择的噪音过滤第一从小浪估计空间关联性质。然后,墙喧嚷被降噪消除剩余血流动信号的技术的小浪阀值确切获得。最后,未经触动的血流动信号被从混合信号减去墙信号完成。这条途径被用于模仿的计算机并且在vivo颈动脉Doppler超声信号。实验结果证明基于的小浪空间来临能确切提取血流动信号,并且比高通行证的过滤的在吝啬的绝对错误完成大约45%更低的结果。这条途径被期望是一个有效方法在Doppler超声系统移开墙喧嚷。
简介:与从Shantou和厦门和公民的Doppler雷达数据,环境预言和公民的中心为大气的研究(NCEP/NCAR)分析数据集中,台风Chanchu在2006年5月17日引起的短期的重暴风雨的特征被学习。Doppler雷达数据显示在从1800~19005月17日的时期期间,积极、否定的光线的风最大值的方位角的阶段在台风的核心半径附近是不对称的,即,轨道的左边上的光线的风在右边上比那反常地大。研究证明这被冷空气的侵入导致(在东北弯屈),它首先在中间降低层被定位,比4km低;这由于强迫空气高举的侵入的冷空气,提高不稳定性精力的版本,它触发重降水。在冷空气活动的迟了的阶段期间,台风很快被削弱。与冷空气的观察雷达的侵入一致,风数据的NCEP/NCAR分析也证明在台风中心(18005月17日)左边在中间降低层(近似1-3km)有明显的大分级的风价值,并且在所有区域除了,侵入的寒冷影响的那些通风--轨道的右边上的风速度在左边上仍然保持比那些大。而且,Rankine模型结果证实在东北冷的空气在轨道左边在中间降低层被介绍给台风。计算也指出那在那里存在有与高度和发生在福建省的南方的超级重暴风雨向西北从东南倾斜到的高se的一个正面的地区就在正面的地区附近躺。
简介:在这份报纸,卫星转菠在空中的bistaticSAR(SA-BiSAR)的一个特殊几何学盒子被考虑,在哪个卫星和飞机飞行路径是平行的,他们的天线在长带地图正在驾驶。这个盒子是一个简单却典型的申请例子,它为非合作的照明是适用的。SA-BiSAR系统的集成时间经由传输器和接收装置脚印的运动被导出。在平行和stripmap模式,Doppler频率通过在卫星转菠、在空中的SAR之间的联合被获得。另外的Doppler性质被想象,包括Doppler带宽和方位角分辨率。全面模拟实验被进行,一些特征被展出。批评参数,在SA-BiSARDoppler性质上有重要效果,被分析表情和数字模拟提取。在平行和长带地图模式并且与ENVISAT-1的参考,SA-BiSAR系统拥有经由模拟结果的分析产出为C乐队的10m方位角分辨率和0.5s集成时间的潜力。
简介:Vehicularnodepositioningneedstobequickandpreciseonhighwayforsafetyconsidera-tion.Inthispaper,wepresentanovelandpracticalvehicularnodepositioningmethodwhichcanachieveahigheraccuracyandmorereliabilitythantheexistingglobal-positioning-system-basedpo-sitioningsolutionsbymakinguseofDoppler-shiftedfrequencymeasurementstakenbyvehicularnodeitself.Thispositioningmethodusesinfrastructurenodeswhichareplacedontheroadsideeveryseveralkilometersasradiationsourcestoestimatetherelativedistancesofvehicletotheinfrastructurenode.Throughcoordinateconversion,wegettheabsolutecoordinatesofvehicularnodebasedonknownabsolutecoordinatesofinfrastructurenode.Wealsoanalyzetheoptimaldistanceofneighborinfra-structurenodesinordertoensureahighaccuracy.Inaddition,simulationresultsdemonstratethattheaccuracyofourmethodwithExtendedKalmanFiltering(EKF)issuperiortothemethodwithoutEKF.
简介:台风Rananim(0414)被从分析的中心和暴风雨(帽子)的预言使用非静水力学的先进地区性的预言系统(ARPS)模仿了。Rananim的预言通常用新一代CINRADDoppler雷达数据与ARPS被改进了。有那或没有使用数据显示出的雷达的数字实验与在ARPS的光线的速度数据能改变的吸收雷达为起始的域建模在对流层的中间和高水平的风域;热带气旋(TC)的好特征被介绍进起始的风,TC的风速度南方的x部件被增加那么它向西是y部件。他们导致在时间TC轨道预报改进在以后乍见陆地。混合混合比率的比率,温度,云水混合比率和雨水的水蒸汽的地被使用雷达反射率数据也改进了。模型对hydrometeors的介绍的起始的反应被增加了。水平模型分辨率在紧张预报上有重要影响,这被显示出,由极大地改进特殊预报TC的TC降雨,和重暴风雨,以及它有时间的分发和变化。
简介:Ubiquitousradarisanewradarsystemthatprovidescontinuousanduninterruptedmultifunctioncapabilitywithinacoveragevolume.Continuouscoveragefromclose-in'pop-up'targetsincluttertolong-rangetargetsimpactsselectionofwaveformparameters.Thecoherentprocessinginterval(CPI)mustbelongenoughtoachieveacertainsignal-to-noiseratio(SNR)thatensurestheefficiencyofdetection.TheconditionofdetectioninthecaseoflowSNRisanalyzed,andthreedifferentcasesthatwouldoccurduringintegrationarediscussedandamethodtodeterminetheCPIispresented.ThesimulationresultsshowthattargetsdetectionwithSNRaslowas-26dBintheexperimentalsystemcanpossiblydeterminetheCPI.
简介:UsingsingleDopplerweatherradarechoinformation,thispaperpresentsatechniqueforrecognizingtwo-di-mensionalflowfieldstructureoftheseverestormandestimatingthedivergence,thevorticity,andtheintensityofwindshearline,andgivessomeexamples.