简介:Consideringtheuncertaineffectsoftemporalandspatialchangesinthemarineenvironmentontheunderwateracousticenvironment,weestablishedanocean-acousticcouplednumericalmodelandperformedaparallelcalculation.Thismodelincorporatedacousticcalculationsintothedynamicocean,therebyachievingadynamicforecastingandassessmentoftheacousticenvironment.Furthermore,weadoptedtheensemblepredictionmethodtopredicttheverticalstructureoftemperatureinaclassiccross-section,thesoundspeedofthecross-sectionoftheinvestigatedseaarea,andtransmissionlosses.Wegavethepredictionerrorsofthesoundspeedprofileaswellasthe90%probabilityintervaloftransmissionlossesandtheuncertaintyhistogramsofthesoundspeeds,transmissionlosses,andsonarrangesatdifferentdepthsandfrequencies.Theresultsreflectedtheinfluenceofmarinetemporalandspacialvariationsontheuncertaintiesoftheunderwateracousticenvironment,andtheresultsalsoquantifiedtheuncertaintiesoftheunderwateracousticenvironmentparameters.Theexperimentalresultsindicatethatthemethodusedinthisstudyisabletodelineateandquantifytheuncertaintiesoftheunderwateracousticenvironmentcausedbymarinedynamicchanges.
简介:ThispaperdescribesanewphenomenonofacousticstreamingwhichtakesplacewhenaHelmholtzresonatorisexcitedbyaninsidesoundsourcewithresonantfrequency,andtakestheformofastrongturbulentjet.Theflowvisualizations,hotwireandLDVmeasurementsarecombinedtoinvestigatetheprocessofacousticstreaming.ItisfoundthatthiskindofacousticstreamingresultsfromthecontributionofReynoldsstress.
简介:Anacousticbasedinstrument,theABSAcousticBubbleSpectrometer??(ABS),wasinvestigatedforthedetectionandquantificationofbubblesinbiologicalmedia.Theseincludeviscoelasticmedia(blood),materialsofvaryingdensity(boneintissue),non-homogenousdistributionofbubbles(intravenousbubblyflow),andbubblesmigratingintissue(decompressionsickness,DCS).TheperformanceoftheABSwasdemonstratedinaseriesoflaboratoryexperiments.Validationofthecodewasperformedusingaviscoelasticpolymersolution,Polyox,inwhichthebubblesizedistributionandvoidfractionweredeterminedbyABSmeasurementsandwithimageanalysisofhighspeedvideos.ThesetestsshowedthattheaccuracyoftheABSwasnotsignificantlyaffectedbyviscoelasticityforbubblessmallerthan200microns.TheABSdetectionandmeasurementofnon-homogenousbubbledistributionswasdemonstratedusingabubblyflowthroughasimulatedveinsurroundedbytissue.Thescatterofacousticsignalsduetobonesintheacousticpathwaywasalsoinvestigated.Thesein-vitroexperimentsweredoneusingmeat(beef)asatissuesimulant.Decompressionexperimentsweredoneusingbeefmeatwhichwasheldunderwaterathighpressure(9.9atm)thenrapidlydecompressed.Bubblesizedistributionsandvoidfractioncalculationsintheseexperimentswerethenvalidatedusingimageanalysisofhighspeedvideo.Inaddition,preliminaryexperimentswereperformedwiththeUSNavyMedicalResearchCenter,demonstratingtheutilityofthemodifiedABSsystemindetectingtheevolutionofbubblesinswineundergoingdecompressionsickness(DCS).TheseresultsindicatethattheABSmaybeusedtodetectandquantifytheevolutionofbubblesin-vivoandaidinthemonitoringofDCS.
简介:我们在一棵锯季度的白杨上使用了声学的测试在声学的波浪上学习木头anisotropy和洞缺点的效果的木材速度和旅行路径,和我们在木头调查了声学的波浪繁殖行为。木材标本首先处于未修改的状况被测试然后在在实验室的声学的波浪的播送时间调节的改变尺寸确定的洞缺点的介绍以后测试了。标本的光线的节上的二维的声学的波浪轮廓地图然后基于试验性的数据被模仿并且分析。当波浪通过木头在各种各样的方向过去了,我们测试了在木头谷物和声学的波浪速度之间的关系。伍德anisotropy在速度和通过超过的木材传递纵的波浪的声学的波浪,和速度的旅行路径上有重要效果光线的速度。而且,洞缺点在木材的光线的节上改变了声学的波浪时间轮廓。从刺激的声学的波浪运输比在未经触动的木头更慢慢地在有缺点的木头在一个洞后面指向这个区域。
简介:<正>AcousticNeuroma(AN)arisesfromtheeighthcranialnerve.Itprimarilyinvolvesthevestibularbranchofthenerveandisthereforealsocalledvestibularschwannoma(VS).Tothedate,diagnosisandsurgicaltreatmentofANhaveadvancedsignificantly.Alongwithadvancesinaudiologyandimagingtechnologies,casesofdiagnosedANhavebeenincreasing,makingitacommon
简介:Inordertoovercometheexistingdisadvantagesofofflinelasershockpeeningdetectionmethods,anonlinedetectionmethodbasedonacousticwavesignalsenergyisprovided.Duringthelasershockpeening,anacousticemissionsen-soratadefinedpositionisusedtocollecttheacousticwavesignalsthatpropagateintheair.Theacousticwavesignalissampled,stored,digitallyfilteredandanalyzedbytheonlinelasershockpeeningdetectionsystem.Thenthesystemgetstheacousticwavesignalenergytomeasurethequalityofthelasershockpeeningbyestablishingthecorrespondencebetweentheacousticwavesignalenergyandthelaserpulseenergy.ThesurfaceresidualstressesofthesamplesaremeasuredbyX-raystressanalysisinstrumenttoverifythereliability.Theresultsshowthatboththesurfaceresidualstressandacousticwavesignalenergyareincreasedwiththelaserpulseenergy,andtheirgrowthtrendsareconsistent.Finally,theempiricalformulabetweenthesurfaceresidualstressandtheacousticwavesignalenergyisestablishedbythecubicequationfitting,whichwillprovideatheoreticalbasisforthereal-timeonlinedetectionoflasershockpeening.
简介:Theacousticperformanceofthestructureformeasuringcavitationnoiseistheoreticallyanalysed,andtwojudgingcriteriaoftheacousticperformanceofSTW(soundtransmissionwindow)arepresentedinthispaper.OneisofimpedancematchingbetweenworkingliquidandSTW:ρ1C1=ρ2C2.Theotherisofmaximumfrequency(orminimumwavelength)ofcavitationnoisespectrum:fmax≤c/60D(orλmin/D≥60).Ifeitherofthecriteriaismetreliablemeasuredresultsofcavitationnoisewillbeobtained.Thetheoreticalresultsareverifiedthroughexperi-ments.Accordingtothecriteria,thepaperanalysestheacousticperformanceofroutinelyusedplexiglassSTW.Theresultsshowthatintheresearchofclearwatercavitationtheimpedanceratio,2.18,doesnotsatisfyρ1C1=ρ2C2,andfmax≤C/60Dhardlyholdsforactualcavitationnoisespectrum.Therefore,plexiglassSTWisnotgoodenoughforsoundtransmission.Fromthispointofview,polyethyleneisbettersoundtransmissionmaterialthanplexi-glass.
简介:Eightsetsofcoastalacoustictomography(CAT)systemsweredeployedduringNovember29toDecember10,2002atthecoastsonbothsidesofTokyoBaytomeasuretidalcurrentstructuresat15-mininterval.SoundtransmissionacrosstheTokyoBay(betweenYokohamaandChiba)wassuccessfullytraced,evenundersevereinterferencefromshipgeneratedwakesandbubbles.Tidalcurrentfieldschangingfromnorthwardtosouthwardflowarewellreconstructedbytheinverseanalysisoftravel-timedifferencedataforaperiodwiththebestsoundtransmissioncondition.ItissuggestedthattheCATisthemostpowerfultooltocontinuouslymaptidalcurrentfieldsinthecoastalseaswithheavyshippingtrafficandfisheriesactivity.
简介:Thepresentreportsummarizesourexperienceusingendoscopesandneuronavigationaltechniquesasanassistanceinminimallyinvasivetoolinacousticneurinomasurgery.Basedontheexperienceinabout100casesdoneduringthelast5yearsusingtheseadditionaltechniquesthesignificantbenefitbyusingbothtechniquescouldbeprovenasabsolutelyhelpful.Inourpatientcollectiveuntilnownocomplicationscouldbeendetectedregardingtheuseoftheseoptionsaswellastheeffectivenesswasfromveryhighvalue.These,foronehandindetectingresidualtumoraswellasthepossibilityofcontrollingtheresultaftertheresectionusingrigidangledendoscopesandfortheotherhandbytheclearefficiencyinusingneuronavigationalsystemsinplanningandperformingtheapproachaswellasdoingsafetydrillingbyremovingtheposteriorpartoftheinnerauditorychannel.Specialremarksandrecommendationsofthetechnicalequipmentwhichhasbeenusedaregivenaswellaspersonalexperiencesintheoperatingroomsetup.Basedonourresultsandexperiencetheuseofthistwowellknowntechniquesinadditiontowelltrainedmicrosurgicaltechniquescanbehighlyrecommended.