ebook img

The discrimination of auditory temporal patterns : effect of temporal position, channel, and intertone time statistics PDF

136 Pages·1996·4.3 MB·English
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview The discrimination of auditory temporal patterns : effect of temporal position, channel, and intertone time statistics

THEDISCRIMINATIONOFAUDITORYTEMPORALPATTERNS:EFFECTOF TEMPORALPOSITION,CHANNEL,ANDINTERTONETIMESTATISTICS By TOKTAMSADRALODABAI ADISSERTATIONPRESENTEDTOTHEGRADUATESCHOOL OFTHEUNIVERSITYOFFLORIDAINPARTIALFULFILLMENT OFTHEREQUIREMENTSFORTHEDEGREEOF DOCTOROFPHILOSOPHY UNIVERSITYOFFLORIDA 1996 ACKNOWLEDGMENTS Iwouldliketothankmyfamily,especiallymymotherandmysister,fromthebottom ofmyheartfortheircontinuoussupportandencouragement:mymother,forbeingagreat rolemodelthroughoutmylifeaswellasprovidingmewithhercontinuoussupportinevery possibleway;mysister,whoseloveandsupporteverystepofthewaygavemethestrength andencouragementtokeepgoing. Very special thanks also go to my friends, who put up with me when I was unbearable. Iespeciallywouldliketoacknowledgeandthankmydearfriend,Dr.Kourosh Saberiforhisfriendshipandendlesssupportaswellashisvaluabletimeandassistance wheneverIaskedfororneededit. Itrulyappreciateit. IthankDr.DeeMontgomery;her friendshipandwillingnesstoalwayslistenandofferhelphasmeanttheworldtome. Ialso thankChrisHays,mybuddy,whosejokes,pranksandfriendshipkeptmegroundedduring thetimewhenItrulyneededit,andJoshFryman,whohasbeenatruefriendandwillalways beinthatcategory. IthankJenniferNye;herfriendshipduringthepastyearhasbeena breathoffreshair. Lastbutnotleast,IwouldliketothankSeanCollins,whoseloveand companionshiphasbeenasourceofsupportandcomfortduringthemosttryingmoments. Myspecialthanksgotomyadvisor,Dr.RobertSorkin,forhiscontinuousguidance andpatiencewithmydissertation, Idoappreciateallhiscontributions. Finally,Iwouldlike togratefullyacknowledgemycommitteemembers,Dr.JeffFarrar,Dr.DavidGreen,Dr. JohnMiddlebrooks, andDr.DavidPerrottfortheirvaluabletimewithmystudy. This researchwas supported bygrantsfromtheAirForceOffice ofScientific Research. 11 TABLEOFCONTENTS page ACKNOWLEDGMENTS jj LISTOFFIGURES ABSTRACT ix INTRODUCTION 1 PatternRecognition 2 CodingofInformationinthePatternofAuditoryStimuli 4 RelatedPhysiologicalReports 11 CurrentExperiments 12 THEMODELFORWEIGHTESTIMATION 14 DENSITYFUNCTIONSFORTEMPORALPATTERNDISCRIMINATION 20 EXPERIMENTI 29 Method 29 Results 35 EXPERIMENTII 45 Method 46 Results 50 EXPERIMENTIII 88 Method 88 Results 91 GENERALDISCUSSION 95 iii BinauralPatternDiscriminationandSomeImplications 98 IdealDistributionofWeightsinaPatternDiscriminationTask 104 EfficiencyofWeightDistributions 108 GuidelinesforFutureExperiments 114 REFERENCES 119 BIOGRAPHICALSKETCH 124 IV LISTOFFIGURES Figure page 1. Varianceoftheabsolutedifferencedistribution[VAR(g)]isplottedasafunction ofthevaluesofthestandarddeviationoftheintertonetimes 24 2. Themeanoftheabsolutedifferencedistribution[E(g)]isplottedasafunctionof thevaluesofthestandarddeviationoftheintertonetimes 25 3. td'imiessp.loTttheedasstaarfsuynmcbtoilosnroefptrheesevnatlutehseoprfetdhiectsitoannsdafrrdomdeRviOaCtioannaolfystihse.iTntheertsoonleid linerepresentsapower-functionfittopredictions(Eq.20) 28 4. ThetoppartofthisfigurerepresentsasampleofSAMEtrialsforthetwo sequencesofapattern,whereasthebottomportionrepresentsasampleof DIFFERENTtrials. Thefrequencyanddurationofeachtonewas1000Hzand 25msrespectively 33 5. Inthisfigure,eachsequenceisdividedinto2 subsequences,AandB. A50ms gapseparatesthetwosubsequences. Thetoppartofthefigurerepresentsa sampleofSAMEtrialsforthetwosequenceofapattern. Thebottompart representsasampleofDIFFERENTtrials 34 6. Relativeweightsareplottedasafunctionofeachtemporalposition. The sequencecorrelationisequalto0. Eachpanelrepresentsdataobtainedfromone listener 36 71.0. Relativeweights,averagedform4listeners,areplottedasafunctionofeach temporalposition. Thesequencecorrelationisequalto0. Theerrorbars representonestandarderrorofthemean 37 8. Relativeweightsareplottedasafunctionofeachtemporalposition. The sequencecorrelationisequalto0.8. Eachpanelrepresentsdataobtainedfrom onelistener 38 9. Relativeweights,averagedform4listeners,areplottedasafunctionofeach temporalposition. Thesequencecorrelationisequalto0.8.Theerrorbars representonestandarderrorofthemean 39 Relativeweightsareplottedasafunctionofeachtemporalposition. Both,the sequencecorrelationandtherepetitioncorrelationareequalto0. Eachpanel v representsdataobtainedfromonelistener 41 11. Relativeweights,averagedform4listeners,areplottedasafunctionofeach temporalposition. Both,thesequencecorrelationandtherepetitioncorrelation areequalto0. Theerrorbarsrepresentonestandarderrorofthemean 42 12. TheupperpartofthisfigurerepresentsasampleoftheSAMEtrials,whilethe lowerpartrepresentstheDIFFERENTtrialsforthecontrolconditionof Experiment2 48 13. Thisfigurerepresentsasummaryofthestimuliusedinthefirstcaseof Experiment2. Inthiscase,thesecondorthesixthintertonetimehasadifferent meandurationthanallothers. Thestandarddeviationisthesameforall positions 49 14. Thisfigurerepresentsasummaryofthestimuliusedinthesecondcaseof Experiment2. Inthiscase,thesecondorthesixthintertonetimehasadifferent standarddeviationthanallothers. Themeandurationisthesameforall positions 51 15. ControlconditionforexperimentI. Relativeweightsareplottedasafunctionof eachtemporalposition. Eachpanelrepresentstheobtaineddataforeach respectivelistener. Themeanandstandarddeviation,foreachposition,were60 and20msrespectively 52 16. Theaveragerelativeweights,from4listeners,areplottedasafunctionofeach temporalposition. Theerrorbarsrepresentonestandarderrorofthemean. The meanandstandarddeviation,foreachposition,were60and20msrespectively.53 17. Relativeweightsareplottedasafunctionofeachtemporalposition. Eachpanel representsdatafromonelistener. Themeandurationforthesecondpositionwas 20,40,80,100ms 54 18. Theaveragerelativeweights,fromalllisteners,areplottedasafunctionofeach temporalposition. Theerrorbarsrepresentonestandarderrorofthemean. The meandurationforthesecondpositionwas20,40,80,100ms 58 19. Relativeweightsareplottedasafunctionofeachtemporalposition. Eachpanel representsdatafromonelistener. Themeandurationforthesixthpositionwas 20,40,80,100ms 63 20. Theaveragerelativeweights,fromalllisteners,areplottedasafunctionofeach temporalposition. Theerrorbarsrepresentonestandarderrorofthemean. The meandurationforthesixthpositionwas20,40,80,100ms 67 vi 21. Thisfiguredepictsaveragerelativeweightsasafunctionofthedifferentmean valuesforthesecondtemporalposition 71 22. Thisfiguredepictsaveragerelativeweightsasafunctionofthedifferentmean valuesforthesixthtemporalposition 72 23. Relativeweightsareplottedasafunctionofeachtemporalposition. Eachpanel representsthedatafromonelistener. Thestandarddeviationforthesecond positionwas40,60,100ms 74 24. Theaveragerelativeweights,fromalllisteners,areplottedasafunctionofeach temporalposition. Theerrorbarsrepresentonestandarderrorofthemean. The standarddeviationforthesecondpositionwas40,60,100ms 77 25. Relativeweightsareplottedasafunctionofeachtemporalposition. Eachpanel representsthedatafromonelistener. Thestandarddeviationforthesixth positionwas40,60,100ms 80 26. Theaveragerelativeweights,fromalllisteners,areplottedasafunctionofeach temporalposition. Theerrorbarsrepresentonestandarderrorofthemean. The standarddeviationforthesixthpositionwas40,60,100ms 83 27. Thisfiguredepictsaveragerelativeweightsasafunctionofthedifferentstandard deviationvaluesforthesecondtemporalposition 86 28. Thisfiguredepictsaveragerelativeweightsasafunctionofthedifferentstandard deviationvaluesforthesixthtemporalposition 87 29. ThetopportionrepresentsasampleofSAMEtrialsforthetwosequencesofa patternintherandom-modebinauralcondition. Thebottomportionrepresentsa sampleofDIFFERENTtrialsinthiscondition. Thefrequencyanddurationof eachtonewas1000Hzand25msrespectively 90 30. Theabscissarepresentstheexperimentalconditionsandtheordinaterepresents thepercentcorrect. Eachpanelrepresentsthedatafromonelistener 92 31. Averagepercentcorrectisplottedasafunctionoftheexperimentalconditions. Theerrorbarsrepresentonestandarderrorofthemean 93 32. Averagepercentcorrect,for4listeners,isplottedasafunctionofthe experimentalconditions. Thesolidlinerepresentstheobtaineddata,andthe dashedlinerepresentsthemodel'sprediction 100 33. Thedataconnectedbythesolidlinerepresenttheaveragerelativeweights,from Vll alllisteners,asafunctionofeachtemporalposition. Thedashedlinerepresents theidealweights. Thestandarddeviationforthesixth positionwas40,60,100 ms 109 34. EfficiencycalculationsfromExperimentI. Theordinaterepresentstheefficiency valueandtheabscissarepresentsthecorrelation 113 35. Efficiencycalculationsfrompart1ofExperimentII. Theordinaterepresentsthe efficiencyasafunctionofthevalueofthemeanintertonetimeforthesecond position 115 36. Efficiencycalculationsfrompart1ofExperimentII. Theordinaterepresentsthe efficiencyasafunctionofthevalueofthemeanintertonetimeforthesixth position 116 vm AbstractofDissertationPresentedtotheGraduateSchooloftheUniversityofFloridain PartialFulfillmentoftheRequirementsfortheDegreeofDoctorofPhilosophy TfffiDISCRIMINATIONOFAUDITORYTEMPORALPATTERNS:EFFECTOF TEMPORALPOSITION,CHANNEL,ANDINTERTONETIMESTATISTICS By ToktamSadralodabai May1996 Chairman: RobertD.Sorlcin MajorDepartment: Psychology Forallthreeexperiments,listenerswerepresentedwith2sequencesof9tones. The tonedurationswerealways25msandthesequencepatternsweredefinedbyintertonetimes. Thelistenerhadtodecideifthetwosequenceswerethesameordifferent. Threestudies examinedtheimportanceoftemporalposition,meanandvarianceofintertonetimesandthe effectofauditorychannelonlisteners'decisionsinanauditorypattern-discriminationtask. Thefirststudyexamined,usingacorrelation-weight-estimationtechnique,theability oflistenerstoallocatedecisionweightstoeachintertonetimeoftheauditorytemporal pattern. Thisstudyinvestigatedtheimportanceofordinalpositionwithinthesequenceon listeners'decisions. Resultsshowedthatalllistenersconsistentlyallocateddifferentweights todifferenttemporalpositions,withthefirstpositioncarryingthelargestweight. Theeffect IX ofrepetitionofsomeofthecomponentsinthesequence(rhythmicity)ondiscriminationof thetemporalpatternswasalsotested. Resultsshowedthatthisalterationdidnothavea noticeableeffectonperformance. Thesecondstudyexaminedtheabilityoflistenerstoallocateweightstotemporal positionsbasedonthediagnosticityoftheinformationprovidedbyeachcomponent’s position. Bydiagnosticity, itismeanteitherthe magnitudeofthat informationorits statistical difference from the other intertone times. Results indicated that assigning differentstandard-deviationvaluesaffectedthelisteners'weight-distributionstrategygreatly, whereasassigningdifferentmeanvaluesdidnothaveanoticeableinfluence. The third study examined the effect ofsequence presentation across auditory channels. Inonecondition,theeartowhicheachtoneofthesequencewaspresentedwas chosenrandomly,andinasecondcondition,thetoneswerepresentedinalternatingorder betweenthetwoears. Theresultsdemonstratedthatwhenthetonesofasequencewere presentedrandomlytoeachchannel,performancewasatchance(0.5probabilityofcorrect responseina2IFCtask). However,whenthetoneswerepresentedalternatelyandlisteners wereexpectingthestimulatedchannel,theirperformancegreatlyimproved(approximately 0.75-0.80probabilityofcorrectresponse). x

See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.