简介：ImmobilizationusinglittlesplintisanoriginalinnovationofChinesepeopleforthefracturefixation,whichissimpletouseandclinicallyeffective.ItwasfoundthatChineseimmobilizationusinglittlesplintcanmakethenon-invasive,uncovering,andtroublefreehealingofbonefractureviaharmoniousunityofthestructurestabilityandtheforcebalance,ofthemotionstabilityandthestressadaptability,oftheconstantanddiscontinuousphysiologicalstress.ThebiomechanicaleffectofChineseimmobilizationusinglittlesplint,includingentirety,dynamic,andfunctionalfixity,istherootcauseofitsinheritanceandtheuseuptonow,andalsoisadirectionoftoday’sfracturefixationtowardspersonalization,individualityandentirety.

简介：Inordertolistentobrainactivityasapieceofmusic,weproposedascale-freebrainwavemusic(SFBM)technology,whichtranslatesthescalpEEGintomusicnotesaccordingtothepowerlawofbothEEGandmusic.Inthispaper,themethodologywasfurtherextendedtochorusmusicoftwochannelsfromthetwohemispheres.Firstly,EEGdatafromtwochannelssymmetricallylocatedontheleftandrighthemispheresaretranslatedintoMIDIsequencesbySFBM,respectively,wheretheEEGparametersmodulatethepitch,durationandvolumeofeachmusicnote.Then,thetwosequencesarefiiteredintoachorusoftheChinesepentatonicscaleortheWesternmajorscale.TheresultedChineseandWesternmusicatdifferentsleepstagesillustratedistinctdifferencesinharmony,andthemusicwithChinesepentatonicscalesoundsmoreharmonious.

简介：BasedonthefuzzycharacteristicofthepulsestateandsyndromesdifferentiationthinkingmodeofTCM,aninformationfusingrecognitionmethodofpulsestatesbasedonSFNN(StochasticFuzzyNeuralNetwork)ispresentedinthispaper.Withthelearningabilityinparametersandstructure,SFNNfusesthemeasurementinformationofthreepulse-statesensorsdistributedinCun,Guan,andChilocationofbodyforthepulsestaterecognition.Theexperimentalresultsshowthatthepercentageofcorrectrecognitionwithnewmethodishigherthanthatbysingle-datarecognitionone,withfeweroff-linetrainnumbers.

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