Electrical& Computer Electrical& Computer Electrical& Computer Electrical& Computer Ourresearchfocusesonpreventivemedicineandsupportofmedicaldevicedevelopment.Indailylife,measurementofheartrateandevaluationofautonomicnervousactivityplayasignificantroleinself-healthmanagement.Therefore,inordertoobtainthoseinformation,wearedevelopingawearabledevicewhichismoreresistanttonoisesuchasmotionartifact.Inaddition,we’vebeendevelopingamethodwhichhashighaccuracyandspeedfordetectinglife-threateningarrhythmiasandresearchingamethodforevaluatingeffectsofvisualstimulionhuman.Organicmaterialsandrelatedelectronicdevicesareconsideredasanpowerfulpotentialcandidateforthenext-generation,environmentalfriendly,flexible,ambientelectronics.Wearenowinvestigatingthenewconceptsanddevicephysicsofhighlyefficientorganicsolarcells,organiclightemittingdiodes,ultra-thincapacitors,gassensors,electrodematerialsandrelatednano-hybridmaterialsandtechnologies.thepopulationinJapancausestheAgingofgrowthinmedicalexpenditure,andthatfactincreasesaburdenonyoungpeople.Ourresearchisaimedatsuppressingitsgrowthbypreventivemedicine.Furthermore,weaimforthespreadofpeople-friendlymedicaldevicesandofsafeimagecontents.Webelieveourresearchcancontributetocreatingawell-beingsociety.Biomedical engineering requires a wide knowledge and technique such as manufacturing experimental equipment and programming of signal processing. I will teach you to take advantage of your experience in our laboratory.OrganicHybridSolarcellswillbepreparedbyprintingtechniquesbuttheefficiencywillbecomparabletoSisolarcells(~20%)inthenearfuture.TheorganicLEDwillbeanewtypesofpaper-likelightinganddisplays.Thenano-carbonsandhybridmaterialswillbeanewclassoftransparentelectrodes.Theenvironmentalsensorswillbeusedastheultra-fast,high-sensitivehumidity(orhealthcareapplications.gas)Manygraduatesworkinthegeneralelectricdevicesmanufacturingcompany,electricpowercompanies,Chemicalcorporation,etc.Theyhavetheelectricalandlearnednotonlyaskillofelectronicengineeringbutalsoanideaoftheglobalenvironmentandthesavingenergy,andknowledgeofvarioustypesofmaterials.sensors,andA summary of measurement of green photoplethysmograhicsignals at multiple sites.A summary of an experiment to evaluate biological effects of three-dimensional (3D) scenography based on a physiological index.Transparent conductive layerTop electrodeBuffer layerAbsorberBottom electrodeSubstrateMakoto AbeAssociate ProfessorHe received Ph.D. degree in Electrical and Communication Engineering from Tohoku University in 2009. His research interests include biomedical signal processing and support for development of medical devices.EijiItohProfessor (2015-)He received his Ph.Dfrom Tokyo Institute of Technology in 1998. He joined Shinshu Univ. from 1998. Research fields︓・Organic Electronics and Related In the FutureAfter GraduationIn the FutureAfter GraduationMaterials・Organic and Hybrid Solar Cells・Organic Light Emitting Diodes・Environmental Friendly Sensors・Electronics Applications of Nano-Carbons and Hybrid Materials・Polymer DielectricsEngineeringEngineeringEngineeringEngineeringResearch of Organic Electronic Materialsand Devices, and related Nano-Hybrid TechnologiesFusionofEngineeringandMedicine:BiomedicalEngineeringforHealthyLife
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