繊維学部研究紹介_2020_英語版
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Ourlaboratoryhasbeenexploringanewresearchfield:biologicalmeasurementbyanalyzingsalivarysampleswith“human”,“noninvasive”,and“biosensor”asresearchkeywords.Noninvasivebiologicalmeasurement,usingavarietyofinformationobtainedpainlesslyfromthehumanbody,isatechnologytomaintainhumanhealthandisusedformedicaldiagnosisandtreatment.Furthermore,ourlabisalsoresearchingothertechnologiesthatcanphysicallycontrolwettabilityofmaterialsurfacesasabiomimetictechnology.Byapplyingengineeringsolutionstothemedicalfield,Ihavebeeninvestigatingameasurementsystemtoobtainbiologicalinformationthatisusefulfordiagnosisandtoassistdailylives.Focusingonasalivaryprotein,whichcanbeaneffectiveindexofsympatheticnervesactivity,aquick,easy‐touseanalyticalmethodasaportabledevicewasproposed.Graduatesworkatmanufacturessuchaspharmaceuticals,biotechnology,automobileandotherindustries.Thehumanscienceandassistivetechnologymightcontributetoanagingsociety.ProfessorMasakiYamaguchiProfessorYamaguchitookhiscurrentpositionin2015afterworkingasanassistantprofessoratTokyoUniversityofAgricultureandtechnology,anassociateprofessoratToyamaUniversity,andaprofessoratIwateUniversity.Portable biosensor of human stress levels by using salivary biomarker.Lotus leaf and superhydrophobicityexpressed by nano‐periodic structure on a solid surface. Human information networks and noninvasive biosensing学科名等はこちらで入力いたしますThesophisticatedfunctionsandmechanismsassociatedwiththeflightsofinsectsandbirdsofferpossibilitiesforinnovationandimprovementofaerialrobots,fluidmachinery,andtransportationequipment.Weareanalyzingtheexcellentfunctionsofthewingsandbodyofinsectsandbirdsbasedontheapproachof"biomechanicalengineering",whichdiscussesthestructureandfunctionoflivingthingsfromtheviewpointofmechanicalengineering,andusetheknowledgeobtainedfromthemtoanalyzerobots,fluidmachinery,andtransportationequipment.Ihavenotmentoredanygraduatesyetinmycurrentposition.Iexpectthatstudentswillhaveflexiblethinkingbecausetheywilllearnbioengineeringthatisoneofmulti‐disciplinaryacademicfields.Currently,weareworkingondevelopmentofflappingwingrobotsandbiology‐inspiredflowcontrolbasedonnumericalsimulations,experiments,anddatascience.Bioinspiredandbioengineeredflappingwingrobotswillhelpustoextendthecapabilityinourlifeintermsofcollectinginformationandsafety.Furthermore,understandingoffunctionalitiesofwingandbodyofbirdsandinsectsalsowillimprovetheperformanceoffluidmachineryandtransportationequipment.Sketch of owl’s gliding flight and flow structures around owl’s wing model by numerical simulationExperimental and numerical investigation of flapping wing robotsAssociateProfessorHikaruAonoAssociateprofessorAonotookhiscurrentpositionin2020afterworkingasanassistantprofessoratTokyoUniversityofScience.Hisresearchinterestsincludefluidengineering,bioinspiredflyingrobots,andbioacoustics.Bioengineered flapping wing robots and biology‐inspired flow control25Department of Machinery and RoboticsBioengineeringDepartment of Machinery and RoboticsBioengineeringOutlook for researchOutlook for students after graduationOutlook for researchOutlook for students after graduation

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