22ProfessorKOBAYASHIShunichiProfessorKobayashitookhiscurrentpositionin2009afterservinginthefacultyandTechnologyatShinshuUniversityasaseniorandassociateprofessor.Hebeganhisresearchonbloodflowin1996and1997whileworkingasavisitingscholarattheGeorgiaInstituteofTechnology.Hecurrentlycontinuestocarryoutinternationaljointresearch.ProfessorYAMAGUCHIMasakiProfessorYamaguchitookhiscurrentpositionin2015afterworkingasanassistantprofessoratTokyoUniversityofAgricultureandtechnology,anassociateprofessoratToyamaUniversity,andaprofessoratIwateUniversity.IamstudyingtheswimmingbehaviorofvariousformsofaquaticlifeinordertocreateanewrobotbasedontheadroitswimmingabilityofIamalsostudyingbloodflowinordertoexaminemechanicalvulnerabilitytoatheroscleroticplaquethroughmodelexperimentsusingartificialdiseasedarteriesandnumericalcomputations.Ourlaboratoryhasbeenexploringanewresearchfield:biologicalmeasurementbyanalyzingsampleswith“human”,“noninvasive”,and“biosensor”asresearchkeywords.Noninvasivebiologicalmeasurement,usingavarietyofinformationobtainedpainlesslyfromthehumanbody,isatechnologytomaintainhumanhealthandisusedformedicaldiagnosisandtreatment.Furthermore,ourlabisalsoresearchingothertechnologiesthatcanphysicallycontrolwettabilityofmaterialsurfacesasabiomimetictechnology.ofTaxtileScienceprofessorassistantDepartment of Department of livingcreatures.salivaryprecisionisusefulatmanufacturessuchThestiffnessofthisfin,whosedesignisbasedontheflexiblemovementofthetailsoffish,isalteredinrealtimeinanattempttoincreasepropulsiveperformance.Thisrobot,whichcanswiminalldirections,wasdevelopedbystudyingtheswimmingmotionoftheragworm.Portable biosensor of human stress levels by using salivary biomarker.Lotus leaf and superhydrophobicityexpressed by nano-periodic structure on a solid surface.AmodelnumericalatherosclerosisexperimentcomputationandofMachinery and RoboticsBioengineeringMachinery and RoboticsBioengineeringOutlook for researchIbelievethatitispossibletoimplementarobotcapableofworkinginmudorinoceansettingswherethereisagreatdealofseaweedordetritus.Intheareaofbloodflowresearch,mygoalistocreateadiagnosticsystemthatcaninstantlyassesstheriskofatheroscleroticplaquebasedonpatient-specificmedicalimaging,forexamplebymeansofMRI.Outlook for students after graduationGraduateshavegoneontoworkinsuchfieldsasmedicalmachinery,automobiles,electronics,andinformationandcommunications.Somehaveevenpursuedcareersaspublicofficialsorresearchersineducationalresearchorganizations.devices,Outlook for researchByapplyingengineeringsolutionstothemedicalfield,Ihavebeeninvestigatingameasurementsystemtoobtainbiologicalfordiagnosisandtoassistdailylives.Focusingonasalivaryprotein,whichcanbeaneffectiveindexofsympatheticnervesactivity,aquick,easy-touseanalyticalmethodasaportabledevicewasproposed.informationthatOutlook for students after graduationGraduatesworkaspharmaceuticals,biotechnology,automobileandotherindustries.Thehumanscienceandassistivetechnologymightcontributetoanagingsociety. Exploring the biomimetics of aquatic life and medical engineering using biofluid mechanicsHuman information networks and noninvasive biosensing
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