Electrical& Computer Electrical& Computer 31In the FutureAfter GraduationIn the FutureAfter GraduationAssociate ProfessorGraduated from Shinshu Univ. Graduate School of Eng. in March 2007. Dr. (Eng.). Research fields are high frequency devices, circuits, sensors, etc.Associate ProfessorHead of magnetic energy harvesting project, Shinshu University.He received the PhD degree from Kyushu University, in 2006.His fields of interest include sensor, shielding, and energy harvesting. EngineeringEngineeringTheelectricdevices,circuits,andsensorsusingthemagnetic/novelcompositematerialsforthemsupportingthenextgenerationsystemareresearchinganddevelopingintheAdvancedMagneticDevices(Sato-Sonehara)Laboratorycollaboratingwithvariouslabs.,academicinstitutions,andcompanies.Sonehara’sgroupisdeveloping(1)thehigh-frequencythinfilminductorandnoisefilterforthesupersmartsociety(Society5.0),(2)theregenerativebrakingsystemfornextgenerationmobility(aircraftandEV),and(3)theopticalprobecurrentsensorfornextgenerationinfrastructure.Refertohttp://amdl.shinshu-u.ac.jpforthelatestinformationonourlaboratory.Makoto SoneharaInTashirolaboratory,wespecializeinresearchingenergy,sensor,actuator,andshieldtechnologieswithelectromagneticphenomena.Wevaluehumannetworksthroughourunconventionalresearchusingelectromagneticphenomenainvolvingmagnetism,whichwecall"INNO-vationresearch"(unconventionalresearchbasedonareversewayofthinking).Oneoftheseareasismagneticfieldenergyharvesting(MFEH).Inadditiontojointresearchwithcompaniesthatcanunderstandresearchpresentationsatacademicconferences,weactivelypromotemedical-engineeringandagricultural-engineeringcooperationprojectswithotheruniversities,notonlyaspartofourresearchresults.Kunihisa TashiroIbelievethatiftheabovedevicesandsensorsarerealized,theywillsupportapartinhardwaretechnologyofthesupersmartsocietyandthenextgenerationmobilityindustry/infrastructure.Inaddition,anydevice/sensorleadstohighefficiencyofthesystem,contributingtoalow-carbonsocietyasitwillsavetheenergybythedevicelevel.ManyAMDLgraduatesworkinthevariouscompanies,andtheresearchinstitutes,etal.Theyhasnotonlyaskilloftheelectricalandelectronicengineeringbutalsoanideaoftheglobalenvironmentandthesavingenergy.Twelveyearsafterourfirstreportin2011,MFEHforelectricalrailwaysandtransmissionlines,iswellknownasamethodbywhichasystemcanharnessanambient,alternatingmagneticfieldinordertoscavengeenergy.MFEHisapromisingmethodfornotonlyEH-WSN,butalsowirelesspowertransfer(WPT).Ourpublishedbook,Magneticenergyharvesting,hasalsobeentranslatedintoEnglishbook.Almostgraduatedstudentswillbeakeypersoninacompany.Thefieldsofcompanyarenotonlylimitedtoelectricalandelectronics,butalsoinstrumentation,medical,infrastructureandsoon.Becauseapplicationsofmagneticshelpourmodernlife,engineersrelatedtomagneticsareveryimportant.Ourpublishedbook,Magneticenergyharvesting.In2016,itreceivedabestbookawardfromAEMsociety,Japan.SchematicexplanationofMFEHforelectricalrailways.MFEHcouldbecategorizedintothecable-clampedandfree-standenergyharvesters.Development of Elec. Devices for Next Generation System-Hardwaretechnology for Society 5.0 and new mobility -INNO-vationresearch utilizing magnetism, MFEH is one of those examples.
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