Mechanical SystemsEngineeringMechanical SystemsMechanical Systems EngineeringMechanical Systems Tounderstandinterfacesistounderstandnature;itleadstoplentifulapplications;e.g.,byapplyingacfields,wecanobservestrongvortexflowsduetoinduced-chargeelectro-kineticphenomena(ICEK)aroundaconductivematerial;andbyusingICEK,wecandevelopinnovativemicrofluidicdevices,suchaspump,valve,mixer,etc.Sugiokalaboratoryinvestigatesnovelmicrofluidicsystems,suchasLab-on-a-chipandmicro-TAS,usingICEKforpromisingbiomedicalapplications.Automaticcontrolisusedinmanysystemsinoursocietysuchasautomobiles,precisionmechanicalsystems,andhighspeedelevators,etc.Tocontributiontothesociety,Chidalaboratoryinvestigatesnovelandeffectivetechnologiesoftheautomaticcontrol.Weareespeciallytheory,modeling,stateestimation,systeminterestedincontrolfaultdetectionandisolation,andoptimization.Theidentification,developedmethodsareappliedtoagriculturalrobots,pneumaticisolationtables,andharddiskdrivesystems,etc.Theresearchexperienceoncomplexmicrofluidicsystemsisverysuitabletoobtainastrongpointasaresearcherwithawiderangeoffundamentalknowledge.thatallgraduatesofourlaboratoryobtainfundamentalscientificabilitiestoworkasanexcellentresearcherintheworld.IexpectAutomaticcontroltechnologyisusedwidelyinourindustrialworldandisoneofthebasictechnologiesinthesystemsciencewhichiseffectiveforsystemintegrationapplications.Andthecontrolmethodcanbeappliedtomanyareasfromprecisionmachinestoagriculturalrobotsorenergymanagementsystems.Thephilosophyofdesigningcontrolsystemcanalsobeappliedtosolvevariousdesignproblemsindifferentfields.Manystudentsgotograduateschools.InChidalaboratory,studentsareactiveandareexpectedtoworkontheirresearchprojectsindependently.Theexperiencesinthelaboratorywillhelpthemintheirfuturecareers.Newknowledgeofinterfacesciencemayleadtoinnovativenano-machineandnano-systems.Inparticular,torealizetheinnovativenano-machinethatmimicsalivingformsuchasamicroorganisminwaterandamacrophageinahumanbody,tounderstandthesurfacesciencebetweenthefluidandsolid.Thus,wewillpursuethisfieldtorealizesuchultimatemachineshavingthefunctionsthatonlylivingformshaveachievedsofar.isessentialitStudents of R&D team of automatic spinach harvesterSpinach is automatically Experiment of pump: H. Sugioka,Phys. Rev. E 83, 056321 (2011)Theory of pump: H. Sugioka,Phys. Rev. E 78, 057301 (2008)Theory of mixer: H. Sugioka,Phys. Rev. E 81, 036306 (2010)Post-ELEKIN 2012Automatic spinach harvester cuts the root of spinach by cutting blade in the underground and transfers the spinach to the upper section.Research results are presented in international conferences and journals. One of the results was commended by the Fluid Power Technology Promotion Foundation.Theory of formation: H. Sugioka,Phys. Rev. E 80, 016315 (2009)Theory of Artificial Cilium: H. Sugioka,Phys. Rev. Applied 3, 064001 (2015)Experiment of Valve: H. Sugioka,Phys. Rev. E 83, 025302(R) (2011)Theory of valve: H. Sugioka,Phys. Rev. E 81, 036301 (2010)Hideyuki SugiokaProfessorPh.D. (Engineering), Kyoto University, 2012Bachelor&Master-1985,KeioUniversity.1985 -2015, CanonInc.2015.9-Associate Professor2017.6-Present Post Yuichi ChidaProfessorHe is interested in control theory and applications, system modeling and identification, state estimation and prediction, agricultural system, energy management system, etc.In the FutureAfter GraduationIn the FutureAfter GraduationEngineeringEngineeringA novel active control method was proposed by Dr.Koikewho was a Ph.D. course student. The method was presented in an international conference at Santa Clara University in USA.Experimental systems of pneumatic isolation table and students.Automatic spinach harvesterharvested.Simple but Diversified Microfluidic Systems using Novel PhenomenaAutomatic Control: realization of desired motion of systems
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