工学部_研究紹介_2019_英語版

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Mechanicalstructuresaroundusaredesignedtomeetcertaincriteria.Inrecentyears,thedesigncriteriasuchassafety,reliability,andadaptabilitytonaturalenvironmentareconsideredveryimportant.“Optimaldesign”,“shape/vibrationcontrol”,and“healthmonitoring”areexpectedasnoveltechnologiestoimprovemechanicalstructuresinsafety,reliability,andadaptabilityaswellastheirperformance.Forexample,itisimportanttoimprovethesafety,reliability,andenvironmentaladaptabilityofaircraftsaswellastheperformance.Wehavecarriedoutfundamentalstudiesonthetechnologiestorealizeinnovativeaircraftstructureswhicharesafe,reliable,andkindtonature.Webelievethesetechnologieswillbevaluableinthedesignanddevelopmentoffuturemachinestructures.MasakiKameyamaAssociateProfessorAreaofInterest:OptimaldesignofsmartcompositestructuresKeywords:Aeroelasticity,StructuralMechanics,Optimization,etc.Optimal design of structures considering multiple design criteria by using PC.Structural Design for Safety, Reliability, and AdaptabilityDamage detection of structures based on Lamb wave propagation characteristics.Mostofthemareworkinginthefieldsofautomotive,transportationandelectricmachineryindustries.“Independency”and“abroadperspective”arefosteredthroughtheresearchactivitiesinthislaboratory.27.027.528.027.027.528.028.5 Pareto optimal solutionsNormalized fundamental frequencyNormalized compressive buckling loadxyzKameyamaLabIn the FutureMechanical Systems EngineeringAfter GraduationAdvanced Robotics based on New Dynamics & Control Principle Sakai LabOur impedance control achieves mechanical structure in the presence of parameter perturbations which are totally unknown. Left: Our aerial vehicle transforms from a helicopter to an air plane. Right: Our robot has a different signal configuration from ASIMO, BigDog. In the futureAfter graduationA new modeling and control of hydraulic robots in our laboratory attracts one or two of the world biggest construction machinery companies/heavy industrial companies. From our laboratory, you will see actual and serious robotic problems (e.g., Fukushima problems). A new camera based modeling and control also attracts academic researchers since our method is free from the geometric feature extractions which strongly restrict applications. In our laboratory, you can enjoy new robotics.Many students will be the master students for research and development in robotic systems and control. They will present their results in the highly-valued international conferences or journals. They can be control engineers as well as mechanical engineers (in Hitachi, Fujitu etc.). SatoruSakaiAssociate ProfessorJSPS post doctoral research fellow (Kyoto Univ., TwenteUniv., 2003-2005)Research associate (Chiba Univ., 2005-2010)Associate Professor (ShinshuUniv., 2010-). Advancedroboticsbasedonnewdynamicsandcontrolprinciplewillchangethiscentury.Asetofnewmethodologyhasbeendevelopedviaourtheoreticalandexperimentalworks.Ourmodeling,control,andfastcomputationmethodforhydraulicrobotdynamicscontributetoreducedesigneffortsofconstructionmachinery.OurnonlinearbutphysicalcontrolmethodcontributestoimprovecontrolperformanceofarobotforFukushimanuclearpowerplants.OurcamerabasedmodelingandcontrolmethodcontributestoprovideanovelsignalconfigurationwhichisdifferentfromthoseofASIMO,BigDogandsoon.Mechanical Systems Engineering56