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Researcher Information

last modified:2024/09/03

Associate Professor Naito Hisashi

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Faculty, Affiliation

Faculty of Frontier Engineering,Institute of Science and Engineering

College and School Educational Field

Division of Frontier Engineering, Graduate School of Natural Science and Technology
Division of Mechanical Science and Engineering, Graduate School of Natural Science and Technology
Division of Mechanical Science and Engineering, Graduate School of Natural Science and Technology
School of Frontier Engineering, College of Science and Engineering

Laboratory

Lavoratory of Biomedical Instrumentation and Control Engineering

Academic Background

【Academic background(Doctoral/Master's Degree)】
Nagoya University Doctor Graduate School of Engineering Department of Aerospace Engineering 200303 Completed
【Academic background(Bachelor's Degree)】
Nagoya University Department of Aerospace Engineering 199803
【Degree】
Ph. D.

Career

National Rehabilitation Center for Persons with Disabilities Department of Assistive Technology Research Fellow(2003/04/01-2004/12/31)
Osaka University Graduate School of Engineering Science Assistant Professor(2005/01/01-2013/12/31)

Year & Month of Birth

1975/02

Academic Society

Japan Society of Mechanical Engineer
Society of Biomechanisms
JSPO
ISPO

Award

ISPO

Specialities

Multi-body Dynamics、Rehabilitation Engineering

Speciality Keywords

Biomechanics, Motor Control, Bipedal Walking, Prosthetics and Orthotics, Multi-body Dynamics

Research Themes

Books

Papers

  •  NIR spectroscopic determination of urine components in spot urine: preliminary investigation towards optical point-of-care test Ikuto Suzuki, Mitsuhiro Ogawa, Kimihiro Seino, Masamichi Nogawa, Hisashi Naito, Ken-ichi Yamakoshi1, Shinobu Tanaka Medical & Biological Engineering & Computing 2019/12
  •  Development of a Rigidity Tunable Flexible Joint Using Magneto-Rheological Compounds—Toward a Multijoint Manipulator for Laparoscopic Surgery Kitano, S., Komatsuzaki, T., Suzuki, I., Nogawa, M., Naito, H., Tanaka, S. Frontiers in Robotics and AI  7 59  2020/04
  •  Development of a Core Body Thermometer Applicable for High-Temperature Environment Based on the Zero-Heat-Flux Method Lu, H., Aratake, S., Naito, H., Nogawa, M., Nemoto, T., Togawa, T., Tanaka, S. Sensors 23 1970 2023/02
  •  Theoretical Evaluation of Simultaneous Optical Measurement Method for Hemoglobin Concentration, Oxygen Saturation, and Water Percentage in Blood Based on Multi-parameter Optimization  Masamichi NOGAWA, Ikuto SUZUKI, Hisashi NAITO, Ryotaro KAWASHIMA, Kazuki WATANABE, Shinobu TANAKA, Jun HIRAYAMA Journal of Science and Technology in Lighting IEIJ230000663 2024/05

Conference Presentations

  • Shape measurement of the transfemoral residual limb on standing magnetic resonance imaging: A preliminary study with a single subject(conference:World Congress of the International Society for Prosthetics and Orthotics 2019)(2019/10)
  • Simulation and evaluation of prosthetic walking based on neuro-musculo-skeletal model(2018/12/15)
  • Evaluation framework of prosthetic knee joint performance using dynamical simulation(conference:XXVI Congress of the International Society of Biomechanics)(2017/07/25)
  • Computational Analysis for Energy Consumption Rate of Hip Disarticulation Prosthetic Walking(conference:The 8th Asian Conference on Multibody Dynamics(ACMD2016))(2016/08/07)
  • Computer Simulation of Walking Considering Foot Deformation(conference:13th World Congress of the International Society for Prosthetics and Orthotics)(2010/05)

show all

  • Gait Analysis of Newly Developed Hip Disarticulation Prosthesis Walking - Rotation Axis of Hip Joint is on the Side of Socket(conference: 13th World Congress of the International Society for Prosthetics and Orthotics)(2010/05)

Others

Arts and Fieldwork

Patent

Theme to the desired joint research

Grant-in-Aid for Scientific Research

○「股関節機能を失った下肢高位切断者の活動範囲を拡大する高機能動力義足の開発」(2021-2025) 
○「マルチモーダルインターフェースとしての義肢ソケットの設計及び適合評価に関する研究」(2020-2024) 
○「関節可動域訓練の技能習得用教材となる症状選択型膝関節モデルの開発」(2019-2021) 
○「汗の蒸発潜熱を利用した新規発汗計測原理の創出とウェアラブル化の試み」(2019-2021) 
○「切断肢の内部組織構造と義肢の制御に関わる研究」(2017-2019) 
○「計算機シミュレーションを援用した義足の適合・設計技術確立のための基礎的研究」(2015-2019) 
○「足関節受動抵抗の発生機序解明とその運動中の値の推定手法の開発」(2011-2014) 
○「義足使用者の運動状態・運動意図推定手法の確立とそれを応用した高機能股義足の開発」(2010-2013) 
○「有限要素・剛体リンクハイブリッド型身体動力学シミュレーションモデルの開発」(2008-2009) 
○「加齢による足部変形と装具に関する研究」(2008-2010) 
○「交感神経系を介した新しい骨損傷治療法の開発に向けての実験的研究」(2008-2010) 
○「発育期の骨質強化に対する力学的負荷およびビタミンK摂取の有効性に関する実験的研究」(2007-2008) 
○「身体動作の順動力学シミュレーション技術を応用した股義足設計ツールの開発」(2006-2007) 
○「反復的マイクロバブル破壊刺激を利用した血管新生誘導による骨修復促進法の開発と評価」(2005-2007) 
○「股義足の開発・設計支援技術への応用を目指した歩行シミュレーションモデルの構築」(2004-2005) 

Competitive research funding,Contribution

Collaborative research,Consignment study

Classes (Bachelors)

○Ergonomics B(2017)
○Introduction to Biomedical Measurements and Instrumentation(2017)
○Control Engineering I(2017)
○Ergonomics A(2017)
○Introduction to Human Support Systems for Welfare Engineering(2017)
○Introduction to Human Support Systems for Welfare Engineering(2017)
○Environmental Economics(2016)
○Mechanical Engineering Laboratory II(2016)
○Thesis Report(2016)
○Topics in Mechanical Engineering(2016)
○Seminar in Mechanical Engineering(2016)
○Thesis Report(2016)
○Mechanical Engineering Laboratory I(2016)
○Introduction to Human Support Systems for Welfare Engineering(2016)
○Introduction to Biomedical Measurements and Instrumentation(2016)
○Ergonomics(2016)
○Control Engineering I(2016)

Classes (Graduate Schools)

○Dynamics of Human Body Motion(2017)
○Dynamics of Human Body Motion(2017)
○Dynamics of Human Body Motion(2017)
○Motor control of human movement B(2017)
○Motor control of human movement A(2017)
○Dynamics of Human Body Motion(2017)
○Master Thesis Report(2016)
○Dynamics of Human Body Motion(2016)
○Master Thesis Report(2016)
○Motor control of human movement B(2016)
○Motor control of human movement A(2016)

International Project

International Students

Lecture themes

Others (Social Activities)

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