Kato Hideaki

准教授
学位：博士（工学）

基本情報

所属

Undergraduate School of Engineering / Department of Mechanical Systems Engineering
Undergraduate School of Engineering / Department of Prime Mover Engineering
Graduate School of Science and Technology / Course of Science and Technology
Graduate School of Engineering / Course of Mechanical Engineering

詳細情報

研究キーワード

Ride comfort control for high-performance mobility
Future mobility applying maglev technology
Magnetic levitation system for ultra-flexible objects
Vehicle structural mechanics and vehicle dynamics for next-generation automobile
Control of high-performance power unit systems
Electrooculogram
EEG
Biomechanics
muscle activity
Space elevator
Steer-by-wire system
Active seat suspension
Active noise control
Mechatronics
Voice coil motor
Linear induction motor
Giant magnetostrictive actuator
Carbon fiber reinforced plastic

研究分野

Informatics Mechanics and mechatronics
Informatics Robotics and intelligent systems
Informatics Intelligent robotics
Manufacturing technology (mechanical, electrical/electronic, chemical engineering) Machine materials and mechanics
Manufacturing technology (mechanical, electrical/electronic, chemical engineering) Control and systems engineering

受賞

Industrial University of Ho Chi Minh City & Eastern International University EXCELLENT prize in Oral presentation in The 2nd International Conference on Advanced Technology and Sustainable Development (ICATSD 2022), The International Symposium on Precision Machining and Advanced Technologies (ISPMAT 2022) Development of interior acoustic control system for ultra-compact electric vehicle: analytical study on output performance of giant magnetostrictive actuator
The Japan Society of Mechanical Engineers, Environmental Engineering Division IWEE2019 Best Poster Presentation Award Active noise control for ultra-compact EVs using giant magnetostrictive actuator Fundamental consideration on reduction of road noise
The Japan Society of Mechanical Engineers, Environmental Engineering Division IWEE2019 Best Poster Presentation Award Study on vibration suppressing actuator of active seat suspension: Fundamental consideration on VCM

論文

Edge-Supported Magnetic Levitation System for Flexible Steel Pates (Experimental Study on the Relationship between Thickness of Steel Plate andVibration Characteristics during Levitation)

Non-contact Gripping for Thin Steel Plates by Magnetic Field from Horizontal Direction (Fundamental study on placement of electromagnets)

Curved Magnetic Levitation Conveying System for Thin Steel Plates with Magnetic Field Applied from Edge Direction (Experimental Consideration on the Effect of the Installation Position of Horizontal Positioning Electromagnets on the Transport Performance)

Hybrid Magnetic Levitation System for Thin Steel Plates Using Electromagnets and Permanent Magnets (Experimental Consideration on Vibration Characteristics of Levitated Steel Plates)

Bending Magnetic Levitation System of Flexible Steel Plate (Fundamental Consideration on the Dynamic Behavior of Levitated Steel Plate under the Input of Sinusoidal Disturbance)

Electromagnetic Levitation for Flexible Steel Plate Using Magnetic Field from Horizontal Direction (Experimental Investigation on Control System Considering Two-degree-of-freedom Model)

Linear Actuators for High-Speed Reciprocating Motion with Dual Halbach Arrays (Fundamental Consideration of the Effect of Magnet Arrangement on Thrust Characteristics)

Development of Cylindrical Linear Actuator for Vertical Transfer: Fundamental Consideration of Effect of Shape on Thrust Characteristics

Investigation of the Performance of Plugging Braking System as a Hill Descent Control (HDC) for Electric-Powered Wheelchair

Development of Giant Magnetostrictive Materials for an Active Noise Control System in an Ultracompact Electric Vehicle

Design for Actuators Used to Drive the Valve Train of Spark-Ignition Engines

Application and Design of the Actuator using a Giant Magnetostrictive Material

Curved Magnetic Levitation Conveying System for Thin Steel Plate with Magnetic Field Applied from Edge Direction (Fundamental Consideration on Effect of Bending Angle on Levitation Performance)

Magnetic Guideway System for Continuous Steel Plates Using Attractive Force of Electromagnets (Experimental Consideration on Restoring Force Characteristics of Electromagnets)

Electromagnetic Valve Driven System Using Linear Actuator (Fundamental Consideration on Thrust Characteristics)

Non-contact Gripping of Thin Steel Plates by Electro Magnetic Suspension (Proposal of a Levitation Method to Suppress Deflection by Own Weight)

Edge Support Type Magnetic Levitation System for Flexible Steel Plates (Fundamental Consideration on Two-degree-of-freedom Vibration Control Model)

Acoustic Control System Using Boundary Vibration with Giant Magnetostrictive Actuator (Comparative Consideration of Noise Reduction Volume by Changing Actuator Excitation Position)

書籍等出版物

未来をつくるあなたへ（指導者用：活用の手引き）
MIRAI─未来をつくる（指導者用：活用の手引き）
MIRAI─未来をつくる（学習者用）
未来をつくるあなたへ（学習者用）

講演?口頭発表等

Development Acoustic Device using Giant Magnetostrictive Material: Fundamental Consideration on Output Performance Due to Differences in Material Properties
Placement of Electromagnets for Edge-supported Maglev Systems: Fundamental Consideration on Tilting Angle of Electromagnets