稲田 喜信

Inada Yoshinobu

  • 教授
  • 学位:博士(工学)

基本情報

所属

  • Undergraduate School of Engineering / Department of Aeronautics and Astronautics Aerospace Course
  • Graduate School of Science and Technology / Course of Science and Technology
  • Graduate School of Engineering / Course of Mechanical Engineering

詳細情報

研究分野

  • Aerospace, marine, and maritime Engineering Aerospace engineering Bio-flight and swimming dynamics

論文

Application of Bio-inspired Formation Flight Control to Two Fixed Wing Airplanes

Machine Learning Approach for Drone Perception and Control

Analysis of Fluid Dynamic Effects between Adjacent Streamline Bodies

Fluid dynamic effects of small projections based on dorsal ridge tubercles of the finless porpoise

Research of 3-dimensional swarm action

Energy-saving in schooling Japanese mackerel (Scomber japonicus) and the effect of induced velocity of wake vortices

Flutter Inhibition in a Bird-Inspired Reflection Wing

Local Interaction Based Formation Shape Control and Its Application to Lateral Expansion

Experimental Study of Flight Experience Effect on Pilot Rating

Investigation of a Flow in Dolphin Drafting by Computational Fluid Dynamics

Energy-saving Effect of Fish Schooling in the Japanese Mackerel, Scomber japonics

Effect of Gap between Primary Feathers in a Bird-like Assembled Wing

Aerodynamic Characteristics of Cylindrical Wing

Numerical Analysis of Sound Generation and Transmission from Flapping Wings

Numerical analysis of sound generation of insect flapping wings

Dynamical aspects of relationship between group-shape and mutual interaction in a collective motion of organisms

Dependency of collective motion control of air vehicles on the interaction parameters

Efficient Prediction of Helicopter BVI Noise under Different Conditions of Wake and Blade Deformation

Effect of tip vortex dissipation on the prediction of helicopter BVI noise

A numerical analysis of inertial torques in the steering maneuvers of hovering Drosophila

講演・口頭発表等

  • Introduction of a U199 Class Multirotor Development
  • Effect of elasticity in the bird-like primary feather wing on the flight stability
  • Flexible formation shape control based on the local interaction among air vehicles
  • Aerodynamic characteristics of bird-like assembled wing
  • Formation shape control of unmanned air vehicles
  • Gust response analysis in the flight formation of unmanned air vehicles
  • Flight-formation control of air vehicles based on collective motion control of organisms
  • Simulation study of schooling motion of fish based on two observed motions: APPROACHING motion and parallel orientating motion
  • Behavior of Fish School.
  • Simulation of escape behavior of fish school based on mutual relationship between organisms. ( Japan Science and Technology Corp. S ).
  • Rearrangement of grid division pattern and its performance in parallel processing of climate simulation program.
  • Parallelization of Livermore Loops on a Highly parallel computer AP1000.
  • On the gliding flight of the flying fish Exocoetidae.

共同研究・競争的資金等の研究課題

Development of multi-dimensional information gathering system by using a collective motion control of aerial and ground vehicles

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