研究者業績

岩田 洋夫

イワタ ヒロオ  (Hiroo Iwata)

基本情報

所属
武蔵野大学 データサイエンス学部 教授

J-GLOBAL ID
200901054938589225
researchmap会員ID
1000047946

論文

 268
  • Naoki Ishibashi, Tsukasa Fukuda, Yosuke Tsuchiya, Yuki Enzaki, Hiroo Iwata
    Frontiers in Artificial Intelligence and Applications 2024年1月16日  
    This paper introduces Art Sensorium Project that is founded in Asia AI Institute of Musashino University. A main target of the project is to design and implement a system architecture of unified art collections for virtual art experiences. To provide art experiences, a projection-based VR system, called Data Sensorium, is used to stage art materials in a form of real-sized virtual reality. Furthermore, a system architecture of a multidatabase system for heterogeneous art collection archives is presented, so a set of integrated art data is applied to Data Sensorium for newly generated art experiences.
  • Tanabe, Takeshi, Yano, Hiroaki, Endo, Hiroshi, Ino, Shuichi, Iwata, Hiroo
    IEEE/ASME Transactions on Mechatronics 26(1) 203-213 2021年2月  査読有り
    When presented with asymmetric vibrations, humans experience an illusory force, similar to the sensation of being pulled in a particular direction. A pulling illusion has also been used in new display elements for a virtual reality content and a pedestrian navigation system. However, the basic design of asymmetric vibration stimuli that can induce this illusion has not yet been determined. In particular, it is unclear as to which part of the vibration waveform should be asymmetric to induce an illusion. To better understand the design of asymmetric vibration stimuli that can induce a pulling illusion, we evaluated the effect of the illusion corresponding to the waveform deformation due to a change in phase difference of asymmetric-vibration frequency components. The results of a psychophysical experiment demonstrate that when the phase differences of the fundamental and second harmonic waves of the asymmetric vibration are close to 0 degrees or -180 degrees, the illusion is more likely to occur. This result implies that the difference in the rate by which the acceleration changes at each polarity contributes to the illusion.
  • Brumley, John, Taylor, Charles, Suzuki, Reiji, Ikegami, Takashi, Vesna, Victoria, Iwata, Hiroo
    AI & SOCIETY 35(1) 87-101 2020年3月  
  • Takeshi Tanabe, Hiroaki Yano, Hiroshi Endo, Shuichi Ino, Hiroo Iwata
    Haptics: Science, Technology, Applications 471-479 2020年  
  • 増田,拓巳, 矢野,博明, 澁谷,長史, 田中,直樹, 岩田,洋夫
    日本バーチャルリアリティ学会論文誌 25(3) 196-205 2020年  査読有り
    <p>This study proposes a semi-voluntarily motion presentation system based on the force applied to the arm swing mechanism in a locomotion interface (LI) that can present arm swing motion in addition to foot motion during walking. It is considered that the device can be operated by using the force of the arm swing even when the user cannot move the foot voluntarily. We performed a comparative experiment of walking with the automatic method and walking with the proposed method. As a result, it was confirmed that there was a difference in the rotation angle of the body, and the usefulness of the semi-automatic LI that moves by swinging the arm was confirmed.</p>

MISC

 57

書籍等出版物

 17
  • Tamefusa, Shintaro, Yano, Hiroaki, Tanaka, Naoki, Saitou, Hideyuki, Iwata, Hiroo (担当:分担執筆, 範囲:Motion Improvement for Stairs Climbing and Descending with Gait Rehabilitation System)
    IEEE 2010年1月 (ISBN: 9781424477098)
    This paper describes the development of a gait rehabilitation system with a locomotion interface (LI) for stair climbing or descending. The LI consists of two 2 DOF manipulators equipped with footpads. These can move the user's feet while his or her body remains stationary. The footpads follow the prerecorded motion of the feet of a healthy individual. For gait training, the user progresses iteratively through successively more advanced modes. In this study, three modes, enforced stair climbing/descending, semi-voluntary stair climbing/descending, and real stair climbing/descending were used. Especially gait trajectories for the stairs climbing/descending were improved to realize valid weight shift motion. Comparisons were made between the modes for healthy individuals and a patient. The effectiveness of the system was examined using EMG and foot pressure data.
  • 舘暲, 佐藤誠, 廣瀬通孝編, 岩田, 洋夫 (担当:編者(編著者))
    工業調査会 2009年12月
  • Yano, Hiroaki, Tamefusa, Shintaro, Tanaka, Naoki, Saitou, Hideyuki, Iwata, Hiroo (担当:分担執筆, 範囲:Gait Rehabilitation for Stair Climbing with a Locomotion Interface)
    IEEE 2009年1月 (ISBN: 9781424437887)
    This paper describes the development of a gait rehabilitation system with a locomotion interface (LI). The LI consists of two 2 DOF manipulators equipped with footpads. These can move the user's feet while his or her body remains stationary. The footpads follow the prerecorded motion of the feet of a healthy individual. For gait training, the user progresses iteratively through successively more advanced modes. In this study, three modes, enforced stair climbing, semi-voluntary stair climbing, and real stair climbing were used. Comparisons were made between the modes for healthy individuals and a patient. The effectiveness of the system was examined using NIRS and foot pressure distribution data.
  • Yano, Hiroaki, Miyamoto, Yuichi, Iwata, Hiroo (担当:分担執筆, 範囲:Haptic Interface for Perceiving Remote Object Using a Laser Range Finder)
    IEEE 2009年1月 (ISBN: 9781424438587)
    This paper describes development of a haptic interface using a laser range finder. The system consists of a laser range finder, a 1 degree-of-freedom haptic apparatus and a computer. The haptic apparatus can generate a reaction force based on a distance to a remote object that is measured by the laser range finder. A user can feel the shape of a remote object by holding this interface and pointing the object. Three haptic rendering algorithms were developed. Through some experiments, the effectiveness of this system was confirmed.
  • Martin, Grunwald, 岩田, 洋夫
    Brikhauser 2008年10月

講演・口頭発表等

 36

Works(作品等)

 7

共同研究・競争的資金等の研究課題

 19

産業財産権

 1