Topological approach to multisensory realization of wake turbulence

Yuriko Takeshima; Takashi Misaka; Shigeru Obayashi; Frank Holzäpfel; Hiroshi Kato; Shigeo Takahashi; Issei Fujishiro

Topological approach to multisensory realization of wake turbulence

Yuriko Takeshima, Takashi Misaka, Shigeru Obayashi, Frank Holzäpfel, Hiroshi Kato, Shigeo Takahashi, Issei Fujishiro

Department of Information and Computer Science

Research output: Contribution to journal › Conference article

Abstract

It is important to analyze the process of wake turbulence collapse to avoid serious accidents. In this study, we propose a topology-based multisensory realization method that allows observers to comprehend the behavior of wake turbulence phenomena in more intuitive manner. We propose the use of adaptive visual transfer functions as well as haptic transfer functions with three degrees of freedom to produce three-dimensional forces, which allow the identification of the location and strength of a target vortex. We evaluate the effectiveness of our method using a time-varying three-dimensional wake turbulence dataset.

Original language	English
Journal	Transactions of Japanese Society for Medical and Biological Engineering
Volume	51
Issue number	SUPPL.
Publication status	Published - 2013 Jan 1
Event	35th Annual International Conference of IEEE Engineering in Medicine and Biology Society, EMBC 2013 in conjunction with 52nd Annual Conference of Japanese Society for Medical and Bological Engineering, JSMBE - Osaka, Japan Duration: 2013 Jul 3 → 2013 Jul 7

ASJC Scopus subject areas

Biomedical Engineering

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Takeshima, Y., Misaka, T., Obayashi, S., Holzäpfel, F., Kato, H., Takahashi, S., & Fujishiro, I. (2013). Topological approach to multisensory realization of wake turbulence. Transactions of Japanese Society for Medical and Biological Engineering, 51(SUPPL.).

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abstract = "It is important to analyze the process of wake turbulence collapse to avoid serious accidents. In this study, we propose a topology-based multisensory realization method that allows observers to comprehend the behavior of wake turbulence phenomena in more intuitive manner. We propose the use of adaptive visual transfer functions as well as haptic transfer functions with three degrees of freedom to produce three-dimensional forces, which allow the identification of the location and strength of a target vortex. We evaluate the effectiveness of our method using a time-varying three-dimensional wake turbulence dataset.",

author = "Yuriko Takeshima and Takashi Misaka and Shigeru Obayashi and Frank Holz{\"a}pfel and Hiroshi Kato and Shigeo Takahashi and Issei Fujishiro",

year = "2013",

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language = "English",

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note = "35th Annual International Conference of IEEE Engineering in Medicine and Biology Society, EMBC 2013 in conjunction with 52nd Annual Conference of Japanese Society for Medical and Bological Engineering, JSMBE ; Conference date: 03-07-2013 Through 07-07-2013",

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T1 - Topological approach to multisensory realization of wake turbulence

AU - Takeshima, Yuriko

AU - Misaka, Takashi

AU - Obayashi, Shigeru

AU - Holzäpfel, Frank

AU - Kato, Hiroshi

AU - Takahashi, Shigeo

AU - Fujishiro, Issei

PY - 2013/1/1

Y1 - 2013/1/1

N2 - It is important to analyze the process of wake turbulence collapse to avoid serious accidents. In this study, we propose a topology-based multisensory realization method that allows observers to comprehend the behavior of wake turbulence phenomena in more intuitive manner. We propose the use of adaptive visual transfer functions as well as haptic transfer functions with three degrees of freedom to produce three-dimensional forces, which allow the identification of the location and strength of a target vortex. We evaluate the effectiveness of our method using a time-varying three-dimensional wake turbulence dataset.

AB - It is important to analyze the process of wake turbulence collapse to avoid serious accidents. In this study, we propose a topology-based multisensory realization method that allows observers to comprehend the behavior of wake turbulence phenomena in more intuitive manner. We propose the use of adaptive visual transfer functions as well as haptic transfer functions with three degrees of freedom to produce three-dimensional forces, which allow the identification of the location and strength of a target vortex. We evaluate the effectiveness of our method using a time-varying three-dimensional wake turbulence dataset.

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T2 - 35th Annual International Conference of IEEE Engineering in Medicine and Biology Society, EMBC 2013 in conjunction with 52nd Annual Conference of Japanese Society for Medical and Bological Engineering, JSMBE

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