Effect of KANSEI information on human motion basic model of KANSEI and analysis of human motion in violin playing

Koji Shibuya, Shigeki Sugano

    Research output: Chapter in Book/Report/Conference proceedingConference contribution

    4 Citations (Scopus)

    Abstract

    The purpose of this study is to derive evaluation functions to plan human motion involving KANSEI effect. Clarifying the effects of KANSEI on human motion has contribution to the design of human-machine interface and robot planning. This study dealt with violin playing as an example of human motion affected by KANSEI. In this paper, a basic model of playing information flow in a violinist and the results of experiments which were carried out from the basic model are described. In the experiments, scales were played by three professional violinists to estimate the effects of KANSEI information. As a result, the following rule has been derived: if KANSEI information changes, bow force and sounding point change, but bow speed does not change.

    Original languageEnglish
    Title of host publicationRobot and Human Communication - Proceedings of the IEEE International Workshop
    Pages89-94
    Number of pages6
    Publication statusPublished - 1995
    EventProceedings of the 1995 4th IEEE International Workshop on Robot and Human Communication, RO-MAN - Tokyo, Jpn
    Duration: 1995 Jul 51995 Jul 7

    Other

    OtherProceedings of the 1995 4th IEEE International Workshop on Robot and Human Communication, RO-MAN
    CityTokyo, Jpn
    Period95/7/595/7/7

    Fingerprint

    Function evaluation
    Experiments
    Robots
    Planning

    ASJC Scopus subject areas

    • Hardware and Architecture
    • Software

    Cite this

    Shibuya, K., & Sugano, S. (1995). Effect of KANSEI information on human motion basic model of KANSEI and analysis of human motion in violin playing. In Robot and Human Communication - Proceedings of the IEEE International Workshop (pp. 89-94)

    Effect of KANSEI information on human motion basic model of KANSEI and analysis of human motion in violin playing. / Shibuya, Koji; Sugano, Shigeki.

    Robot and Human Communication - Proceedings of the IEEE International Workshop. 1995. p. 89-94.

    Research output: Chapter in Book/Report/Conference proceedingConference contribution

    Shibuya, K & Sugano, S 1995, Effect of KANSEI information on human motion basic model of KANSEI and analysis of human motion in violin playing. in Robot and Human Communication - Proceedings of the IEEE International Workshop. pp. 89-94, Proceedings of the 1995 4th IEEE International Workshop on Robot and Human Communication, RO-MAN, Tokyo, Jpn, 95/7/5.
    Shibuya K, Sugano S. Effect of KANSEI information on human motion basic model of KANSEI and analysis of human motion in violin playing. In Robot and Human Communication - Proceedings of the IEEE International Workshop. 1995. p. 89-94
    Shibuya, Koji ; Sugano, Shigeki. / Effect of KANSEI information on human motion basic model of KANSEI and analysis of human motion in violin playing. Robot and Human Communication - Proceedings of the IEEE International Workshop. 1995. pp. 89-94
    @inproceedings{cf6d53aa63d4448797e9c5995d9d1ee8,
    title = "Effect of KANSEI information on human motion basic model of KANSEI and analysis of human motion in violin playing",
    abstract = "The purpose of this study is to derive evaluation functions to plan human motion involving KANSEI effect. Clarifying the effects of KANSEI on human motion has contribution to the design of human-machine interface and robot planning. This study dealt with violin playing as an example of human motion affected by KANSEI. In this paper, a basic model of playing information flow in a violinist and the results of experiments which were carried out from the basic model are described. In the experiments, scales were played by three professional violinists to estimate the effects of KANSEI information. As a result, the following rule has been derived: if KANSEI information changes, bow force and sounding point change, but bow speed does not change.",
    author = "Koji Shibuya and Shigeki Sugano",
    year = "1995",
    language = "English",
    pages = "89--94",
    booktitle = "Robot and Human Communication - Proceedings of the IEEE International Workshop",

    }

    TY - GEN

    T1 - Effect of KANSEI information on human motion basic model of KANSEI and analysis of human motion in violin playing

    AU - Shibuya, Koji

    AU - Sugano, Shigeki

    PY - 1995

    Y1 - 1995

    N2 - The purpose of this study is to derive evaluation functions to plan human motion involving KANSEI effect. Clarifying the effects of KANSEI on human motion has contribution to the design of human-machine interface and robot planning. This study dealt with violin playing as an example of human motion affected by KANSEI. In this paper, a basic model of playing information flow in a violinist and the results of experiments which were carried out from the basic model are described. In the experiments, scales were played by three professional violinists to estimate the effects of KANSEI information. As a result, the following rule has been derived: if KANSEI information changes, bow force and sounding point change, but bow speed does not change.

    AB - The purpose of this study is to derive evaluation functions to plan human motion involving KANSEI effect. Clarifying the effects of KANSEI on human motion has contribution to the design of human-machine interface and robot planning. This study dealt with violin playing as an example of human motion affected by KANSEI. In this paper, a basic model of playing information flow in a violinist and the results of experiments which were carried out from the basic model are described. In the experiments, scales were played by three professional violinists to estimate the effects of KANSEI information. As a result, the following rule has been derived: if KANSEI information changes, bow force and sounding point change, but bow speed does not change.

    UR - http://www.scopus.com/inward/record.url?scp=0029500566&partnerID=8YFLogxK

    UR - http://www.scopus.com/inward/citedby.url?scp=0029500566&partnerID=8YFLogxK

    M3 - Conference contribution

    AN - SCOPUS:0029500566

    SP - 89

    EP - 94

    BT - Robot and Human Communication - Proceedings of the IEEE International Workshop

    ER -