著者

北野 敬祐 竹田 正樹 友野 一希 近藤 亜希子 辻内 伸好 廣瀬 圭

出版者

一般社団法人 日本機械学会

雑誌

シンポジウム: スポーツ・アンド・ヒューマン・ダイナミクス講演論文集 2020 (ISSN:24329509)

巻号頁・発行日

pp.A-4-5, 2020 (Released:2021-06-01)

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This paper proposes the estimation method of rotational axis in figure skating jump using inertial sensors. The estimation method of rotational axis consists of components centrifugal, tangential and gravity accelerations and relationship between angular velocity and combining angular velocity, and this method estimates the pitch and yaw angles to the sensor coordinate system from the axis coordinate system and the roll and pitch angles to global coordinate system from the sensor coordinate system. We conducted the measurement experiment the triple flip jumps and the quadruple salchow jumps by the high-level figure skater using inertial sensors, and we estimated the rotational axis in the triple flip and quadruple salchow jumps. These results indicated the change of rotational axis during jump, and we indicated the difference of characteristics by the difference in success of jump.

著者

廣瀬 圭 友野 一希 近藤 亜希子 辻内 伸好 北野 敬祐 竹田 正樹

出版者

一般社団法人 日本機械学会

雑誌

シンポジウム: スポーツ・アンド・ヒューマン・ダイナミクス講演論文集 2020 (ISSN:24329509)

巻号頁・発行日

pp.B-8-3, 2020 (Released:2021-06-01)

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This paper proposes the estimation method of three-dimensional rotational axis in figure skating jump by iterated Extended Kalman filter and quaternion using inertial and magnetic field sensors. This method estimates the posture information to global coordinate system from the sensor coordinate system and the posture information to rotational axis coordinate system from the sensor coordinate system using the iterated Extended Kalman filter, and the direction component represented by quaternion was estimated by using inertial and magnetic field sensors. We conducted the measurement experiment the triple flip jumps and the quadruple salchow jumps by the high-level figure skater using inertial and magnetic field sensors, and we estimated the three-dimensional rotational axis in the triple flip and quadruple salchow jumps. These results indicated the change of rotational axis during jump by the normalized vector and the projection drawing calculated by the estimated three-dimensional rotational axis, and we indicated the high reproducibility in the triple flip jumps and the difference of characteristics by the difference in success of jump in the quadruple salchow jumps.

著者

近藤 亜希子 友野 一希 北野 敬祐 廣瀬 圭 竹田 正樹

出版者

一般社団法人 日本機械学会

雑誌

シンポジウム: スポーツ・アンド・ヒューマン・ダイナミクス講演論文集 2020 (ISSN:24329509)

巻号頁・発行日

pp.A-1-4, 2020 (Released:2021-06-01)

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In this study, we conducted the 3-axis acceleration analysis of figure skating jump using inertial sensors. In the motion measurement of figure skating jump, the measurement area is wide, and the figure skater conducts high speed rotational motion. Therefore, we used the inertial sensor system as simply motion measurement device. We conducted the measurement experiment of the figure skating jump by a high-level figure skater, we obtained the 3-axis measurement information of inertial sensors in the triple flip jumps and the quadruple salchow jumps. The results of combining angular velocity and acceleration indicated the high repeatability. Furthermore, we conducted the 3-axis acceleration analysis in quadruple salchow jumps using the sensor outputs and the self-assessment. The result of high point in self-assessment indicated the high acceleration, and the effect by composite axis component in centrifugal acceleration was indicated. These results indicated the importance of body inclination during the jump motion.