著者
見邨 康平 小池 関也
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 2016 (ISSN:24329509)
巻号頁・発行日
pp.A-34, 2016 (Released:2017-06-19)

Motion-dependent term (MDT), which consists of centrifugal force, Coriolis force and gyroscopic effect moment expressed in the equation of motion for a multi-link system, plays significant roles in the generation of bat head speed through not instantaneous effect but cumulative effect of the exerting joint torques in baseball batting. According to our previous studies that calculate dynamics contributions of the whole-body joint torques considering generating factor of the MDT, the forward/backward rotational torque (FBR torque) at torso joint plays a significant role in the generation of bat head speed. These studies, however, show that the lower limb joint torques do not contribute directly to the bat head speed. Therefore, the purpose of this study was to make clear the functional roles of the lower limb joint torques considering the cumulative effect of exerting joint torques. The whole-body with bat was modelled as a system of sixteen-rigid linked segments. The contributions of the lower limb joint torques to the exerting FBR torque at torso joint were quantified through dynamic contribution equation, which relates lower limb joint torques to the torso FBR torque, derived from both dynamics joint force contribution equation of whole-body system and equilibrium balance equation with respect to rotational movement of the lower trunk segment. The results obtained in this study show 1) lower limb joint torque, especially flexion/extension torque at both hip joints, is a large contributor to the generation of the torso FBR torque, and 2) lower trunk inertial force term and other terms are small contributors to the FBR torque. The development of this analytical method would enable us to quantify the contribution of the lower limb joint torques.
著者
河村 隆 野内 知樹 降旗 克行 栗林 直樹 青柳 匡尚 中﨑 滉平 北橋 尚浩 鈴木 智 飯塚 浩二郎
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 2016 (ISSN:24329509)
巻号頁・発行日
pp.C-20, 2016 (Released:2017-06-19)

Curling is one of the winter sports called chess on ice. Athletes are required high level skill and smart strategy. This paper deals with curling phenomenon of rotation stone on the ice.To Understand this phenomenon, polypropylene and Teflon sheet makes low friction environment, and curling stone experiment was carried out. Then curling stone phenomenon was reproduced on force plate instead of ice.