自由歩行における歩調・歩幅の生体力学的決定基準(2部 形態と運動の力学)
スポンサーリンク
概要
- 論文の詳細を見る
There are numerous combinations of cadence and stride length that result in a walk with a certain speed. However, natural walking has high predictability, and is done within a limited range of cadence and stride for each individual. The purpose of this study is to clarify the determination criteria of this daily motion from a biomechanical viewpoint. One of the factors that determines the criteria is the efficiency of energy consumption during walking. Conventionally, the energy consumed by body exercise was estimated from the oxygen consumption volume at the respiration. In this study, consumed energy in muscles was calculated using a musculoskeletal model and measured articular motion in walking. With this simulation, the cause and the mechanism in energy change can be analyzed. Articular moments in walking were calculated with a rigid link model of seven two-dimensional segments which were constructed independently in sagittal and frontal planes. The link system was attached to eleven muscles, and the muscle activities were assumed to be controlled in order to minimize muscle fatigue. Using these assumptions, muscle tension was calculated under the restriction of equilibria between the articular moment and the muscular moment by an optimization technique. Furthermore, supposing a metabolic model of muscle that has two elastic elements and two viscosity elements, the force of the construction element in each muscle was estimated from the calculated muscle tension and the measured articular motion. The metabolic energy calculated from the mechanical work of the contraction element and the heat loss from each element of the muscle model agreed well with the experimental results by gas analysis. Articular motion in walking was measured by a semiconductor camera using infrared markers. External force on foot was measured by a force platform. Electromyograms of six surface muscles were measured for the evaluation of the calculated muscle tensions. Totals of 600 various kinds of cadences and stride lengths were obtained from ten male subjects. From the results of the calculated metabolic energy in these walking experiments, it was found that there was a combination of cadence and stride length which minimized the metabolic energy per unit distance and unit body weight. The walking speed at the minimum energy point agreed with the average speed of free walking. The cause of the minimization was as follows. The energy expended by muscle activities in the sagittal plane for promotion increased in high-speed walking. In contrast, the energy expended by muscles to support body weight and fundamental metabolic energy increase in low-speed walking. Accordingly, it was concluded that cadence and stride length in natural walking were determined so as to minimize total metabolic energy per unit of locomotion distance.
- バイオメカニズム学会の論文
- 1992-05-20
著者
関連論文
- 床反力計の高精度化検定手法
- 画像情報を用いた身体動作の計測(1部 形態と運動の計測)
- 運動力学的解析に基づく障害者上肢訓練動作の提案
- 生体の機械力学入門 : 生体VII
- 座談会「人間の歩行と人工の足」(人間の歩行と人工の足小特集号)
- 足と靴のバイオメカニズム(1部 ヒトのバイオメカニクス)
- 36 歩行分析における工学的計測と臨床的評価について (第二報)
- 波動伝播に基づく移動機構の研究 : 第3報,柔軟生物の構造・環境・移動パターン(機械力学,計測,自動制御)
- 短下肢装具の可撓性が歩行に及ぼす影響(3部 評価・診断)
- 寝具クッションの生体力学的快適化(1部 生体の力学的特性)
- 上肢の構造と動作との関係(2部 運動解析・モデリング)
- 二足恐竜の正しい歩き方(2部 運動解析・モデリング)
- 椅子の座り心地に対する生体力学的評価(2部 筋・関節・運動)
- 膝関節不安定性の計測と推定(2部 筋・関節・運動)
- 上肢運動の決定要素(1部 生体を知る)
- ヒトの体形と歩行運動(3部 運動の解析)
- 大型床反力計による歩行運動の定量的評価(3部 歩行と解析)
- 討論
- 2足歩行の総合解析モデルとシミュレーション(4部 2足歩行)
- 脚の機能と形態(歩行系の解析に関する研究,4部 歩行)
- 歩行を支配する要因(歩行系の解析に関する研究,4部 歩行)
- ファイバーグレイティングを用いた三次元足部形状計測装置の開発
- 2足歩行運動を生成する神経系構造の自律的獲得
- 汎用3次元筋骨格モデルの開発
- 自由歩行における歩調・歩幅の生体力学的決定基準(2部 形態と運動の力学)
- 歩容障害の三次元的運動分析 : 第3報 : 第27回日本リハビリテーション医学会総会 : 歩行分析
- 35. 連続多数歩歩行の床反力解析システム(歩行分析)
- ヒト指腹部構造と触覚受容器位置の力学的関係 (バイオダイナミックス)
- 3次元動態計測技術の展開(先端人間計測技術)
- 直立2足歩行の起源に関する運動力学的検討 : 霊長類の2足歩行能力の比較(2部 動作解析)
- 自然な背景を含むシーンからの身体画像の抽出
- 個別適合用靴型CADシステムの開発
- 靴の高適合化を目的とした靴型CADシステムの開発
- 13.片麻痺の安定性に関する定量的評価方法について(歩行分析)
- 第22回バイオメカニズム学術講演会