Bayesian estimation of trunk-leg coordination during walking using phase oscillator models.

IF 2.4 4区 医学 Q3 NEUROSCIENCES Neuroscience Research Pub Date : 2024-10-22 DOI:10.1016/j.neures.2024.10.002
Haruma Furukawa, Takahiro Arai, Tetsuro Funato, Shinya Aoi, Toshio Aoyagi
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Abstract

In human walking, the legs and other body parts coordinate to produce a rhythm with appropriate phase relationships. From the point of view for rehabilitating gait disorders, such as Parkinson Disorders, it is important to understand the control mechanism of the gait rhythm. A previous study showed that the antiphase relationship of the two legs during walking is not strictly controlled using the reduction of the motion of the legs during walking to coupled phase oscillators. However, the control mechanisms other than those of the legs remains unknown. In particular, the trunk moves in tandem with the legs and must play an important role in stabilizing walking because it is above the legs and accounts for more than half of the mass of the human body. This study aims to uncover the control mechanism of the leg-trunk coordination in the sagittal plane using the coupled phase oscillators model and Bayesian estimation. We demonstrate that the leg-trunk coordination is not strictly controlled, as well as the interleg coordination.

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利用相位振荡器模型对行走过程中躯干-腿协调性进行贝叶斯估计。
在人类行走过程中,腿部和其他身体部位协调产生具有适当相位关系的节奏。从帕金森病等步态障碍康复的角度来看,了解步态节奏的控制机制非常重要。之前的一项研究表明,通过将行走时双腿的运动还原为耦合相位振荡器,并不能严格控制行走时双腿的反相位关系。然而,除双腿之外的控制机制仍然未知。特别是躯干与双腿同步运动,由于躯干位于双腿之上,并且占人体质量的一半以上,因此躯干在稳定行走方面必须发挥重要作用。本研究旨在利用耦合相位振荡器模型和贝叶斯估计揭示矢状面上腿-躯干协调的控制机制。我们证明,腿-躯干协调以及腿间协调并未受到严格控制。
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来源期刊
Neuroscience Research
Neuroscience Research 医学-神经科学
CiteScore
5.60
自引率
3.40%
发文量
136
审稿时长
28 days
期刊介绍: The international journal publishing original full-length research articles, short communications, technical notes, and reviews on all aspects of neuroscience Neuroscience Research is an international journal for high quality articles in all branches of neuroscience, from the molecular to the behavioral levels. The journal is published in collaboration with the Japan Neuroscience Society and is open to all contributors in the world.
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