Instantaneous phase of rhythmic behaviour under volitional control

IF 1.6 3区心理学 Q4 NEUROSCIENCES Human Movement Science Pub Date : 2024-08-01 DOI:10.1016/j.humov.2024.103249

Leonardo Lancia

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Abstract

The phase of signals representing cyclic behavioural patterns provides valuable information for understanding the mechanisms driving the observed behaviours. Methods usually adopted to estimate the phase, which are based on projecting the signal onto the complex plane, have strict requirements on its frequency content, which limits their application. To overcome these limitations, input signals can be processed using band-pass filters or decomposition techniques. In this paper, we briefly review these approaches and propose a new one. Our approach is based on the principles of Empirical Mode Decomposition (EMD), but unlike EMD, it does not aim to decompose the input signal. This avoids the many problems that can occur when extracting a signal's components one by one. The proposed approach estimates the phase of experimental signals that have one main oscillatory component modulated by slower activity and perturbed by weak, sparse, or random activity at faster time scales. We illustrate how our approach works by estimating the phase dynamics of synthetic signals and real-world signals representing knee angles during flexion/extension activity, heel height during gait, and the activity of different organs involved in speech production.

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在意志控制下的节奏行为瞬时相位。

代表周期性行为模式的信号的相位为了解观察到的行为的驱动机制提供了宝贵的信息。通常采用的相位估算方法是将信号投影到复平面上，对信号的频率内容有严格的要求，因此限制了其应用范围。为了克服这些限制，可以使用带通滤波器或分解技术来处理输入信号。在本文中，我们简要回顾了这些方法，并提出了一种新的方法。我们的方法基于经验模式分解（EMD）原理，但与 EMD 不同的是，它不以分解输入信号为目标。这就避免了逐一提取信号成分时可能出现的诸多问题。我们提出的方法可以估算出实验信号的相位，这些信号有一个主要振荡成分，由较慢的活动调制，并在较快的时间尺度上受到微弱、稀疏或随机活动的扰动。我们通过估算合成信号和真实世界信号的相位动态来说明我们的方法是如何工作的，这些信号分别代表屈伸活动中的膝关节角度、步态中的脚跟高度以及语言产生过程中不同器官的活动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Human Movement Science 医学-神经科学

CiteScore

3.80

自引率

4.80%

发文量

审稿时长

42 days

期刊介绍： Human Movement Science provides a medium for publishing disciplinary and multidisciplinary studies on human movement. It brings together psychological, biomechanical and neurophysiological research on the control, organization and learning of human movement, including the perceptual support of movement. The overarching goal of the journal is to publish articles that help advance theoretical understanding of the control and organization of human movement, as well as changes therein as a function of development, learning and rehabilitation. The nature of the research reported may vary from fundamental theoretical or empirical studies to more applied studies in the fields of, for example, sport, dance and rehabilitation with the proviso that all studies have a distinct theoretical bearing. Also, reviews and meta-studies advancing the understanding of human movement are welcome. These aims and scope imply that purely descriptive studies are not acceptable, while methodological articles are only acceptable if the methodology in question opens up new vistas in understanding the control and organization of human movement. The same holds for articles on exercise physiology, which in general are not supported, unless they speak to the control and organization of human movement. In general, it is required that the theoretical message of articles published in Human Movement Science is, to a certain extent, innovative and not dismissible as just "more of the same."