Methodological Advances for Detecting Physiological Synchrony During Dyadic Interactions

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2013-01-01 DOI:10.1027/1614-2241/A000053
M. McAssey, J. Helm, F. Hsieh, D. Sbarra, E. Ferrer
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引用次数: 46

Abstract

A defining feature of many physiological systems is their synchrony and reciprocal influence. An important challenge, however, is how to measure such features. This paper presents two new approaches for identifying synchrony between the physiological signals of individuals in dyads. The approaches are adaptations of two recently-developed techniques, depending on the nature of the physiological time series. For respiration and thoracic impedance, signals that are measured continuously, we use Empirical Mode Decomposition to extract the low-frequency components of a nonstationary signal, which carry the signal’s trend. We then compute the maximum cross-correlation between the trends of two signals within consecutive overlapping time windows of fixed width throughout each of a number of experimental tasks, and identify the proportion of large values of this measure occurring during each task. For heart rate, which is output discretely, we use a structural linear model that takes into account heteroscedastic...
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在二元相互作用中检测生理同步的方法学进展
许多生理系统的一个决定性特征是它们的同步性和相互影响。然而,一个重要的挑战是如何衡量这些特征。本文提出了两种识别双体个体生理信号同步性的新方法。根据生理时间序列的性质,这些方法是最近开发的两种技术的改编。对于连续测量的呼吸和胸阻抗信号,我们使用经验模态分解来提取非平稳信号的低频分量,这些分量携带信号的趋势。然后,我们计算在多个实验任务中固定宽度的连续重叠时间窗内两个信号趋势之间的最大相互关系,并确定在每个任务中出现该度量的大值的比例。对于离散输出的心率,我们使用考虑异方差的结构线性模型。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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