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一种基于贝叶斯滤波的方法,用于从二元和连续皮肤电导率特征中跟踪唤醒度。

A Bayesian Filtering Approach for Tracking Arousal From Binary and Continuous Skin Conductance Features.

出版信息

IEEE Trans Biomed Eng. 2020 Jun;67(6):1749-1760. doi: 10.1109/TBME.2019.2945579. Epub 2019 Oct 4.

DOI:10.1109/TBME.2019.2945579
PMID:31603767
Abstract

OBJECTIVE

Neuroanatomical structures within the cortical and sub-cortical brain regions process emotion and cause subsequent variations in signals such as skin conductance and electrocardiography. The signals often encode information in their continuous-valued amplitudes or waves as well as in their underlying impulsive events. We propose to track psychological arousal from this hybrid source of skin conductance information.

METHODS

We present a point process state-space method in tandem with Bayesian filtering for determining a continuous-valued arousal state from skin conductance measurements. To perform state estimation, we relate arousal to binary- and continuous-valued observations derived from the phasic and tonic parts of a skin conductance signal, and recover model parameters using expectation-maximization. We evaluate our model on both synthetic and two different experimental data sets. Stress was artificially induced in the first experimental data set and the second comprised of a fear conditioning experiment.

RESULTS

Results on the first data set indicate high levels of arousal during exposure to cognitive stress and low arousal during relaxation. Plausible results are also obtained in the fear conditioning data set consistent with previous skin conductance studies in similar experimental contexts.

CONCLUSION

The state-space approach-which does not rely on external classification labels-is able to continuously track an arousal level from skin conductance features.

SIGNIFICANCE

The method is a promising arousal estimation scheme utilizing only skin conductance. The approach could find applications in wearable monitoring and the study of neuropsychiatric conditions such as post-traumatic stress disorder.

摘要

目的

大脑皮质和皮质下区域的神经解剖结构处理情绪,并导致随后的皮肤电导率和心电图等信号发生变化。这些信号通常以连续值幅度或波的形式以及潜在的冲动事件来编码信息。我们提议从皮肤电导率信息的这种混合源跟踪心理唤醒。

方法

我们提出了一种点过程状态空间方法,与贝叶斯滤波相结合,用于从皮肤电导率测量中确定连续值的唤醒状态。为了进行状态估计,我们将唤醒与从皮肤电导率信号的相位和紧张部分得出的二进制和连续值观察值相关联,并使用期望最大化来恢复模型参数。我们在两个合成数据集和两个不同的实验数据集上评估了我们的模型。在第一个实验数据集上,我们人为地诱导了压力,第二个数据集包括恐惧条件反射实验。

结果

第一个数据集的结果表明,在认知压力下暴露时,唤醒水平较高,而在放松时唤醒水平较低。在恐惧条件反射数据集中也得到了合理的结果,这与类似实验环境中的先前皮肤电导率研究一致。

结论

该状态空间方法-不依赖于外部分类标签-能够从皮肤电导特征连续跟踪唤醒水平。

意义

该方法是一种利用皮肤电导率的有前途的唤醒估计方案。该方法可以在可穿戴监测和创伤后应激障碍等神经精神疾病的研究中找到应用。

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