基于 ECG 和 sEMG 特征融合的普拉提康复运动疲劳估计方法研究。

Research on exercise fatigue estimation method of Pilates rehabilitation based on ECG and sEMG feature fusion.

机构信息

North Sichuan Medical College, Nanchong, 631000, China.

China West Normal University, Nanchong, 631000, China.

出版信息

BMC Med Inform Decis Mak. 2022 Mar 18;22(1):67. doi: 10.1186/s12911-022-01808-7.

DOI:10.1186/s12911-022-01808-7

PMID:35303877

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8932330/

Abstract

PURPOSE

Surface electromyography (sEMG) is vulnerable to environmental interference, low recognition rate and poor stability. Electrocardiogram (ECG) signals with rich information were introduced into sEMG to improve the recognition rate of fatigue assessment in the process of rehabilitation.

METHODS

Twenty subjects performed 150 min of Pilates rehabilitation exercise. Twenty subjects performed 150 min of Pilates rehabilitation exercise. ECG and sEMG signals were collected at the same time. Aftering necessary preprocessing, the classification model of improved particle swarm optimization support vector machine base on sEMG and ECG data fusion was established to identify three different fatigue states (Relaxed, Transition, Tired). The model effects of different classification algorithms (BPNN, KNN, LDA) and different fused data types were compared.

RESULTS

IPSO-SVM had obvious advantages in the classification effect of sEMG and ECG signals, the average recognition rate was 87.83%. The recognition rates of sEMG and ECG fusion feature classification models were 94.25%, 92.25%, 94.25%. The recognition accuracy and model performance was significantly improved.

CONCLUSION

The sEMG and ECG signal after feature fusion form a complementary mechanism. At the same time, IPOS-SVM can accurately detect the fatigue state in the process of Pilates rehabilitation. On the same model, the recognition effect of fusion of sEMG and ECG(Relaxed: 98.75%, Transition:92.25%, Tired:94.25%) is better than that of only using sEMG signal or ECGsignal. This study establishes technical support for establishing relevant man-machine devices and improving the safety of Pilates rehabilitation.

摘要

目的

表面肌电图（sEMG）易受环境干扰，识别率低，稳定性差。本研究将信息丰富的心电图（ECG）信号引入到 sEMG 中，以提高康复过程中疲劳评估的识别率。

方法

20 名受试者进行 150 分钟的 Pilates 康复运动。同时采集 ECG 和 sEMG 信号。对采集到的信号进行必要的预处理后，建立基于 sEMG 和 ECG 数据融合的改进粒子群优化支持向量机分类模型，以识别三种不同的疲劳状态（放松、过渡、疲劳）。比较了不同分类算法（BPNN、KNN、LDA）和不同融合数据类型的模型效果。

结果

IPSO-SVM 在 sEMG 和 ECG 信号的分类效果上具有明显优势，平均识别率为 87.83%。sEMG 和 ECG 融合特征分类模型的识别率分别为 94.25%、92.25%、94.25%。识别准确率和模型性能均有显著提高。

结论

特征融合后的 sEMG 和 ECG 信号形成互补机制。同时，IPSO-SVM 可以准确检测 Pilates 康复过程中的疲劳状态。在相同的模型下，sEMG 和 ECG 融合（放松：98.75%，过渡：92.25%，疲劳：94.25%）的识别效果优于仅使用 sEMG 信号或 ECG 信号。本研究为建立相关人机设备和提高 Pilates 康复安全性提供了技术支持。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f406/8932330/871b006b0552/12911_2022_1808_Fig1_HTML.jpg

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基于 ECG 和 sEMG 特征融合的普拉提康复运动疲劳估计方法研究。

Research on exercise fatigue estimation method of Pilates rehabilitation based on ECG and sEMG feature fusion.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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