基于改进的非负矩阵分解技术的抗运动干扰心电信号感知方法
Motion-Robust Electrocardiogram Signal Sensing Based on Modified Non-Negative Matrix Factorization
- 电子学报 2024年52卷第12期 页码:4153-4165
- 作者机构:
1.山东大学计算机科学与技术学院,山东青岛 266237
2.北京理工大学计算机学院,北京 100081
3.北京工业大学计算机学院,北京 100124
- 作者简介:
[ "李 凡 女,1975年5月出生,湖北武汉人.1988年毕业于美国北卡罗来纳大学计算机科学与技术学院,现为北京理工大学教授.主要研究方向为智能感知、计算机网络、移动计算.E-mail: fli@bit.edu.cn" ]
[ "刘晓晨 女,1997年出生,山东滨州人.毕业于中国石油大学(华东)并获得学士学位,现为北京理工大学博士研究生.主要研究方向为物联网、可穿戴计算. E-mail: xiaochenliu@bit.edu.cn" ]
[ "谢睆冉 女,1999年出生,四川内江人.毕业于中国海洋大学并获得学士学位,现为北京理工大学硕士研究生.主要研究方向为物联网、可穿戴计算. E-mail: huanranxie@bit.edu.cn" ]
[ "陈慧杰 男,1989年出生,河南新乡人.毕业于北京理工大学并获得博士学位,现为北京工业大学讲师.主要研究方向为智能物联网、泛在智能感知. E-mail: chenhuijie@bjut.edu.cn" ]
- 基金信息:国家自然科学基金(62372045;62072040;62202019);中国博士后科学基金(2021M700302)
DOI:10.12263/DZXB.20230475
中图分类号: TP391.4;收稿:2023-05-30,
修回:2024-10-14,
纸质出版:2024-12-25
- 稿件说明:
移动端阅览
曹烨彤, 李凡, 刘晓晨, 等. 基于改进的非负矩阵分解技术的抗运动干扰心电信号感知方法[J]. 电子学报, 2024, 52(12): 4153-4165.
CAO Ye-tong, LI Fan, LIU Xiao-chen, et al. Motion-Robust Electrocardiogram Signal Sensing Based on Modified Non-Negative Matrix Factorization[J]. Acta Electronica Sinica, 2024, 52(12): 4153-4165.
曹烨彤, 李凡, 刘晓晨, 等. 基于改进的非负矩阵分解技术的抗运动干扰心电信号感知方法[J]. 电子学报, 2024, 52(12): 4153-4165. DOI:10.12263/DZXB.20230475
CAO Ye-tong, LI Fan, LIU Xiao-chen, et al. Motion-Robust Electrocardiogram Signal Sensing Based on Modified Non-Negative Matrix Factorization[J]. Acta Electronica Sinica, 2024, 52(12): 4153-4165. DOI:10.12263/DZXB.20230475
摘要
连续监测心电信号对于加强心血管疾病的早期筛查和诊断至关重要.然而,现有的心电信号监测方法存在依赖昂贵设备、依赖用户执行特殊操作、应用场景受限等弊端,无法满足广泛人群在日常生活状态下长期连续监测心电的迫切需求.为了克服上述问题,本研究提出了一种基于改进的非负矩阵分解技术的抗运动干扰心电信号感知方法.其基本思想是利用成本低廉的腕戴式智能设备集成的陀螺仪,连续感知身体振动中隐含的心脏活动信息并生成细粒度心电信号.为了有效应对身体运动干扰难以消除的固有挑战,本研究提出了一种基于改进的非负矩阵分解技术的创新方法.该方法能够在未经训练的情况下,成功提取因心跳引发的微弱心冲击振动信号,有效克服运动干扰问题.此外,针对心冲击振动信号在心动周期中波形动态性强且缺乏明确起止点的特点,本研究首次提出了四种全新的形态特征,并结合机器学习算法,精准识别心冲击振动信号中的尖峰点,从而实现对心动周期的精确切分.最后,本研究基于循环生成对抗网络,构建了心冲击振动信号与心电信号之间的映射关系.得益于该网络的创新设计,模型在无需用户提供训练数据的情况下,也能高效生成精准的心电波形.本研究对18位志愿者进行了大量实验,结果表明所提出的连续心电信号监测方法非常有效,抗运动干扰效果显著.在身体静止和运动的情况下,平均幅值误差分别为7.92%和9.02%,均满足医学标准规定的误差范围低于10%的要求.
Abstract
Continuous electrocardiogram (ECG) monitoring is crucial for effectively preventing and diagnosing cardiovascular diseases. However
existing ECG monitoring methods are limited by their reliance on expensive equipment unavailable to common users
the stringent requirements of the monitoring process
and confined application scenarios
making them insufficient to meet the urgent need for long-term continuous ECG monitoring of the general population in their daily lives. Given these limitations
this study proposes a motion-robust ECG signal sensing method based on modified non-negative matrix factorization (NMF). The basic idea is to leverage a gyroscope embedded into a low-cost wrist-worn wearable to characterize cardiac activities encoded into body vibrations and interpret them to generate fine-grained ECG signals accurately. As eliminating body motion interference is inherently hard
this work innovatively employs modified NMF to tackle the problem; this can effectively handle body motion interference
even if untrained
and extract the cardiogenic body vibrations from noisy gyroscope data. Due to the lack of clear pattern of cardiogenic body vibrations in each cardiac cycles
current cardiac cycle segmentation solutions cannot be applied. Thus
this work deeply analyses the morphological features of cardiogenic body vibrations and utilizes machine learning techniques for the identification of spike points for segmentation. Finally
cycle generative adversarial network (CycleGAN) framework is employed to construct a correlation mapping model between the cardiogenic body vibrations and the ECG signals. With innovative construction
this model can accurate generation of the ECG signals without the need for a huge amount of training data. Extensive experiments with 18 volunteers confirm the effectiveness of the proposed method
with the average amplitude errors of 7.92% and 9.02% for stationary and moving scenarios
respectively. These values fall well within the acceptable range of medical standards for error tolerance of less than 10%.
关键词
Keywords
references
POETSCH M , STRANO A , GUAN K . Role of leptin in cardiovascular diseases [J ] . Frontiers in Endocrinology , 2020 , 11 : 1 - 13 .
国家心血管病中心 . 中国心血管健康与疾病报告2021 [M ] . 北京 : 科学出版社 , 2022 .
National Center for Cardio⁃Vascular Diseases . Report on Cardiovascular Health and Diseases in China 2021 [M ] . Beijing : Science Press , 2022 . (in Chinese)
刘澄玉 , 杨美程 , 邸佳楠 , 等 . 穿戴式心电:发展历程、核心技术与未来挑战 [J ] . 中国生物医学工程学报 , 2019 , 38 ( 6 ): 641 - 652 .
LIU C Y , YANG M C , DI J N , et al . Wearable ECG: History, key technologies and future challenges [J ] . Chinese Journal of Biomedical Engineering , 2019 , 38 ( 6 ): 641 - 652 . (in Chinese)
XU C H , LI H N , LI Z X , et al . Cardiacwave: A mmwave-based scheme of non-contact and high-definition heart activity computing [J ] . Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies , 2021 , 5 ( 3 ): 1 - 26 .
SARHADDI F , KAZEMI K , AZIMI I , et al . A comprehensive accuracy assessment of Samsung smartwatch heart rate and heart rate variability [J ] . PLoS One , 2022 , 17 ( 12 ): e0268361 .
KLIGFIELD P , GETTES L S , BAILEY J J , et al . Recommendations for the standardization and interpretation of the electrocardiogram: Part I: The electrocardiogram and its technology: A scientific statement from the American heart association electrocardiography and arrhythmias committee, council on clinical cardiology; the American college of cardiology foundation; and the heart rhythm society: endorsed by the international society for computerized electrocardiology [J ] . Circulation , 2007 , 115 ( 10 ): 1306 - 1324 .
WU K F , ZHANG Y T . Contactless and continuous monitoring of heart electric activities through clothes on a sleeping bed [C ] // 2008 International Conference on Information Technology and Applications in Biomedicine . Piscataway : IEEE , 2008 : 282 - 285 .
LIM Y G , KIM K K , PARK K S . ECG measurement on a chair without conductive contact [J ] . IEEE Transactions on Bio-Medical Engineering , 2006 , 53 ( 5 ): 956 - 959 .
PARK J , CHO H , BALAN R K , et al . Heartquake: Accurate low-cost non-invasive ecg monitoring using bed-mounted geophones [J ] . Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies , 2020 , 4 ( 3 ): 1 - 28 .
KIM T , PARK J , SOHN J , et al . Bioinspired, highly stretchable, and conductive dry adhesives based on 1D-2D hybrid carbon nanocomposites for all-in-one ECG electrodes [J ] . ACS Nano , 2016 , 10 ( 4 ): 4770 - 4778 .
JIN G J , UDDIN M J , SHIM J S . Biomimetic cilia‐patterned rubber electrode using ultra conductive polydimethylsiloxane [J ] . Advanced Functional Materials , 2018 , 28 ( 50 ): 1804351 .
DI RIENZO M , MERIGGI P , RIZZO F , et al . A wearable system for the seismocardiogram assessment in daily life conditions [C ] // 2011 Annual International Conference of the IEEE Engineering in Medicine and Biology Society . Piscataway : IEEE , 2011 : 4263 - 4266 .
刘光达 , 郭维 , 李肃义 , 等 . 穿戴式人体参数连续监测系统 [J ] . 吉林大学学报(工学版) , 2011 , 41 ( 3 ): 771 - 775 .
LIU G D , GUO W , LI S Y , et al . Wearable system for continuouly monitoring physiological parameters [J ] . Journal of Jilin University (Engineering and Technology Edition) , 2011 , 41 ( 3 ): 771 - 775 . (in Chinese)
Apple . Take an ECG with the ECG app on apple watch [EB/OL ] . [ 2023-05-30 ] . https://support.apple.com/en-us/HT208955 https://support.apple.com/en-us/HT208955 .
Samsung . ECG at your fingertips [EB/OL ] . [ 2023-05-30 ] . https://www.samsung.com/us/apps/samsung-health-monitor/ https://www.samsung.com/us/apps/samsung-health-monitor/ .
XU X Y , YU J D , MA C G , et al . mmECG: Monitoring human cardiac cycle in driving environments leveraging millimeter wave [C ] // IEEE INFOCOM 2022 - IEEE Conference on Computer Communications . Piscataway : IEEE , 2022 : 90 - 99 .
KIM C S , OBER S L , MCMURTRY M S , et al . Ballistocardiogram: Mechanism and potential for unobtrusive cardiovascular health monitoring [J ] . Scientific Reports , 2016 , 6 : 31297 .
YANG Z J , WEI Y L , SHEN S , et al . Ear-AR: Indoor acoustic augmented reality on earphones [C ] // Proceedings of the 26th Annual International Conference on Mobile Computing and Networking . New York : ACM , 2020 : 1 - 14 .
CAO Y T , CHEN H J , LI F , et al . AWash: Handwashing assistance for the elderly with dementia via wearables [C ] // IEEE INFOCOM 2021 - IEEE Conference on Computer Communications . Piscataway : IEEE , 2021 : 1 - 10 .
BA Z J , ZHENG T H , ZHANG X Y , et al . Learning-based practical smartphone eavesdropping with built-in accelerometer [C ] // Proceedings 2020 Network and Distributed System Security Symposium . Reston : Internet Society , 2020 : 23 - 26 .
SU W G , LIU D B , ZHANG T Y , et al . Towards device independent eavesdropping on telephone conversations with built-in accelerometer [J ] . Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies , 2021 , 5 ( 4 ): 1 - 29 .
MIGEOTTE P F , MUCCI V , DELIÈRE Q , et al . Multi-Dimensional kineticardiography a new approach for wearable cardiac monitoring through body acceleration recordings [M ] // IFMBE Proceedings . Cham : Springer International Publishing , 2016 : 1125 - 1130 .
CHAWLA M P S . PCA and ICA processing methods for removal of artifacts and noise in electrocardiograms: A survey and comparison [J ] . Applied Soft Computing , 2011 , 11 ( 2 ): 2216 - 2226 .
ZHAO Q B , ZHANG L Q . ECG feature extraction and classification using wavelet transform and support vector machines [C ] // 2005 International Conference on Neural Networks and Brain . Piscataway : IEEE , 2005 : 1089 - 1092 .
陈习坤 , 杨俊美 . 基于离散小波包变换与胶囊生成对抗网络的语音超分辨率算法 [J ] . 电子学报 , 2023 , 51 ( 4 ): 1039 - 1049 .
CHEN X K , YANG J M . Speech super-resolution algorithm based on discrete wavelet packet transform and capsule generative adversarial network [J ] . Acta Electronica Sinica , 2023 , 51 ( 4 ): 1039 - 1049 . (in Chinese)
裴炤 , 邱文涛 , 王淼 , 等 . 基于Transformer动态场景信息生成对抗网络的行人轨迹预测方法 [J ] . 电子学报 , 2022 , 50 ( 7 ): 1537 - 1547 .
PEI Z , QIU W T , WANG M , et al . Pedestrian trajectory prediction method using dynamic scene information based transformer generative adversarial network [J ] . Acta Electronica Sinica , 2022 , 50 ( 7 ): 1537 - 1547 . (in Chinese)
谢昭 , 周义 , 吴克伟 , 等 . 基于时空关注度LSTM的行为识别 [J ] . 计算机学报 , 2021 , 44 ( 2 ): 261 - 274 .
XIE Z , ZHOU Y , WU K W , et al . Activity recognition based on spatial-temporal attention LSTM [J ] . Chinese Journal of Computers , 2021 , 44 ( 2 ): 261 - 274 . (in Chinese)
Witmotion . Witmotion BWT901 [EB/OL ] . [ 2023-05-30 ] . https://github.com/WITMOTION/BWT901 https://github.com/WITMOTION/BWT901 .
AMIL P , SORIANO M C , MASOLLER C . Machine learning algorithms for predicting the amplitude of chaotic laser pulses [J ] . Chaos: an Interdisciplinary Journal of Nonlinear Science , 2019 , 29 ( 11 ): 113111 .
DE WINTER J C F , GOSLING S D , POTTER J . Comparing the pearson and spearman correlation coefficients across distributions and sample sizes: A tutorial using simulations and empirical data [J ] . Psychological Methods , 2016 , 21 ( 3 ): 273 - 290 .
:作者简介:
0
浏览量
12
下载量
0
CSCD
- 网络PDF下载
- Meta-XML下载
- BibTeX下载
- Endnote下载
- RefMan 下载
- NoteExpress下载
- NoteFirst下载
关联资源
相关文章
相关作者
相关机构
- 技术支持由北京北大方正电子有限公司提供 京ICP备09064830号-19
京公网安备11010802024621 - 本系统建议在Chrome、 IE9+ 以上版本浏览器阅读本站内容,360浏览器请切换至极速模式
- Cookies帮助我们提供服务并提供个性化体验。使用本网站,即表示您同意我们使用Cookies