Anti-motion Artifact Performance Test System for Ambulatory ECG Monitoring Equipment.
10.3969/j.issn.1671-7104.2023.06.007
- Author:
Liping QIN
1
;
Yi WU
2
;
Ke XU
3
;
Xiangrui ZHAO
3
Author Information
1. Zhejiang Institute of Medical Device Supervision and Testing, Hangzhou, 310018.
2. NMPA Key Laboratory for Biomedical Optics, Hangzhou, 310018.
3. Key Laboratory of Safety Evaluation of Medical Devices of Zhejiang Province, Hangzhou, 310018.
- Publication Type:Journal Article
- Keywords:
ECG monitoring;
conductive leather;
motion artifact;
test system
- MeSH:
Humans;
Artifacts;
Signal Processing, Computer-Assisted;
Electrocardiography, Ambulatory/methods*;
Electrocardiography;
Motion
- From:Chinese Journal of Medical Instrumentation
2023;47(6):624-629
- CountryChina
- Language:Chinese
-
Abstract:
Anti-motion artifact is one of the most important properties of ambulatory ECG monitoring equipment. At present, there is a lack of standardized means to test the performance of anti-motion artifact. ECG simulator and special conductive leather are used to build the simulator, it is used to simulate human skin, to generate ECG signal input for the ECG monitoring equipment attached to it. The mechanical arm and fixed support are used to build a motion simulation system to fix the conductive leather. The mechanical arm is programmed to simulate various motion states of the human body, so that the ECG monitoring equipment can produce corresponding motion artifacts. The collected ECG signals are read wirelessly, observed, analyzed and compared, and the anti-motion artifact performance of ECG monitoring equipment is evaluated. The test results show that by artificially creating the small difference between the two groups of ambulatory ECG monitoring equipment, the system can accurately test the interference signals introduced under the conditions of controlled movement such as tension and torsion, and compare the advantages and disadvantages. The research shows that the test system can provide convenient and accurate verification means for the research of optimizing anti-motion interference.
