Your search keyword '"wearable textile electrode"' showing total 5 results

1. Compensation for Electrode Detachment in Electrical Impedance Tomography with Wearable Textile Electrodes.

Author

Hu, Chang-Lin, Lin, Zong-Yan, Hu, Shu-Yun, Cheng, I-Cheng, Huang, Chih-Hsien, Li, Yu-Hao, Li, Chien-Ju, and Lin, Chii-Wann

Subjects

*ELECTRIC impedance, *ELECTRICAL impedance tomography, *DIAGNOSTIC imaging, *ELECTRODES, *IMAGE reconstruction, *MEASUREMENT errors

Abstract

Electrical impedance tomography (EIT) is a radiation-free and noninvasive medical image reconstruction technique in which a current is injected and the reflected voltage is received through electrodes. EIT electrodes require good connection with the skin for data acquisition and image reconstruction. However, detached electrodes are a common occurrence and cause measurement errors in EIT clinical applications. To address these issues, in this study, we proposed a method for detecting faulty electrodes using the differential voltage value of the detached electrode in an EIT system. Additionally, we proposed the voltage-replace and voltage-shift methods to compensate for invalid data from the faulty electrodes. In this study, we present the simulation, experimental, and in vivo chest results of our proposed methods to verify and evaluate the feasibility of this approach. [ABSTRACT FROM AUTHOR]

Published

2022

2. Compensation for Electrode Detachment in Electrical Impedance Tomography with Wearable Textile Electrodes

Author

Chang-Lin Hu, Zong-Yan Lin, Shu-Yun Hu, I-Cheng Cheng, Chih-Hsien Huang, Yu-Hao Li, Chien-Ju Li, and Chii-Wann Lin

Subjects

compensation, detached electrode, wearable textile electrode, belt, EIT, Chemical technology, TP1-1185

Abstract

Electrical impedance tomography (EIT) is a radiation-free and noninvasive medical image reconstruction technique in which a current is injected and the reflected voltage is received through electrodes. EIT electrodes require good connection with the skin for data acquisition and image reconstruction. However, detached electrodes are a common occurrence and cause measurement errors in EIT clinical applications. To address these issues, in this study, we proposed a method for detecting faulty electrodes using the differential voltage value of the detached electrode in an EIT system. Additionally, we proposed the voltage-replace and voltage-shift methods to compensate for invalid data from the faulty electrodes. In this study, we present the simulation, experimental, and in vivo chest results of our proposed methods to verify and evaluate the feasibility of this approach.

Published

2022

3. Dry Wearable Textile Electrodes for Portable Electrical Impedance Tomography

Author

Chang-Lin Hu, I-Cheng Cheng, Chih-Hsien Huang, Yu-Te Liao, Wei-Chieh Lin, Kun-Ju Tsai, Chih-Hsien Chi, Chang-Wen Chen, Chia-Hsi Wu, I-Te Lin, Chien-Ju Li, and Chii-Wann Lin

Subjects

wearable textile electrode, portable electrical impedance tomography, belt, EIT, Chemical technology, TP1-1185

Abstract

Electrical impedance tomography (EIT), a noninvasive and radiation-free medical imaging technique, has been used for continuous real-time regional lung aeration. However, adhesive electrodes could cause discomfort and increase the risk of skin injury during prolonged measurement. Additionally, the conductive gel between the electrodes and skin could evaporate in long-term usage and deteriorate the signal quality. To address these issues, in this work, textile electrodes integrated with a clothing belt are proposed to achieve EIT lung imaging along with a custom portable EIT system. The simulation and experimental results have verified the validity of the proposed portable EIT system. Furthermore, the imaging results of using the proposed textile electrodes were compared with commercial electrocardiogram electrodes to evaluate their performance.

Published

2021

4. Dry Wearable Textile Electrodes for Portable Electrical Impedance Tomography

Author

Chih Hsien Huang, Chien-Ju Li, Chia-Hsi Wu, Wei-Chieh Lin, Chang-Wen Chen, Chii-Wann Lin, Yu-Te Liao, I-Cheng Cheng, Kun-Ju Tsai, Chih-Hsien Chi, I-Te Lin, and Chang-Lin Hu

Subjects

Materials science, Wearable computer, TP1-1185, Biochemistry, Article, wearable textile electrode, Analytical Chemistry, Wearable Electronic Devices, Signal quality, belt, Lung imaging, Electric Impedance, Medical imaging, Electrical and Electronic Engineering, Electrodes, Tomography, Instrumentation, Textile electrodes, Electrical impedance tomography, Electrical conductor, EIT, Chemical technology, Textiles, Atomic and Molecular Physics, and Optics, portable electrical impedance tomography, Electrode, Biomedical engineering

Abstract

Electrical impedance tomography (EIT), a noninvasive and radiation-free medical imaging technique, has been used for continuous real-time regional lung aeration. However, adhesive electrodes could cause discomfort and increase the risk of skin injury during prolonged measurement. Additionally, the conductive gel between the electrodes and skin could evaporate in long-term usage and deteriorate the signal quality. To address these issues, in this work, textile electrodes integrated with a clothing belt are proposed to achieve EIT lung imaging along with a custom portable EIT system. The simulation and experimental results have verified the validity of the proposed portable EIT system. Furthermore, the imaging results of using the proposed textile electrodes were compared with commercial electrocardiogram electrodes to evaluate their performance.

Published

2021

5. Dry Wearable Textile Electrodes for Portable Electrical Impedance Tomography.

Author

Hu, Chang-Lin, Cheng, I-Cheng, Huang, Chih-Hsien, Liao, Yu-Te, Lin, Wei-Chieh, Tsai, Kun-Ju, Chi, Chih-Hsien, Chen, Chang-Wen, Wu, Chia-Hsi, Lin, I-Te, Li, Chien-Ju, and Lin, Chii-Wann

Subjects

*ELECTRICAL impedance tomography, *ELECTRODE performance, *DIAGNOSTIC imaging, *ELECTRODES, *LUNGS

Abstract

Electrical impedance tomography (EIT), a noninvasive and radiation-free medical imaging technique, has been used for continuous real-time regional lung aeration. However, adhesive electrodes could cause discomfort and increase the risk of skin injury during prolonged measurement. Additionally, the conductive gel between the electrodes and skin could evaporate in long-term usage and deteriorate the signal quality. To address these issues, in this work, textile electrodes integrated with a clothing belt are proposed to achieve EIT lung imaging along with a custom portable EIT system. The simulation and experimental results have verified the validity of the proposed portable EIT system. Furthermore, the imaging results of using the proposed textile electrodes were compared with commercial electrocardiogram electrodes to evaluate their performance. [ABSTRACT FROM AUTHOR]

Published

2021