Removal of motion artifacts in capacitive electrocardiogram acquisition: A review
Capacitive electrocardiogram (cECG) systems are increasingly used for the monitoring of
cardiac activity. They can operate within the presence of a small layer of air, hair or cloth and …
cardiac activity. They can operate within the presence of a small layer of air, hair or cloth and …
Intelligent medical garments with graphene-functionalized smart-cloth ECG sensors
MK Yapici, TE Alkhidir - Sensors, 2017 - mdpi.com
Biopotential signals are recorded mostly by using sticky, pre-gelled electrodes, which are
not ideal for wearable, point-of-care monitoring where the usability of the personalized …
not ideal for wearable, point-of-care monitoring where the usability of the personalized …
Ambulatory cardiac bio-signals: from mirage to clinical reality through a decade of progress
T Periyaswamy, M Balasubramanian - International journal of medical …, 2019 - Elsevier
Background Health monitoring is shifting towards continuous, ambulatory and clinically
comparable wearable devices. Telemedicine and remote diagnosis could harness the …
comparable wearable devices. Telemedicine and remote diagnosis could harness the …
Influence of armband form factors on wearable ECG monitoring performance
In the current state of innovation in wearable technology, there is a vast array of
biomonitoring devices available to record electrocardiogram (ECG) in users, a key indicator …
biomonitoring devices available to record electrocardiogram (ECG) in users, a key indicator …
Cancellation of motion artifacts in ambulatory ECG signals using TD-LMS adaptive filtering techniques
F Xiong, D Chen, Z Chen, S Dai - Journal of Visual Communication and …, 2019 - Elsevier
Wearable electrocardiogram (ECG) measurement systems have been widely used in
patients with CVD (Cardiovascular Disease) which can be worn in daily lives. However …
patients with CVD (Cardiovascular Disease) which can be worn in daily lives. However …
Wearable graphene nanotextile embedded smart armband for cardiac monitoring
This work reports the synthesis and application of graphene nanotextiles towards the
development of wearable electrocardiography (ECG) sensors for personalized health …
development of wearable electrocardiography (ECG) sensors for personalized health …
CEEMDAN-IMFx-PCA-CICA: an improved single-channel blind source separation in multimedia environment for motion artifact reduction in ambulatory ECG
F Xiong, D Chen - Complex & Intelligent Systems, 2023 - Springer
Long-term monitoring of ECG via wearable monitoring systems has already been widely
adopted to detect and prevent heart diseases. However, one of the main issues faced by …
adopted to detect and prevent heart diseases. However, one of the main issues faced by …
Practical rr interval editing for heart rate variability analysis using single-channel wearable ecg devices
K Eguchi, R Aoki - IEEE Access, 2023 - ieeexplore.ieee.org
Recent innovations in wearable devices have expanded the usage opportunities of single-
channel electrocardiography (ECG) recordings in a daily life environment and enabled a …
channel electrocardiography (ECG) recordings in a daily life environment and enabled a …
A Teenager Physical Fitness Evaluation Model Based on 1D-CNN with LSTM and Wearable Running PPG Recordings
J Guo, B Wan, S Zheng, A Song, W Huang - Biosensors, 2022 - mdpi.com
People attach greater importance to the physical health of teenagers because adolescence
is a critical period for the healthy development of the human body. With the progress of …
is a critical period for the healthy development of the human body. With the progress of …
Flexible and wearable monitoring systems for biomedical applications in organic flexible electronics: Fundamentals, devices, and applications
In this chapter, we will focus on the recent developments within the very promising, and fairly
new field of wearable, flexible, and organic (bio) electronics. A deep analysis of the most …
new field of wearable, flexible, and organic (bio) electronics. A deep analysis of the most …