Measuring Biosignals with Single Circuit Boards
TLDR
This review gives an overview of studies found in the recent scientific literature, reporting measurements of biosignals such as ECG, EMG, sweat and other health-related parameters by single circuit boards, showing new possibilities offered by Arduino, Raspberry Pi etc. in the mobile long-term acquisition of biosignedals.Abstract:
To measure biosignals constantly, using textile-integrated or even textile-based electrodes and miniaturized electronics, is ideal to provide maximum comfort for patients or athletes during monitoring. While in former times, this was usually solved by integrating specialized electronics into garments, either connected to a handheld computer or including a wireless data transfer option, nowadays increasingly smaller single circuit boards are available, e.g., single-board computers such as Raspberry Pi or microcontrollers such as Arduino, in various shapes and dimensions. This review gives an overview of studies found in the recent scientific literature, reporting measurements of biosignals such as ECG, EMG, sweat and other health-related parameters by single circuit boards, showing new possibilities offered by Arduino, Raspberry Pi etc. in the mobile long-term acquisition of biosignals. The review concentrates on the electronics, not on textile electrodes about which several review papers are available.read more
Citations
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Development and Characterization of Embroidery-Based Textile Electrodes for Surface EMG Detection
TL;DR: In this paper , a textile-based electrode was produced with a range of electrode shapes, and areas were embroidered with conductive yarn using an embroidery technique in the clothing manufacturing process.
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A Hand Gesture Recognition Circuit Utilizing an Analog Voting Classifier
Vassilis Alimisis,Vassilis Mouzakis,Georgios Gennis,Errikos Tsouvalas,Christos Dimas,Paul P. Sotiriadis +5 more
TL;DR: In this paper , a novel analog integrated voting classifier is proposed as a hand gesture recognition system, which utilizes three separate centroid-based classifiers, each one attached to a different electromyographic electrode and a voting circuit.
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50/60 Hz Power Grid Noise as a Skin Contact Measure of Textile ECG Electrodes
TL;DR: In this article , a simple method of using 50/60 Hz power grid noise to evaluate the skin contact of different textile electrodes in comparison with commercial glued electrodes was proposed to show the drying of wetted skin under an embroidered electrode as well as sweating of originally dry skin under a coated electrode with high water vapor resistance.
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Pneumatic piston hydrostatic bioreactor for cartilage tissue engineering
TL;DR: In this paper , a cost-effective hydropneumatic bioreactor system for research in mechanobiology was presented, which was assembled from readily available components (a closed-loop stepped motor and pneumatic actuator) and a minimal number of easily-machined crankshaft parts.
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Textile Fabrics as Electromagnetic Shielding Materials—A Review of Preparation and Performance
TL;DR: In this paper , a critical comparison of the properties of materials typically used for this purpose, such as intrinsically conductive polymers, metal-coated fabrics and metal wires, MXene coatings and fibers, is presented.
References
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Body fluid volumes measurements by impedance: A review of bioimpedance spectroscopy (BIS) and bioimpedance analysis (BIA) methods.
Michel Y. Jaffrin,Hélène Morel +1 more
TL;DR: This paper reviews various bioimpedance methods permitting to measure non-invasively, extracellular, intracellular and total body water (TBW) and compares BIA methods based on empirical equations of the wrist-ankle resistance or impedance at 50 kHz, height and weight with BIS methods which rely on an electrical model of tissues and resistances measured at zero and infinite frequencies.
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Solderable and electroplatable flexible electronic circuit on a porous stretchable elastomer
Gi Seok Jeong,Dong-Hyun Baek,Hachul Jung,Ji Hoon Song,Jin Hee Moon,Suck Won Hong,In Young Kim,Sang Hoon Lee +7 more
TL;DR: A novel method for fabricating flexible and stretchable electronic devices using a porous elastomeric substrate was applied to develop a plaster electrocardiogram dry electrode and multi-channel microelectrodes that could be used as a long-term wearable biosignal monitor and for brain signal monitoring, respectively.
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Vital-sign monitoring and spatial tracking of multiple people using a contactless radar-based sensor
Marco Mercuri,Ilde Lorato,Yao-Hong Liu,Fokko Pieter Wieringa,Fokko Pieter Wieringa,Chris Van Hoof,Chris Van Hoof,Tom Torfs +7 more
TL;DR: It is shown that a radar-based sensor can be used to monitor the individual vital signs (heartbeat and respiration) of multiple people in a real-world setting, keeping track of individual people during vigorous movement.
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Application of the phasor transform for automatic delineation of single-lead ECG fiducial points.
TL;DR: This work introduces a new single-lead ECG delineator based on phasor transform, which outperforms the results provided by other well-known delineation algorithms and, moreover, presents a notably lower computational cost.