A compact portable bio-signal acquisition device for wearables was developed, capable of continuously working for up to 13.6 hours with a 3.7V 1700 mAh battery while acquiring 8-channel ECG and EMG.
A newly developed portable bio-signal acquisition device demonstrates reliable high-rate wireless streaming of ECG and EMG data with low energy consumption.
Physical indicators are directly related with health and fitness of human body. By employing real-time e-health monitoring systems for acquiring, and analyzing bio-signals by measurements such as electrocardiogram (ECG) and electromyography (EMG), it is possible to extract information to achieve better health-care in terms of observation, diagnosis, and treatment. However, those systems are limited in acquiring and sending data at high rates, are not energy efficient, or, are restricted in terms of portability due to large size and weight. In this paper, a compact portable bio-signal acquisition device for wearables has been designed and implemented. The developed hardware is capable of acquiring and reliably sending the data wirelessly at a high transfer rate in real-time while keeping the overall energy consumption low. Finally, the signal acquisition performance of the device has been evaluated for both ECG and EMG at 8 channel 24 bit resolution/channel 500 samples/s configuration. Measurement of energy consumption has been conducted using professional tool and it is found that the device can continuously work for up to 13.6 hours with a 3.7V 1700 mAh battery. In addition, the device has been used in an IoT-based system as an example of possible integration.
Sarker et al. (Sun,) conducted a other in Bio-signal acquisition. Compact portable bio-signal acquisition device was evaluated on Signal acquisition performance and energy consumption. A compact portable bio-signal acquisition device for wearables was developed, capable of continuously working for up to 13.6 hours with a 3.7V 1700 mAh battery while acquiring 8-channel ECG and EMG.