Surface Electromyography (sEMG) is a non-invasive measurement process that does not involve tools and instruments to break the skin or physically enter the body to investigate and evaluate the muscular activities produced by skeletal muscles. The main drawbacks of existing sEMG systems are: (1) they are not able to provide real-time monitoring; (2) they suffer from long processing time and low speed; (3) they are not effective for wireless healthcare systems because they consume huge power. In this work, we present an analog-based Compressed Sensing (CS) architecture, which consists of three novel algorithms for design and implementation of wearable wireless sEMG bio-sensor. At the transmitter side, two new algorithms are presented in order...
Technology scaling enables today the design of ultra-low power wearable biosensors for continuous vi...
Surface ElectroMyoGraphy (sEMG) is a fundamental tool in medicine, rehabilitation, and prostethics b...
The rapid growth in demand for portable and intelligent hardware has caused tremendous pressure on s...
Surface Electromyography (sEMG) is a non-invasive measurement process that does not involve tools an...
Wearable devices offer a convenient means to monitor biosignals in real time at relatively low cost,...
Advances in signal processing are enabling promising solutions for ambulatory monitoring in healthca...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous v...
Wearable body sensor network (BSN) is widely used in daily monitoring, well-being management, and re...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous ...
This work is focused on problematic of biopotential signals measurements (EXG) using powerful SMART ...
The amount of data to be transmitted from each smart device to the cloud server increases with the n...
Surface electromyography (sEMG) waveforms are widely used to generate control signals in several app...
Technology scaling enables today the design of ultra-low power wearable biosensors for continuous vi...
Surface ElectroMyoGraphy (sEMG) is a fundamental tool in medicine, rehabilitation, and prostethics b...
The rapid growth in demand for portable and intelligent hardware has caused tremendous pressure on s...
Surface Electromyography (sEMG) is a non-invasive measurement process that does not involve tools an...
Wearable devices offer a convenient means to monitor biosignals in real time at relatively low cost,...
Advances in signal processing are enabling promising solutions for ambulatory monitoring in healthca...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous v...
Wearable body sensor network (BSN) is widely used in daily monitoring, well-being management, and re...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous ...
This work is focused on problematic of biopotential signals measurements (EXG) using powerful SMART ...
The amount of data to be transmitted from each smart device to the cloud server increases with the n...
Surface electromyography (sEMG) waveforms are widely used to generate control signals in several app...
Technology scaling enables today the design of ultra-low power wearable biosensors for continuous vi...
Surface ElectroMyoGraphy (sEMG) is a fundamental tool in medicine, rehabilitation, and prostethics b...
The rapid growth in demand for portable and intelligent hardware has caused tremendous pressure on s...