International audienceReal-time intramuscular electromyography (iEMG) decomposition, as an identification procedure of individual motor neuron (MN) discharge timings from a streaming iEMG recording, has the potential to be used in human-machine interfacing. However, for these applications, the decomposition accuracy and speed of current approaches need to be improved. Methods: In our previous work, a real-time decomposition algorithm based on a Hidden Markov Model of EMG, using GPUimplemented Bayesian filter to estimate the spike trains of motor units (MU) and their action potentials (MUAPs), was proposed. In this paper, a substantially extended version of this algorithm that boosts the accuracy while maintaining real-time implementation, i...
Abstract—This paper addresses the sequential decoding of intramuscular single-channel EMG signals to...
This study addresses online decomposition of high-density surface electromyograms (EMG) in real-time...
Techniques for automatic recording and analyzing single motor unit action potentials in real time ha...
International audienceReal-time intramuscular electromyography (iEMG) decomposition, as an identific...
International audienceReal-time intramuscular electromyography (iEMG) decomposition, as an identific...
International audienceObjective: Real-time intramuscular electromyogra-phy (iEMG) decomposition, whi...
Objective: Real-time intramuscular electromyography (iEMG) decomposition, which is needed in biofeed...
International audienceThis paper describes a sequential decomposition algorithm for single channel i...
The neural command from motor neurons to muscles — sometimes referred to as the neural drive to musc...
The neural command from motor neurons to muscles — sometimes referred to as the neural drive to mus...
Objective. Estimation of the discharge pattern of motor units by electromyography (EMG) decompositio...
A novel electromyography (EMG) signal decomposition framework is presented for the thorough and prec...
International audienceThis paper addresses the sequential decoding of intramuscular single-channel E...
International audienceMultichannel intramuscular EMG (iEMG) recordings provide information on motor ...
Introduction Decomposition of electromyography (EMG) signals into the constituent motor unit action ...
Abstract—This paper addresses the sequential decoding of intramuscular single-channel EMG signals to...
This study addresses online decomposition of high-density surface electromyograms (EMG) in real-time...
Techniques for automatic recording and analyzing single motor unit action potentials in real time ha...
International audienceReal-time intramuscular electromyography (iEMG) decomposition, as an identific...
International audienceReal-time intramuscular electromyography (iEMG) decomposition, as an identific...
International audienceObjective: Real-time intramuscular electromyogra-phy (iEMG) decomposition, whi...
Objective: Real-time intramuscular electromyography (iEMG) decomposition, which is needed in biofeed...
International audienceThis paper describes a sequential decomposition algorithm for single channel i...
The neural command from motor neurons to muscles — sometimes referred to as the neural drive to musc...
The neural command from motor neurons to muscles — sometimes referred to as the neural drive to mus...
Objective. Estimation of the discharge pattern of motor units by electromyography (EMG) decompositio...
A novel electromyography (EMG) signal decomposition framework is presented for the thorough and prec...
International audienceThis paper addresses the sequential decoding of intramuscular single-channel E...
International audienceMultichannel intramuscular EMG (iEMG) recordings provide information on motor ...
Introduction Decomposition of electromyography (EMG) signals into the constituent motor unit action ...
Abstract—This paper addresses the sequential decoding of intramuscular single-channel EMG signals to...
This study addresses online decomposition of high-density surface electromyograms (EMG) in real-time...
Techniques for automatic recording and analyzing single motor unit action potentials in real time ha...