The neural command from motor neurons to muscles — sometimes referred to as the neural drive to muscle — can be identified by decomposition of electromyographic (EMG) signals. This approach can be used for inferring the voluntary commands in neural interfaces in patients with limb amputations. This paper proposes for the first time an innovative method for fully automatic and real-time intramuscular EMG (iEMG) decomposition. The method is based on online single-pass density-based clustering and adaptive classification of bivariate features, using the concept of potential measure. No attempt was made to resolve superimposed motor unit action potentials. The proposed algorithm was validated on sets of simulated and experimental iEMG signals. ...
An automated system for resolving an intramuscular electromyographic (EMG) signal into its constitue...
International audienceThis paper addresses the sequential decoding of intramuscular single-channel E...
Involuntary electromyographic (EMG) activity has only been analyzed in the paralyzed thenar muscles ...
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...
International audienceReal-time intramuscular electromyography (iEMG) decomposition, as an identific...
International audienceReal-time intramuscular electromyography (iEMG) decomposition, as an identific...
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...
Targeted muscle reinnervation (TMR) redirects nerves that have lost their target, due to amputation,...
Techniques for automatic recording and analyzing single motor unit action potentials in real time ha...
Despite the progress in understanding of neural codes, the studies of the cortico-muscular coupling ...
Objective. Recent results have shown the potentials of neural interfaces to provide sensory feedback...
International audienceObjective: Real-time intramuscular electromyogra-phy (iEMG) decomposition, whi...
The shapes and firing rates of motor unit action potentials (MUAPs) in an electromyographic (EMG) si...
An automated system for resolving an intramuscular electromyographic (EMG) signal into its constitue...
International audienceThis paper addresses the sequential decoding of intramuscular single-channel E...
Involuntary electromyographic (EMG) activity has only been analyzed in the paralyzed thenar muscles ...
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...
International audienceReal-time intramuscular electromyography (iEMG) decomposition, as an identific...
International audienceReal-time intramuscular electromyography (iEMG) decomposition, as an identific...
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...
Targeted muscle reinnervation (TMR) redirects nerves that have lost their target, due to amputation,...
Techniques for automatic recording and analyzing single motor unit action potentials in real time ha...
Despite the progress in understanding of neural codes, the studies of the cortico-muscular coupling ...
Objective. Recent results have shown the potentials of neural interfaces to provide sensory feedback...
International audienceObjective: Real-time intramuscular electromyogra-phy (iEMG) decomposition, whi...
The shapes and firing rates of motor unit action potentials (MUAPs) in an electromyographic (EMG) si...
An automated system for resolving an intramuscular electromyographic (EMG) signal into its constitue...
International audienceThis paper addresses the sequential decoding of intramuscular single-channel E...
Involuntary electromyographic (EMG) activity has only been analyzed in the paralyzed thenar muscles ...