Title :
Comparison of Maximum Likelihood and Time Frequency Approaches for Time Varying Delay Estimation in The Case of Electromyography Signals
Author :
Luu, G.-T. ; Ravier, Ph ; Buttelli, Olivier
Author_Institution :
France PRISME Lab., Univ. of Orleans, Orléans, France
Abstract :
Muscle fiber conduction velocity (MFCV) is based on the time delay estimation between electromyography recording channels. In order to take into account the variability of the MFCV, we assume that the time delay between the channels varies over time. In the present paper, the Maximum - Likelihood estimation (MLE) of time varying delay for two channels of EMG signals that follow a polynomial model is derived. Monte Carlo simulations are performed at different noise levels in order to evaluate the noise impact of the estimator. The Maximum-Likelihood estimation was achieved by the Newton method. The delay with unknown model (inverse sinusoidal) was also investigated by cutting this delay into many slices. This approach gives the best results by comparison with the other ones.
Keywords :
Monte Carlo methods; Newton method; delays; electromyography; maximum likelihood estimation; medical signal processing; polynomial approximation; time-frequency analysis; MFCV; Monte Carlo simulations; Newton method; electromyography recording channels; electromyography signals; maximum likelihood approach; maximum likelihood estimation; muscle fiber conduction velocity; polynomial model; time varying delay MLE; time varying delay estimation; time-frequency approach; Delay; Electromyography; Maximum likelihood estimation; Newton method; Polynomials; Signal to noise ratio; Conduction velocity; EMG; fatigue; multi-channel acquisition; time-varying delay estimation;
Conference_Titel :
Biomedical Engineering International Conference (BMEiCON), 2012
Conference_Location :
Ubon Ratchathani
Print_ISBN :
978-1-4673-4890-4
DOI :
10.1109/BMEiCon.2012.6465450
