Title :
Bayesian analysis of generalized frequency-modulated signals
Author :
Copsey, Keith ; Gordon, Neil ; Marrs, Alan
Author_Institution :
QinetiQ Ltd, Malvern, UK
fDate :
3/1/2002 12:00:00 AM
Abstract :
General frequency-modulated (GFM) signals can be used to characterize many vibrations in dynamic environments, with applications to engine monitoring and sonar. Most work into parameter estimation of such signals assumes knowledge of the number of carrier frequencies. In this paper, we make no such assumption and use Bayesian techniques to address jointly the problem of model selection and parameter estimation. Following the work of Andrieu and Doucet (see ibid., vol.47, p.2667-76, 1999), who addressed the problem for nonmodulated sinusoids, a posterior distribution for the parameters and model order is obtained. This distribution is too complicated for analytical extraction of moments and to sample from directly; therefore, we use a reversible jump Markov chain Monte Carlo (RJMCMC) algorithm to draw samples from the distribution. Some simulated examples are presented to illustrate the algorithm´s performance
Keywords :
Bayes methods; Markov processes; Monte Carlo methods; frequency modulation; parameter estimation; signal sampling; sonar signal processing; vibrations; Bayesian analysis; GFM signals; RJMCMC algorithm; a posterior distribution; dynamic environments; engine monitoring; generalized frequency-modulated signals; model selection; nomnodulated sinusoids; parameter estimation; periodic signals; reversible jump Markov chain Monte Carlo; simulation; sonar; vibrations; white Gaussian noise; Bayesian methods; Frequency estimation; Gaussian noise; Inference algorithms; Monitoring; Monte Carlo methods; Parameter estimation; Signal analysis; Signal processing algorithms; Vibration measurement;
Journal_Title :
Signal Processing, IEEE Transactions on
