Variational Bayesian Inference of Line Spectra
April 13, 2016 Β· Declared Dead Β· π IEEE Transactions on Signal Processing
"No code URL or promise found in abstract"
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Authors
Mihai-Alin Badiu, Thomas Lundgaard Hansen, Bernard Henri Fleury
arXiv ID
1604.03744
Category
cs.IT: Information Theory
Cross-listed
stat.ML
Citations
117
Venue
IEEE Transactions on Signal Processing
Last Checked
4 months ago
Abstract
In this paper, we address the fundamental problem of line spectral estimation in a Bayesian framework. We target model order and parameter estimation via variational inference in a probabilistic model in which the frequencies are continuous-valued, i.e., not restricted to a grid; and the coefficients are governed by a Bernoulli-Gaussian prior model turning model order selection into binary sequence detection. Unlike earlier works which retain only point estimates of the frequencies, we undertake a more complete Bayesian treatment by estimating the posterior probability density functions (pdfs) of the frequencies and computing expectations over them. Thus, we additionally capture and operate with the uncertainty of the frequency estimates. Aiming to maximize the model evidence, variational optimization provides analytic approximations of the posterior pdfs and also gives estimates of the additional parameters. We propose an accurate representation of the pdfs of the frequencies by mixtures of von Mises pdfs, which yields closed-form expectations. We define the algorithm VALSE in which the estimates of the pdfs and parameters are iteratively updated. VALSE is a gridless, convergent method, does not require parameter tuning, can easily include prior knowledge about the frequencies and provides approximate posterior pdfs based on which the uncertainty in line spectral estimation can be quantified. Simulation results show that accounting for the uncertainty of frequency estimates, rather than computing just point estimates, significantly improves the performance. The performance of VALSE is superior to that of state-of-the-art methods and closely approaches the CramΓ©r-Rao bound computed for the true model order.
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