n this paper, we consider the problem of multi-pitch estimation and tracking of an unknown number of harmonic audio sources. The regularized least-squares is a solution for simultaneous sparse source selection and parameter estimation. Exploiting block sparsity, the method allows for reliable tracking of the found sources, without posing detailed a priori assumptions of the number of harmonics for each source. The method incorporates a Bayesian prior and assigns data-dependent reg-ularization coefficients to efficiently incorporate both earlier and future data blocks in the tracking of estimates. In comparison with fix regularization coefficients, the simulation results, using both real and synthetic audio signals, confirm the performance o...
This paper addresses the joint estimation and detection of time-varying harmonic components in audio...
The localization of acoustic sources is a parameter estimation problem where the parameters of inter...
In this paper, we propose a novel method to estimate the fundamental frequencies and directions-of-a...
In this paper, we consider the problem of multi-pitch estimation and tracking of an unknown number o...
In this work, we introduce a computationally efficient multi-pitch estimation algorithm making use o...
We study the problem of estimating the fundamental frequencies of a signal containing multiple harmo...
We present a novel approach to pitch estimation and note detection in polyphonic audio signals. We p...
This thesis considers sparse modeling and estimation of multi-pitch signals, i.e., signals whose fre...
In this paper, we use unconstrained frequency estimates (UFEs) from a noisy harmonic signal and prop...
We study the problem of estimating the fundamental frequencies of a sig-nal containing multiple harm...
In this paper, we propose a novel method for estimating the locations of near- and/or far-field harm...
This work treats multi-pitch estimation, and in particular the common misclassification issue wherei...
Periodic signals can be decomposed into sets of sinusoids having frequencies that are integer multip...
This thesis proposes a novel method for multi-pitch estimation. The method operates by posing pitch ...
International audienceHarmonic sinusoidal models are an essential tool for music audio signal analys...
This paper addresses the joint estimation and detection of time-varying harmonic components in audio...
The localization of acoustic sources is a parameter estimation problem where the parameters of inter...
In this paper, we propose a novel method to estimate the fundamental frequencies and directions-of-a...
In this paper, we consider the problem of multi-pitch estimation and tracking of an unknown number o...
In this work, we introduce a computationally efficient multi-pitch estimation algorithm making use o...
We study the problem of estimating the fundamental frequencies of a signal containing multiple harmo...
We present a novel approach to pitch estimation and note detection in polyphonic audio signals. We p...
This thesis considers sparse modeling and estimation of multi-pitch signals, i.e., signals whose fre...
In this paper, we use unconstrained frequency estimates (UFEs) from a noisy harmonic signal and prop...
We study the problem of estimating the fundamental frequencies of a sig-nal containing multiple harm...
In this paper, we propose a novel method for estimating the locations of near- and/or far-field harm...
This work treats multi-pitch estimation, and in particular the common misclassification issue wherei...
Periodic signals can be decomposed into sets of sinusoids having frequencies that are integer multip...
This thesis proposes a novel method for multi-pitch estimation. The method operates by posing pitch ...
International audienceHarmonic sinusoidal models are an essential tool for music audio signal analys...
This paper addresses the joint estimation and detection of time-varying harmonic components in audio...
The localization of acoustic sources is a parameter estimation problem where the parameters of inter...
In this paper, we propose a novel method to estimate the fundamental frequencies and directions-of-a...