In this paper, we consider the problem of joint direction-of-arrival (DOA) and fundamental frequency estimation. Joint estimation enables robust estimation of these parameters in multi-source scenarios where separate estimators may fail. First, we derive the exact and asymptotic Cram\'{e}r-Rao bounds for the joint estimation problem. Then, we propose a nonlinear least squares (NLS) and an approximate NLS (aNLS) estimator for joint DOA and fundamental frequency estimation. The proposed estimators are maximum likelihood estimators when: 1) the noise is white Gaussian, 2) the environment is anechoic, and 3) the source of interest is in the far-field. Otherwise, the methods still approximately yield maximum likelihood estimates. Simulations on ...
1. Nonlinear Least Squares Methods for Joint DOA and Pitch Estimation 2. A New Variable Regularized...
International audienceThe estimation of directions of arrival is formulated as the decomposition of ...
In array signal processing, distances between receivers, e.g., microphones, cause time delays depend...
Traditionally, direction-of-arrival (DOA) and pitch estimation of multichannel, periodic sources hav...
The harmonic model, i.e., a sum of sinusoids having frequencies that are integer multiples of the pi...
For decades, it has been investigated how to separately solve the problems of both direction-of-arri...
In this paper, spatio-temporal filtering methods are proposed for estimating the direction-of-arriva...
In this paper, the problem of joint multi-pitch and direction-of-arrival (DOA) estimation for multi-...
Many natural signals, such as voiced speech and some musical instruments, are approximately periodic...
In many scenarios, a periodic signal of interest is often contaminated by different types of noise t...
In this paper, we use unconstrained frequency estimates (UFEs) from a noisy harmonic signal and prop...
In this paper, we propose a novel method to estimate the fundamental frequencies and directions-of-a...
The Cramr-Rao bound (CRB) for direction of arrival (DOA) estimation exploiting both auto-correlation...
In many speech communication applications, robust localization and tracking of multiple speakers in ...
We address the problem of estimating the directions-of-arrival (DoAs) of multiple signals received i...
1. Nonlinear Least Squares Methods for Joint DOA and Pitch Estimation 2. A New Variable Regularized...
International audienceThe estimation of directions of arrival is formulated as the decomposition of ...
In array signal processing, distances between receivers, e.g., microphones, cause time delays depend...
Traditionally, direction-of-arrival (DOA) and pitch estimation of multichannel, periodic sources hav...
The harmonic model, i.e., a sum of sinusoids having frequencies that are integer multiples of the pi...
For decades, it has been investigated how to separately solve the problems of both direction-of-arri...
In this paper, spatio-temporal filtering methods are proposed for estimating the direction-of-arriva...
In this paper, the problem of joint multi-pitch and direction-of-arrival (DOA) estimation for multi-...
Many natural signals, such as voiced speech and some musical instruments, are approximately periodic...
In many scenarios, a periodic signal of interest is often contaminated by different types of noise t...
In this paper, we use unconstrained frequency estimates (UFEs) from a noisy harmonic signal and prop...
In this paper, we propose a novel method to estimate the fundamental frequencies and directions-of-a...
The Cramr-Rao bound (CRB) for direction of arrival (DOA) estimation exploiting both auto-correlation...
In many speech communication applications, robust localization and tracking of multiple speakers in ...
We address the problem of estimating the directions-of-arrival (DoAs) of multiple signals received i...
1. Nonlinear Least Squares Methods for Joint DOA and Pitch Estimation 2. A New Variable Regularized...
International audienceThe estimation of directions of arrival is formulated as the decomposition of ...
In array signal processing, distances between receivers, e.g., microphones, cause time delays depend...