Add to ORKGThis paper describes a method for estimating directions of arrival from sensor-array data. The estimates are obtained from minimizing a subspace-fitting cost function. This cost function is optimally weighted using statistical information provided by a subspace perturbation expansion. The calculations for scenarios involving very closely spaced sources suffers from the need to invert ill conditioned matrices. This problem is overcome by a reparameterization of both the cost function and its Jacobian based on the concept of a limiting subspace. The paper includes a challenging simulation example involving multiple moving sources
Thi s paper i s concerned with the problem of optimal (maxi-mum likelihood) direction of arrival ( D...
Weighted Subspace Fitting (WSF) is a method of estimating signal parameters from a subspace of a mat...
Weighted Subspace Fitting (WSF) is a method of estimating signal parameters from a subspace of a mat...
This paper describes a method for estimating directions of arrival from sensor-array data. The estim...
This paper describes a method for estimating directions of arrival from sensor-array data. The estim...
This paper considers the problem of estimating directions of arrival (DOAs) from sensor-array data w...
This paper considers the problem of estimating directions of arrival (DOAs) from sensor-array data w...
This paper considers the problem of estimating directions of arrival (DOAs) from sensor-array data w...
In the last decade, the subspace approach has found prominence in the problem of estimating directio...
Direction-of-arrival estimation using state-space models in sensor array processing with a uniform l...
Direction-of-arrival estimation using state-space models in sensor array processing with a uniform l...
This paper presents a new approach to deriving statistically optimal weights for weighted subspace f...
This paper presents a new approach to deriving statistically optimal weights for weighted subspace f...
ABSTRACT We propose a novel subspace-based direction-of-arrival (DOA) estimation method and an assoc...
Summarization: Conventional subspace-based signal direction-of-arrival estimation methods rely on th...
Thi s paper i s concerned with the problem of optimal (maxi-mum likelihood) direction of arrival ( D...
Weighted Subspace Fitting (WSF) is a method of estimating signal parameters from a subspace of a mat...
Weighted Subspace Fitting (WSF) is a method of estimating signal parameters from a subspace of a mat...
This paper describes a method for estimating directions of arrival from sensor-array data. The estim...
This paper describes a method for estimating directions of arrival from sensor-array data. The estim...
This paper considers the problem of estimating directions of arrival (DOAs) from sensor-array data w...
This paper considers the problem of estimating directions of arrival (DOAs) from sensor-array data w...
This paper considers the problem of estimating directions of arrival (DOAs) from sensor-array data w...
In the last decade, the subspace approach has found prominence in the problem of estimating directio...
Direction-of-arrival estimation using state-space models in sensor array processing with a uniform l...
Direction-of-arrival estimation using state-space models in sensor array processing with a uniform l...
This paper presents a new approach to deriving statistically optimal weights for weighted subspace f...
This paper presents a new approach to deriving statistically optimal weights for weighted subspace f...
ABSTRACT We propose a novel subspace-based direction-of-arrival (DOA) estimation method and an assoc...
Summarization: Conventional subspace-based signal direction-of-arrival estimation methods rely on th...
Thi s paper i s concerned with the problem of optimal (maxi-mum likelihood) direction of arrival ( D...
Weighted Subspace Fitting (WSF) is a method of estimating signal parameters from a subspace of a mat...
Weighted Subspace Fitting (WSF) is a method of estimating signal parameters from a subspace of a mat...