A new perturbation analysis for signal enumeration in rotational invariance techniques

Roland Badeau; Bertrand David; Gaël Richard

doi:10.1109/TSP.2005.861899

A new perturbation analysis for signal enumeration in rotational invariance techniques

Roland Badeau
, Bertrand David
, Gaël Richard

Telecom Paris

Research output: Contribution to journal › Article › peer-review

Abstract

The ESPRIT algorithm is a subspace-based high-resolution method used in source localization and spectral analysis, which provides very accurate estimates of the signal parameters. However, the underlying theory assumes a known model order, which is usually not the case in many applications. In particular, it is well known that underevaluating the model order biases the estimation. In this paper, we analyze the perturbation induced by an erroneous model order, and we present an error bound for the estimated parameters. Based on this theoretical framework, we propose a new method for selecting an appropriate modeling order, which consists in minimizing the error bound. This approach is applied to both synthetic and musical signals, and its performance is compared to that of existing methods, such as the information theoretic criteria.

Original language	English
Pages (from-to)	450-458
Number of pages	9
Journal	IEEE Transactions on Signal Processing
Volume	54
Issue number	2
DOIs	https://doi.org/10.1109/TSP.2005.861899
Publication status	Published - 1 Feb 2006

Keywords

ESPRIT
Model order selection
Perturbation theory
Signal enumeration
Subspace-based signal analysis

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10.1109/TSP.2005.861899

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title = "A new perturbation analysis for signal enumeration in rotational invariance techniques",

abstract = "The ESPRIT algorithm is a subspace-based high-resolution method used in source localization and spectral analysis, which provides very accurate estimates of the signal parameters. However, the underlying theory assumes a known model order, which is usually not the case in many applications. In particular, it is well known that underevaluating the model order biases the estimation. In this paper, we analyze the perturbation induced by an erroneous model order, and we present an error bound for the estimated parameters. Based on this theoretical framework, we propose a new method for selecting an appropriate modeling order, which consists in minimizing the error bound. This approach is applied to both synthetic and musical signals, and its performance is compared to that of existing methods, such as the information theoretic criteria.",

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AU - Richard, Gaël

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N2 - The ESPRIT algorithm is a subspace-based high-resolution method used in source localization and spectral analysis, which provides very accurate estimates of the signal parameters. However, the underlying theory assumes a known model order, which is usually not the case in many applications. In particular, it is well known that underevaluating the model order biases the estimation. In this paper, we analyze the perturbation induced by an erroneous model order, and we present an error bound for the estimated parameters. Based on this theoretical framework, we propose a new method for selecting an appropriate modeling order, which consists in minimizing the error bound. This approach is applied to both synthetic and musical signals, and its performance is compared to that of existing methods, such as the information theoretic criteria.

AB - The ESPRIT algorithm is a subspace-based high-resolution method used in source localization and spectral analysis, which provides very accurate estimates of the signal parameters. However, the underlying theory assumes a known model order, which is usually not the case in many applications. In particular, it is well known that underevaluating the model order biases the estimation. In this paper, we analyze the perturbation induced by an erroneous model order, and we present an error bound for the estimated parameters. Based on this theoretical framework, we propose a new method for selecting an appropriate modeling order, which consists in minimizing the error bound. This approach is applied to both synthetic and musical signals, and its performance is compared to that of existing methods, such as the information theoretic criteria.

KW - ESPRIT

KW - Model order selection

KW - Perturbation theory

KW - Signal enumeration

KW - Subspace-based signal analysis

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DO - 10.1109/TSP.2005.861899

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SP - 450

EP - 458

JO - IEEE Transactions on Signal Processing

JF - IEEE Transactions on Signal Processing

IS - 2

ER -

A new perturbation analysis for signal enumeration in rotational invariance techniques

Abstract

Keywords

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