MMSE-based MDL method for robust estimation of number of sources without eigendecomposition

Lei Huang; Teng Long; Erke Mao; H. C. So

doi:10.1109/TSP.2009.2024043

MMSE-based MDL method for robust estimation of number of sources without eigendecomposition

Lei Huang^*, Teng Long, Erke Mao, H. C. So

^*此作品的通讯作者

信息与电子学院

科研成果: 期刊稿件 › 文章 › 同行评审

54 引用（Scopus）

摘要

It is well known that the conventional eigenvalue-based minimum description length (MDL) approach for source number estimation suffers from high computational load and performs optimally only in the presence of spatially and temporally white noise. To improve the robustness of the MDL methodology, we propose to utilize the minimum mean square error (MMSE) of the multistage Wiener filter to calculate the required description length for encoding the observed data, instead of relying on the eigenvalues of the data covariance matrix. As there is no need to calculate the covariance matrix and its eigenvalue decomposition, our derived MMSE-based MDL (mMDL) method is also more computationally efficient than the traditional counterparts. Numerical examples are included to demonstrate the robustness of the mMDL detector in nonuniform noise.

源语言	英语
页（从-至）	4135-4142
页数	8
期刊	IEEE Transactions on Signal Processing
卷	57
期	10
DOI	https://doi.org/10.1109/TSP.2009.2024043
出版状态	已出版 - 2009

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Huang, L., Long, T., Mao, E., & So, H. C. (2009). MMSE-based MDL method for robust estimation of number of sources without eigendecomposition. IEEE Transactions on Signal Processing, 57(10), 4135-4142. https://doi.org/10.1109/TSP.2009.2024043

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abstract = "It is well known that the conventional eigenvalue-based minimum description length (MDL) approach for source number estimation suffers from high computational load and performs optimally only in the presence of spatially and temporally white noise. To improve the robustness of the MDL methodology, we propose to utilize the minimum mean square error (MMSE) of the multistage Wiener filter to calculate the required description length for encoding the observed data, instead of relying on the eigenvalues of the data covariance matrix. As there is no need to calculate the covariance matrix and its eigenvalue decomposition, our derived MMSE-based MDL (mMDL) method is also more computationally efficient than the traditional counterparts. Numerical examples are included to demonstrate the robustness of the mMDL detector in nonuniform noise.",

keywords = "Eigenvalue decomposition (EVD), Minimum description length (MDL), Multistage Wiener filter (MSWF), Sensor array processing, Source number estimation",

author = "Lei Huang and Teng Long and Erke Mao and So, {H. C.}",

year = "2009",

doi = "10.1109/TSP.2009.2024043",

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N2 - It is well known that the conventional eigenvalue-based minimum description length (MDL) approach for source number estimation suffers from high computational load and performs optimally only in the presence of spatially and temporally white noise. To improve the robustness of the MDL methodology, we propose to utilize the minimum mean square error (MMSE) of the multistage Wiener filter to calculate the required description length for encoding the observed data, instead of relying on the eigenvalues of the data covariance matrix. As there is no need to calculate the covariance matrix and its eigenvalue decomposition, our derived MMSE-based MDL (mMDL) method is also more computationally efficient than the traditional counterparts. Numerical examples are included to demonstrate the robustness of the mMDL detector in nonuniform noise.

AB - It is well known that the conventional eigenvalue-based minimum description length (MDL) approach for source number estimation suffers from high computational load and performs optimally only in the presence of spatially and temporally white noise. To improve the robustness of the MDL methodology, we propose to utilize the minimum mean square error (MMSE) of the multistage Wiener filter to calculate the required description length for encoding the observed data, instead of relying on the eigenvalues of the data covariance matrix. As there is no need to calculate the covariance matrix and its eigenvalue decomposition, our derived MMSE-based MDL (mMDL) method is also more computationally efficient than the traditional counterparts. Numerical examples are included to demonstrate the robustness of the mMDL detector in nonuniform noise.

KW - Eigenvalue decomposition (EVD)

KW - Minimum description length (MDL)

KW - Multistage Wiener filter (MSWF)

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MMSE-based MDL method for robust estimation of number of sources without eigendecomposition

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