A new interpretation on the MMSE as a robust MEE criterion

Badong Chen; Yu Zhu; Jinchun Hu; Ming Zhang

doi:10.1016/j.sigpro.2010.05.028

A new interpretation on the MMSE as a robust MEE criterion

Badong Chen
, Yu Zhu
, Jinchun Hu
, Ming Zhang

Tsinghua University

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

10 Scopus citations

Abstract

The minimum mean-square error (MMSE) and minimum error entropy (MEE) are two important criteria in the estimation related problems. The MMSE can be viewed as a robust MEE criterion in the minimax sense, as its minimization is equivalent to minimizing an upper bound (the maximum value) of the error entropy. This note gives a new and more meaningful interpretation on the robustness of MMSE for problems in which there exists uncertainty in the probability model. It is shown that the MMSE estimator imposes an upper bound on error entropy for the true model. The upper bound consists of two terms. The first term quantifies the "MMSE performance" under nominal conditions, and the second term measures the "distance" between the true and nominal models. This robustness property is parallel to that of the risk-sensitive estimation. Illustration examples are included to confirm the robustness of MMSE.

Original language	English
Pages (from-to)	3313-3316
Number of pages	4
Journal	Signal Processing
Volume	90
Issue number	12
DOIs	https://doi.org/10.1016/j.sigpro.2010.05.028
State	Published - Dec 2010
Externally published	Yes

Keywords

Estimation
Minimum error entropy (MEE)
Minimum mean-square error (MMSE)
Robustness

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10.1016/j.sigpro.2010.05.028

Cite this

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abstract = "The minimum mean-square error (MMSE) and minimum error entropy (MEE) are two important criteria in the estimation related problems. The MMSE can be viewed as a robust MEE criterion in the minimax sense, as its minimization is equivalent to minimizing an upper bound (the maximum value) of the error entropy. This note gives a new and more meaningful interpretation on the robustness of MMSE for problems in which there exists uncertainty in the probability model. It is shown that the MMSE estimator imposes an upper bound on error entropy for the true model. The upper bound consists of two terms. The first term quantifies the {"}MMSE performance{"} under nominal conditions, and the second term measures the {"}distance{"} between the true and nominal models. This robustness property is parallel to that of the risk-sensitive estimation. Illustration examples are included to confirm the robustness of MMSE.",

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AU - Zhu, Yu

AU - Hu, Jinchun

AU - Zhang, Ming

PY - 2010/12

Y1 - 2010/12

N2 - The minimum mean-square error (MMSE) and minimum error entropy (MEE) are two important criteria in the estimation related problems. The MMSE can be viewed as a robust MEE criterion in the minimax sense, as its minimization is equivalent to minimizing an upper bound (the maximum value) of the error entropy. This note gives a new and more meaningful interpretation on the robustness of MMSE for problems in which there exists uncertainty in the probability model. It is shown that the MMSE estimator imposes an upper bound on error entropy for the true model. The upper bound consists of two terms. The first term quantifies the "MMSE performance" under nominal conditions, and the second term measures the "distance" between the true and nominal models. This robustness property is parallel to that of the risk-sensitive estimation. Illustration examples are included to confirm the robustness of MMSE.

AB - The minimum mean-square error (MMSE) and minimum error entropy (MEE) are two important criteria in the estimation related problems. The MMSE can be viewed as a robust MEE criterion in the minimax sense, as its minimization is equivalent to minimizing an upper bound (the maximum value) of the error entropy. This note gives a new and more meaningful interpretation on the robustness of MMSE for problems in which there exists uncertainty in the probability model. It is shown that the MMSE estimator imposes an upper bound on error entropy for the true model. The upper bound consists of two terms. The first term quantifies the "MMSE performance" under nominal conditions, and the second term measures the "distance" between the true and nominal models. This robustness property is parallel to that of the risk-sensitive estimation. Illustration examples are included to confirm the robustness of MMSE.

KW - Estimation

KW - Minimum error entropy (MEE)

KW - Minimum mean-square error (MMSE)

KW - Robustness

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DO - 10.1016/j.sigpro.2010.05.028

M3 - 文章

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VL - 90

SP - 3313

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JO - Signal Processing

JF - Signal Processing

IS - 12

ER -

A new interpretation on the MMSE as a robust MEE criterion

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Keywords

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