Resonance parameter estimation from spectral data: Cramér–Rao lower bound and stable algorithms with application to liquid sensors

Thomas Voglhuber-Brunnmaier; Alexander Niedermayer; Roman Beigelbeck; Bernhard Jakoby

doi:10.1088/0957-0233/25/10/105303

Resonance parameter estimation from spectral data: Cramér–Rao lower bound and stable algorithms with application to liquid sensors

Thomas Voglhuber-Brunnmaier, Alexander Niedermayer, Roman Beigelbeck, Bernhard Jakoby

Institute of Microelectronics and Microsensors

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

Abstract

A recently introduced method for robust determination of the parameters of strongly damped resonances is evaluated in terms of achievable accuracy. The method extracts and analyzes the locus of the resonant subsystem of noisy recorded complex spectra, such that the interfering influences of many environmental factors are eliminated. Estimator performance is compared to the absolute lower limit determining the Cramér–Rao lower bound (CRLB) for the variance of the estimated parameters. A generic model that is suitable for representation of a large class of sensors is used and analyzed. It is shown that the proposed robust method converges to the CRLB for low measurement noise.

Original language	English
Article number	105303
Number of pages	11
Journal	Measurement Science and Technology
Volume	25
Issue number	10
DOIs	https://doi.org/10.1088/0957-0233/25/10/105303
Publication status	Published - 01 Oct 2014

Fields of science

202019 High frequency engineering
202021 Industrial electronics
202036 Sensor systems
203017 Micromechanics
202 Electrical Engineering, Electronics, Information Engineering
202027 Mechatronics
202028 Microelectronics
202037 Signal processing

JKU Focus areas

Mechatronics and Information Processing

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10.1088/0957-0233/25/10/105303

Cite this

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title = "Resonance parameter estimation from spectral data: Cram{\'e}r–Rao lower bound and stable algorithms with application to liquid sensors",

abstract = "A recently introduced method for robust determination of the parameters of strongly damped resonances is evaluated in terms of achievable accuracy. The method extracts and analyzes the locus of the resonant subsystem of noisy recorded complex spectra, such that the interfering influences of many environmental factors are eliminated. Estimator performance is compared to the absolute lower limit determining the Cram{\'e}r–Rao lower bound (CRLB) for the variance of the estimated parameters. A generic model that is suitable for representation of a large class of sensors is used and analyzed. It is shown that the proposed robust method converges to the CRLB for low measurement noise.",

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AU - Voglhuber-Brunnmaier, Thomas

AU - Niedermayer, Alexander

AU - Beigelbeck, Roman

AU - Jakoby, Bernhard

PY - 2014/10/1

Y1 - 2014/10/1

N2 - A recently introduced method for robust determination of the parameters of strongly damped resonances is evaluated in terms of achievable accuracy. The method extracts and analyzes the locus of the resonant subsystem of noisy recorded complex spectra, such that the interfering influences of many environmental factors are eliminated. Estimator performance is compared to the absolute lower limit determining the Cramér–Rao lower bound (CRLB) for the variance of the estimated parameters. A generic model that is suitable for representation of a large class of sensors is used and analyzed. It is shown that the proposed robust method converges to the CRLB for low measurement noise.

AB - A recently introduced method for robust determination of the parameters of strongly damped resonances is evaluated in terms of achievable accuracy. The method extracts and analyzes the locus of the resonant subsystem of noisy recorded complex spectra, such that the interfering influences of many environmental factors are eliminated. Estimator performance is compared to the absolute lower limit determining the Cramér–Rao lower bound (CRLB) for the variance of the estimated parameters. A generic model that is suitable for representation of a large class of sensors is used and analyzed. It is shown that the proposed robust method converges to the CRLB for low measurement noise.

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Resonance parameter estimation from spectral data: Cramér–Rao lower bound and stable algorithms with application to liquid sensors

Abstract

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