Data-based System Representations from Irregularly Measured Data

Mohammad Salahaldeen Ahmad Alsalti; Ivan Markovsky; Victor Gabriel Lopez Mejia; Matthias A. Müller

doi:10.48550/arXiv.2307.11589

Data-based System Representations from Irregularly Measured Data

Mohammad Salahaldeen Ahmad Alsalti, Ivan Markovsky, Victor Gabriel Lopez Mejia, Matthias A. Müller

Institute of Automatic Control

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

Abstract

Non-parametric representations of dynamical systems based on the image of a Hankel matrix of data are extensively used for data-driven control. However, if samples of data are missing, obtaining such representations becomes a difficult task. By exploiting the kernel structure of Hankel matrices of irregularly measured data generated by a linear time-invariant system, we provide computational methods for which any complete finite-length behavior of the system can be obtained. For the special case of periodically missing outputs, we provide conditions on the input such that the former result is guaranteed. In the presence of noise in the data, our method returns an approximate finite-length behavior of the system. We illustrate our result with several examples, including its use for approximate data completion in real-world applications and compare it to alternative methods.

Original language	English
Pages (from-to)	143 - 158
Number of pages	16
Journal	IEEE Transactions on Automatic Control
Volume	70
Issue number	1
DOIs	https://doi.org/10.48550/arXiv.2307.11589 https://doi.org/10.1109/TAC.2024.3423053
Publication status	Published - 4 Jul 2024

Keywords

Biomedical measurement
Dynamical systems
Kernel
Linear systems
Noise measurement
Time series analysis
Trajectory
Behavioral system theory
data-based representations
irregular measurements

ASJC Scopus subject areas

Electrical and Electronic Engineering
Control and Systems Engineering
Computer Science Applications

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title = "Data-based System Representations from Irregularly Measured Data",

abstract = "Non-parametric representations of dynamical systems based on the image of a Hankel matrix of data are extensively used for data-driven control. However, if samples of data are missing, obtaining such representations becomes a difficult task. By exploiting the kernel structure of Hankel matrices of irregularly measured data generated by a linear time-invariant system, we provide computational methods for which any complete finite-length behavior of the system can be obtained. For the special case of periodically missing outputs, we provide conditions on the input such that the former result is guaranteed. In the presence of noise in the data, our method returns an approximate finite-length behavior of the system. We illustrate our result with several examples, including its use for approximate data completion in real-world applications and compare it to alternative methods.",

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AU - Markovsky, Ivan

AU - Lopez Mejia, Victor Gabriel

AU - Müller, Matthias A.

N1 - Publisher Copyright: IEEE

PY - 2024/7/4

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N2 - Non-parametric representations of dynamical systems based on the image of a Hankel matrix of data are extensively used for data-driven control. However, if samples of data are missing, obtaining such representations becomes a difficult task. By exploiting the kernel structure of Hankel matrices of irregularly measured data generated by a linear time-invariant system, we provide computational methods for which any complete finite-length behavior of the system can be obtained. For the special case of periodically missing outputs, we provide conditions on the input such that the former result is guaranteed. In the presence of noise in the data, our method returns an approximate finite-length behavior of the system. We illustrate our result with several examples, including its use for approximate data completion in real-world applications and compare it to alternative methods.

AB - Non-parametric representations of dynamical systems based on the image of a Hankel matrix of data are extensively used for data-driven control. However, if samples of data are missing, obtaining such representations becomes a difficult task. By exploiting the kernel structure of Hankel matrices of irregularly measured data generated by a linear time-invariant system, we provide computational methods for which any complete finite-length behavior of the system can be obtained. For the special case of periodically missing outputs, we provide conditions on the input such that the former result is guaranteed. In the presence of noise in the data, our method returns an approximate finite-length behavior of the system. We illustrate our result with several examples, including its use for approximate data completion in real-world applications and compare it to alternative methods.

KW - Biomedical measurement

KW - Dynamical systems

KW - Kernel

KW - Linear systems

KW - Noise measurement

KW - Time series analysis

KW - Trajectory

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KW - irregular measurements

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Data-based System Representations from Irregularly Measured Data

Abstract

Keywords

ASJC Scopus subject areas

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