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Mario Andrés Aguilar-Ordu?a1,Brian Camilo Gómez-León2,Hebertt Sira-Ramírez1,Rubén Alej,ro Garrido-Moctezuma2.[en_title][J].Control Theory and Technology,2025,23(3):378~396.[Copy]
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Sensing-noise reduction in active disturbance rejection controllers: a permanent magnet synchronous generator-based wind turbine example
MarioAndrésAguilar-Orduña1,BrianCamiloGómez-León2,HeberttSira-Ramírez1,RubénAlejandroGarrido-Moctezuma2
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(1 Electrical Engineering Department, CINVESTAV, Av. Instituto Politécnico Nacional 2508, 07360 Mexico City, CDMX, Mexico.;2 Automatic Control Department, CINVESTAV, Av. Instituto Politécnico Nacional 2508, 07360 Mexico City, CDMX, Mexico)
摘要:
Active disturbance rejection control (ADRC) exhibits notable resilience against both internal and external disturbances. Its straightforward implementation further enhances its appeal for controlling a diverse class of systems. However, the high-gain nature of the extended state observer, which is the core of ADRC, may degrade performance when faced with high-frequency sensing noise—a common challenge in real-world settings. This article addresses this issue through a specifically placed and particularly designed low-pass filter while preserving the ease of implementation characteristic of ADRC. This article proposes a simple tuning method for the filter-controller structure to improve the scheme’s design process. Theoretical results simplify the design process based on the Routh–Hurwitz criterion such that the additional low-pass filter does not affect the closedloop stability. The maximum power point tracking task on a wind turbine—a nonlinear system requiring the measurement of inherently noisy signals, such as electrical currents—is addressed to illustrate the design process of the proposed approach. Real-time experiments on a laboratory platform emulating a Permanent Magnet Synchronous Generator-based wind turbine endorse the enhanced scheme’s effectiveness in mitigating high-frequency sensing noise.
关键词:  ADRC · Noise reduction · Wind turbine · PMSG · MPPT
DOI:https://doi.org/10.1007/s11768-025-00267-5
基金项目:M. A. Aguilar-Ordu?a and B. C. Gómez-León’s doctoral studies were supported by the CONAHCYT with scholarship Grants 702805 and 1039577, respectively
Sensing-noise reduction in active disturbance rejection controllers: a permanent magnet synchronous generator-based wind turbine example
Mario Andrés Aguilar-Orduña1,Brian Camilo Gómez-León2,Hebertt Sira-Ramírez1,Rubén Alejandro Garrido-Moctezuma2
(1 Electrical Engineering Department, CINVESTAV, Av. Instituto Politécnico Nacional 2508, 07360 Mexico City, CDMX, Mexico.;2 Automatic Control Department, CINVESTAV, Av. Instituto Politécnico Nacional 2508, 07360 Mexico City, CDMX, Mexico)
Abstract:
Active disturbance rejection control (ADRC) exhibits notable resilience against both internal and external disturbances. Its straightforward implementation further enhances its appeal for controlling a diverse class of systems. However, the high-gain nature of the extended state observer, which is the core of ADRC, may degrade performance when faced with high-frequency sensing noise—a common challenge in real-world settings. This article addresses this issue through a specifically placed and particularly designed low-pass filter while preserving the ease of implementation characteristic of ADRC. This article proposes a simple tuning method for the filter-controller structure to improve the scheme’s design process. Theoretical results simplify the design process based on the Routh–Hurwitz criterion such that the additional low-pass filter does not affect the closedloop stability. The maximum power point tracking task on a wind turbine—a nonlinear system requiring the measurement of inherently noisy signals, such as electrical currents—is addressed to illustrate the design process of the proposed approach. Real-time experiments on a laboratory platform emulating a Permanent Magnet Synchronous Generator-based wind turbine endorse the enhanced scheme’s effectiveness in mitigating high-frequency sensing noise.
Key words:  ADRC · Noise reduction · Wind turbine · PMSG · MPPT

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