Nonlinear active noise control system based on correlated EMD and Chebyshev filter

Bin Chen; Shuyue Yu; Yang Yu; Rongrong Guo

doi:10.1016/j.ymssp.2019.04.059

Nonlinear active noise control system based on correlated EMD and Chebyshev filter

Bin Chen, Shuyue Yu, Yang Yu, Rongrong Guo

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

34 Citations (Scopus)

Abstract

Investigations into active noise control (ANC)have been widely conducted with the aim of effective control of low-frequency noise. This paper proposes a novel nonlinear ANC system to control non-stationary noise produced by rotating machinery under nonlinear primary path. A real-time correlated empirical mode decomposition (CEMD)is first presented to decompose non-stationary noise into intrinsic mode functions (IMFs), some of which are chosen by the correlation analysis between IMFs and primary noise. Subsequently, the second-order Chebyshev nonlinear filter is applied to expand selected IMFs that are controlled individually by the filtered-x LMS. The convergence of proposed nonlinear ANC system is also investigated. Simulation results demonstrate that proposed method outperforms the filtered-x LMS, filtered-s LMS and Volterra filtered-x LMS algorithms with respect to noise reduction and convergence rate.

Original language	English
Pages (from-to)	74-86
Number of pages	13
Journal	Mechanical Systems and Signal Processing
Volume	130
DOIs	https://doi.org/10.1016/j.ymssp.2019.04.059
Publication status	Published - 2019

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10.1016/j.ymssp.2019.04.059

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title = "Nonlinear active noise control system based on correlated EMD and Chebyshev filter",

abstract = "Investigations into active noise control (ANC)have been widely conducted with the aim of effective control of low-frequency noise. This paper proposes a novel nonlinear ANC system to control non-stationary noise produced by rotating machinery under nonlinear primary path. A real-time correlated empirical mode decomposition (CEMD)is first presented to decompose non-stationary noise into intrinsic mode functions (IMFs), some of which are chosen by the correlation analysis between IMFs and primary noise. Subsequently, the second-order Chebyshev nonlinear filter is applied to expand selected IMFs that are controlled individually by the filtered-x LMS. The convergence of proposed nonlinear ANC system is also investigated. Simulation results demonstrate that proposed method outperforms the filtered-x LMS, filtered-s LMS and Volterra filtered-x LMS algorithms with respect to noise reduction and convergence rate.",

author = "Bin Chen and Shuyue Yu and Yang Yu and Rongrong Guo",

year = "2019",

doi = "10.1016/j.ymssp.2019.04.059",

language = "English",

volume = "130",

pages = "74--86",

journal = "Mechanical Systems and Signal Processing",

issn = "0888-3270",

publisher = "Academic Press",

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T1 - Nonlinear active noise control system based on correlated EMD and Chebyshev filter

AU - Chen, Bin

AU - Yu, Shuyue

AU - Yu, Yang

AU - Guo, Rongrong

PY - 2019

Y1 - 2019

N2 - Investigations into active noise control (ANC)have been widely conducted with the aim of effective control of low-frequency noise. This paper proposes a novel nonlinear ANC system to control non-stationary noise produced by rotating machinery under nonlinear primary path. A real-time correlated empirical mode decomposition (CEMD)is first presented to decompose non-stationary noise into intrinsic mode functions (IMFs), some of which are chosen by the correlation analysis between IMFs and primary noise. Subsequently, the second-order Chebyshev nonlinear filter is applied to expand selected IMFs that are controlled individually by the filtered-x LMS. The convergence of proposed nonlinear ANC system is also investigated. Simulation results demonstrate that proposed method outperforms the filtered-x LMS, filtered-s LMS and Volterra filtered-x LMS algorithms with respect to noise reduction and convergence rate.

AB - Investigations into active noise control (ANC)have been widely conducted with the aim of effective control of low-frequency noise. This paper proposes a novel nonlinear ANC system to control non-stationary noise produced by rotating machinery under nonlinear primary path. A real-time correlated empirical mode decomposition (CEMD)is first presented to decompose non-stationary noise into intrinsic mode functions (IMFs), some of which are chosen by the correlation analysis between IMFs and primary noise. Subsequently, the second-order Chebyshev nonlinear filter is applied to expand selected IMFs that are controlled individually by the filtered-x LMS. The convergence of proposed nonlinear ANC system is also investigated. Simulation results demonstrate that proposed method outperforms the filtered-x LMS, filtered-s LMS and Volterra filtered-x LMS algorithms with respect to noise reduction and convergence rate.

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U2 - 10.1016/j.ymssp.2019.04.059

DO - 10.1016/j.ymssp.2019.04.059

M3 - Article

SN - 0888-3270

VL - 130

SP - 74

EP - 86

JO - Mechanical Systems and Signal Processing

JF - Mechanical Systems and Signal Processing

ER -

Nonlinear active noise control system based on correlated EMD and Chebyshev filter

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