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A-weighted convex combination step-size based active impulsive noise control for construction vehicle noise reductionopen access

Authors
Lee, DonghyeonKim, NaraeLee, YongminJang, YeonjinHa, MinseokPark, Junhong
Issue Date
Mar-2026
Publisher
SAGE Publications
Keywords
active noise control; advanced control; impulsive noise control; construction vehicle; acoustic comfort
Citation
Journal of Low Frequency Noise, Vibration and Active Control, v.45, no.1, pp 452 - 465
Pages
14
Indexed
SCIE
SCOPUS
Journal Title
Journal of Low Frequency Noise, Vibration and Active Control
Volume
45
Number
1
Start Page
452
End Page
465
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211540
DOI
10.1177/14613484251380311
ISSN
1461-3484
2048-4046
Abstract
Construction vehicles generate significant cabin noise, which includes both consistent and impulsive noise from engines and components. The noise imposes hearing loss threats to the operators during long operation hours. Active reduction is required for efficient impulsive noise minimization. Traditional approaches such as the filtered-x least mean square (FxLMS) algorithm, often prove inadequate in effectively controlling these impulsive noises, due to non-Gaussian characteristics. Robust algorithms for active impulsive noise control (AINC) systems are required for applications to construction equipment. The convex combined step-size (CCSS) based variable step-size (VSS) along with integrating the normalized least mean square (NLMS) into a modified FxLMS (MFxLMS) with an adaptive step-size update algorithm is used for reduction of the vehicle interior noise. The A-weighted filtering enhanced the noise reduction efficiency by incorporating human auditory characteristics. This filtering also minimized unnecessary control loadings at low frequency noise components. The performance of the proposed algorithm was evaluated through experiments conducted using a portion of the actual excavator cabin. The results demonstrated robust and excellent noise reduction performance against unexpected impulsive sounds.
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