EURASIP Journal on Advances in Signal Processing (Dec 2023)

A survey on filtered-x least mean square-based active noise control systems with emphasis on reducing computational complexity

  • Xiaolong Li,
  • Wan Chen,
  • Zhien Liu,
  • Chihua Lu,
  • Menglei Sun

DOI
https://doi.org/10.1186/s13634-023-01088-x
Journal volume & issue
Vol. 2023, no. 1
pp. 1 – 30

Abstract

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Abstract Active noise control (ANC) is gaining ever-increasing attention owing to its powerful ability to attenuate low-frequency noise. The computational complexity of an ANC system may directly affect its computational efficiency, control performance, and hardware costs. Therefore, the focus of this paper is mainly on discussing the development of ANC systems with emphasis on reducing computational complexity. The ANC systems are classified into two groups of narrowband and broadband systems. The computational complexity analysis is provided to show the computational merit of each system with respect to the conventional ANC systems. In addition, numerical simulations are performed to evaluate the convergence speed and noise reduction performance of the considered systems. The results show that, in the narrowband ANC systems, the LFE-NANC, CFX-NANC and BFX-NANC systems enjoy better overall performance in terms of the computational complexity, convergence speed and steady-state error, and in the broadband ANC systems, the DF-BANC system has the lowest computational complexity but cannot effectively attenuate the broadband noise with high spectral dynamics, whereas the DS-BANC and MDS-BANC systems can. This study provides in-depth insight into current typical low-complexity ANC systems.

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