A novel feedback active noise control for broadband chaotic noise and random noise

被引:23
|
作者
Luo, Lei [1 ]
Sun, Jinwei [1 ]
Huang, Boyan [1 ]
机构
[1] Harbin Inst Technol, Sch Elect Engn & Automat, Harbin 150001, Peoples R China
来源
APPLIED ACOUSTICS | 2017年 / 116卷
基金
美国国家科学基金会;
关键词
Feedback ANC; Chaotic noise; Random noise; Wavelet packet; FXLMS; WAVELET TRANSFORM; LMS ALGORITHM; COMPRESSION;
D O I
10.1016/j.apacoust.2016.09.029
中图分类号
O42 [声学];
学科分类号
070206 ; 082403 ;
摘要
The feedback active noise control (ANC) can be seen as a predictor, the conventional method based on filtered-x least mean square (FXLMS) algorithm can only be useful for linear and tonal noise, but for non-linear and broadband noise, it is useless. The feedback ANC using functional link artificial neural networks (FLANN) based on filtered-s least mean square (FSLMS) algorithm can reduce some nonlinear noise such as chaotic noise, but the noise cancellation performance is not very well, at the same time, it is not useful to random noise. To solve the problem above, a new feedback ANC using wavelet packet FXLMS (WPFXLMS) algorithm is proposed in this paper. By decomposing the broadband noise into several band-limited parts which are predictable and each part is controlled independently, the proposed algorithm can not only suppress the chaotic noise, but also mitigate the random noise. Compared with FXLMS and FSLMS algorithms, proposed WPFXLMS algorithm also holds the best performance on noise cancellation. Numerous simulations are conducted to demonstrate the effectiveness of the proposed WPFXLMS algorithm. (C) 2016 Elsevier Ltd. All rights reserved.
引用
收藏
页码:229 / 237
页数:9
相关论文
共 50 条
  • [31] QUANTUM NOISE AND ACTIVE FEEDBACK
    BIALEK, W
    PHYSICAL REVIEW D, 1983, 28 (08): : 2096 - 2098
  • [32] Adaptive Feedback Active Noise Control for Yacht Environments
    Peretti, Paolo
    Cecchi, Stefania
    Romoli, Laura
    Piazza, Francesco
    IEEE TRANSACTIONS ON CONTROL SYSTEMS TECHNOLOGY, 2014, 22 (02) : 737 - 744
  • [33] A simplified adaptive feedback active noise control system
    Wu, Lifu
    Qiu, Xiaojun
    Guo, Yecai
    APPLIED ACOUSTICS, 2014, 81 : 40 - 46
  • [34] Robust narrowband feedback active noise control system
    Ma Y.
    Hu J.
    Wu D.
    Bi Q.
    Lu J.
    Yi Qi Yi Biao Xue Bao/Chinese Journal of Scientific Instrument, 2024, 45 (01): : 269 - 277
  • [35] Active feedback noise control of a magnetic bearing pump
    Piper, GE
    NOISE CONTROL ENGINEERING JOURNAL, 1997, 45 (02) : 78 - 84
  • [36] Applications of adaptive feedback active noise control system
    Kuo, SM
    Kong, X
    Gan, WS
    IEEE TRANSACTIONS ON CONTROL SYSTEMS TECHNOLOGY, 2003, 11 (02) : 216 - 220
  • [37] A Novel Active Common-Noise Canceler Combining Feedforward and Feedback Control
    Ohara, Shunsuke
    Ogasawara, Satoshi
    Masatsugu, Takemoto
    Orikawa, Koji
    Yamamoto, Yushin
    2017 IEEE ENERGY CONVERSION CONGRESS AND EXPOSITION (ECCE), 2017, : 2469 - 2475
  • [38] Active noise feedback control using a neural network
    Zhang, QZ
    Jia, YG
    SHOCK AND VIBRATION, 2001, 8 (01) : 15 - 19
  • [39] Active noise control using robust feedback techniques
    O'Brien, M
    Pratt, P
    2001 IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS, SPEECH, AND SIGNAL PROCESSING, VOLS I-VI, PROCEEDINGS: VOL I: SPEECH PROCESSING 1; VOL II: SPEECH PROCESSING 2 IND TECHNOL TRACK DESIGN & IMPLEMENTATION OF SIGNAL PROCESSING SYSTEMS NEURALNETWORKS FOR SIGNAL PROCESSING; VOL III: IMAGE & MULTIDIMENSIONAL SIGNAL PROCESSING MULTIMEDIA SIGNAL PROCESSING - VOL IV: SIGNAL PROCESSING FOR COMMUNICATIONS; VOL V: SIGNAL PROCESSING EDUCATION SENSOR ARRAY & MULTICHANNEL SIGNAL PROCESSING AUDIO & ELECTROACOUSTICS; VOL VI: SIGNAL PROCESSING THEORY & METHODS STUDENT FORUM, 2001, : 3209 - 3212
  • [40] Hybrid feedforward-feedback active noise control
    Streeter, AD
    Ray, LR
    Collier, RD
    PROCEEDINGS OF THE 2004 AMERICAN CONTROL CONFERENCE, VOLS 1-6, 2004, : 2876 - 2881
12345