25.1.11.1 Active Noise Cancellation

Kuo, S.M., Morgan, D.R.,
Active noise control: a tutorial review,
PIEEE(87), No. 6, June 1999, pp. 943-973.
IEEE DOI 9906
Survey, Noise. BibRef

Narasimhan, S.V., Veena, S., Lokesha, H.,
Variable step-size Griffiths' algorithm for improved performance of feedforward/feedback active noise control,
SIViP(4), No. 3, September 2010, pp. 309-317.
WWW Link. 1011
audio noise. BibRef

Pavithra, S., Narasimhan, S.V.,
Feedback active noise control based on forward-backward LMS predictor,
SIViP(7), No. 6, November 2013, pp. 1083-1091.
Springer DOI 1310
Noise cancellation. BibRef

Pavithra, S., Narasimhan, S.V.,
Feedback active noise control based on transform-domain forward-backward LMS predictor,
SIViP(8), No. 3, March 2014, pp. 479-487.
WWW Link. 1403
BibRef

Narasimhan, S.V., Veena, S.,
New unbiased adaptive IIR filter: it's robust and variable step-size versions and application to active noise control,
SIViP(7), No. 1, January 2013, pp. 197-207.
WWW Link. 1301
BibRef

Xiao, Y., Wang, J.,
A New Feedforward Hybrid Active Noise Control System,
SPLetters(18), No. 10, October 2011, pp. 591-594.
IEEE DOI 1109
Noise control. BibRef

Bismor, D.,
Comments on 'A New Feedforward Hybrid ANC System',
SPLetters(21), No. 5, May 2014, pp. 635-637.
IEEE DOI 1404
Adaptive filters BibRef

Xiao, Y.,
Reply to 'Comments on 'A New Feedforward Hybrid Active Noise Control System'',
SPLetters(21), No. 5, May 2014, pp. 638-641.
IEEE DOI 1404
Broadband communication BibRef

Bismor, D.,
Comments on 'A New Feedforward Hybrid ANC System'-An addendum,
SPLetters(21), No. 5, May 2014, pp. 642-642.
IEEE DOI 1404
Broadband communication BibRef

Gholami-Boroujeny, S.[Shiva], Eshghi, M.[Mohammad],
Active noise control using an adaptive bacterial foraging optimization algorithm,
SIViP(8), No. 8, November 2014, pp. 1507-1516.
Springer DOI 1411
BibRef

Lopes, P.A.C., Gerald, J.A.B., Piedade, M.S.,
The Random Walk Model Kalman Filter in Multichannel Active Noise Control,
SPLetters(22), No. 12, December 2015, pp. 2244-2248.
IEEE DOI 1512
Kalman filters BibRef

Lopes, P.A.C., Gerald, J.A.B.,
Auxiliary Noise Power Scheduling Algorithm for Active Noise Control with Online Secondary Path Modeling and Sudden Changes,
SPLetters(22), No. 10, October 2015, pp. 1590-1594.
IEEE DOI 1506
acoustic signal processing BibRef

Lopes, P.A.C., Gerald, J.A.B.,
A Close to Optimal Adaptive Filter for Sudden System Changes,
SPLetters(24), No. 11, November 2017, pp. 1734-1738.
IEEE DOI 1710
Adaptation models, Approximation algorithms, Mathematical model, Noise measurement, Probability density function, Gaussian sum, Kalman filter (KF), impulsive noise, least mean squares (LMS), optimal filtering, sudden changes, variable, step, size BibRef

Shi, D., Lam, B., Gan, W., Wen, S.,
Optimal Leak Factor Selection for the Output-Constrained Leaky Filtered-Input Least Mean Square Algorithm,
SPLetters(26), No. 5, May 2019, pp. 670-674.
IEEE DOI 1905
active noise control, adaptive filters, filtering theory, least mean squares methods, optimal leak factor selection, Saturation BibRef

Kukde, R.[Ruchi], Manikandan, M.S.[M. Sabarimalai], Panda, G.[Ganapati],
Reduced complexity diffusion filtered x least mean square algorithm for distributed active noise cancellation,
SIViP(13), No. 3, April 2019, pp. 447-455.
Springer DOI 1904
BibRef

Shi, D., Gan, W.S., Lam, B., Ooi, K.,
Fast Adaptive Active Noise Control Based on Modified Model-Agnostic Meta-Learning Algorithm,
SPLetters(28), 2021, pp. 593-597.
IEEE DOI 2104
Convergence, Signal processing algorithms, Acceleration, Adaptive systems, Adaptation models, Noise measurement, model-agnostic meta-learning BibRef

Shi, D.Y.[Dong-Yuan], Gan, W.S.[Woon-Seng], Lam, B.[Bhan], Shen, X.Y.[Xiao-Yi],
Optimal Penalty Factor for the MOV-FxLMS Algorithm in Active Noise Control System,
SPLetters(29), 2022, pp. 85-89.
IEEE DOI 2202
Signal processing algorithms, Filtering algorithms, Adaptive filters, Power generation, Optimal control, filtered reference least mean squares (FxLMS) algorithm BibRef

Chen, D.C.[Dao-Cheng], Cheng, L.B.[Long-Biao], Yao, D.D.[Ding-Ding], Li, J.F.[Jun-Feng], Yan, Y.H.[Yong-Hong],
A Secondary Path-Decoupled Active Noise Control Algorithm Based on Deep Learning,
SPLetters(29), 2022, pp. 234-238.
IEEE DOI 2202
Adaptation models, Signal processing algorithms, Actuators, Training, Mathematical models, Deep learning, Time-domain analysis, adaptive filter BibRef

Shi, C.[Chuang], Du, F.Y.[Fei-Yu], Liu, C.Y.[Chun-Yu], Li, H.Y.[Hui-Yong],
Differential Error Feedback Active Noise Control With the Auxiliary Filter Based Mapping Method,
SPLetters(29), 2022, pp. 573-577.
IEEE DOI 2202
Microphones, Ducts, Interference, Noise reduction, Delays, Microphone arrays, Loudspeakers, Active noise control, internal model control BibRef

Zhang, R.H.[Rui-Hua], Xie, Z.B.[Zhi-Bo], Zhang, X.L.[Xiu-Li],
An improved active noise control system without secondary path model,
IASP10(454-459).
IEEE DOI 1004
BibRef

Chapter on New Unsorted Entries, and Other Miscellaneous Papers continues in
Coding, Compression, Acoustic Signals, Sounds, Audio .