Filtered-s LMS algorithm for multichannel active control of nonlinear noise processes

Das D.P.; Mohapatra S.R.; Routray A.; Basu T.K.

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Filtered-s LMS algorithm for multichannel active control of nonlinear noise processes

机译：用于非线性噪声过程的多通道主动控制的Filtered-s LMS算法

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This correspondence proposes a novel nonlinear adaptive algorithm named as filtered-s least mean square (FSLMS) algorithm for multichannel active control of nonlinear noise processes. A reduced complexity FSLMS algorithm using filter bank approach is also suggested. The performance of the proposed algorithm is validated through computer simulations for nonlinear noise processes. It is demonstrated that the proposed method outperforms the conventional filtered-x least mean square algorithm and second-order Volterra filtered-x LMS (VFXLMS) algorithm for control of nonlinear noise processes. Computational complexity analysis shows the proposed method involves lesser number of computations as compared to second-order VFXLMS algorithm.

机译：该对应关系为非线性噪声过程的多通道主动控制提出了一种新颖的非线性自适应算法，称为滤波最小均方（FSLMS）算法。还提出了使用滤波器组方法的复杂度降低的FSLMS算法。该算法的性能通过非线性噪声过程的计算机仿真得到了验证。结果表明，所提出的方法在控制非线性噪声过程方面优于传统的滤波x最小均方算法和二阶Volterra滤波x LMS（VFXLMS）算法。计算复杂度分析表明，与二阶VFXLMS算法相比，该方法涉及的计算量更少。

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《IEEE transactions on audio, speech and language processing》 |2006年第5期|p.1875-1880|共6页
作者
Das D.P.; Mohapatra S.R.; Routray A.; Basu T.K.;
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正文语种 eng
中图分类自动化技术、计算机技术;
关键词
active noise control; channel bank filters; computational complexity; filtering theory; least mean squares methods; nonlinear filters; computational complexity analysis; computer simulations; filter bank approach; filtered-s LMS algorithms; filtered-x least mean s;

机译：主动噪声控制;通道组滤波器;计算复杂度;滤波理论;最小均方方法;非线性滤波器;计算复杂度分析;计算机仿真;滤波器组方法;filtered-s LMS算法;filtered-x最小均值s;

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专利

1. Active mitigation of nonlinear noise Processes using a novel filtered-s LMS algorithm [J] . Das D.P., Panda G. IEEE Transactions on Speech and Audio Proceessing . 2004,第3期

机译：使用新型滤波SMS算法主动缓解非线性噪声过程
2. A robust filtered-s LMS algorithm for nonlinear active noise control [J] . Nithin V. George, Ganapati Panda Applied Acoustics . 2012,第8期

机译：非线性有源噪声控制的鲁棒滤波SMS算法
3. Fast implementations of the filtered-X LMS and LMS algorithms for multichannel active noise control [J] . Douglas S.C. IEEE Transactions on Speech and Audio Proceeding . 1999,第4期

机译：用于多通道有源噪声控制的Filtered-X LMS和LMS算法的快速实现
4. Nonlinear Active Noise Control using partial-update Filtered-s LMS algorithm [C] . Kurczyk Sebastian, Pawelczyk Marek International Conference on Methods and Models in Automation and Robotics . 2015

机译：使用局部更新的LMS算法进行非线性主动噪声控制
5. Active Control of Impulsive Noise using Reference Weighted FxLMS Algorithm [D] . Dhakad, Rushikesh Ajay. 2017

机译：使用参考加权FXLMS算法主动控制脉冲噪声
6. Understanding perception of active noise control system through multichannel EEG analysis [O] . Sangeeta Bagha, R.K. Tripathy, Pranati Nanda, 2018

机译：通过多通道脑电图分析了解有源噪声控制系统的感知
7. Fast Exact Filtered-X LMS and LMS Algorithms for Multichannel Active Noise Control [O] . S. C. Douglas 1997

机译：用于多通道有源噪声控制的快速精确滤波-X Lms和Lms算法

Filtered-s LMS algorithm for multichannel active control of nonlinear noise processes

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