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Real-time active noise control of multi-tones and MRI acoustic noise in fMRI bore with signal decomposition and parallel hybrid RLS-NLMS adaptive algorithms

机译：利用信号分解和并行混合RLS-NLMS自适应算法实时实时控制fMRI孔中多音和MRI声噪声

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This paper presents a real-time implementation of a cost-effective adaptive feedback Active Noise Control (FANC) method for attenuating acoustic multi-tone noise and functional Magnetic Resonance Imaging (fMRI) acoustic noise in a fMRI bore test-bed. Periodic property of the signal is used to decompose it into dominant periodic components and residual random components using linear prediction (LP) filtering. After decomposition, a hybrid combination of Recursive Least Squares (RLS) and Normalized Least Mean Squares (NLMS) filters is used to effectively attenuate each of the periodic and random components of noise separately. Real time implementation of proposed FANC method on fMRI test bed is discussed and Noise attenuation levels (NAL) obtained are presented which support the effectiveness of the FANC method in practice.

机译：本文提出了一种具有成本效益的自适应反馈有源噪声控制（FANC）方法的实时实现，该方法用于衰减fMRI孔测试台中的声学多音噪声和功能性磁共振成像（fMRI）声学噪声。使用线性预测（LP）滤波，信号的周期性可用于将其分解为主要的周期性成分和残余随机成分。分解后，使用递归最小二乘（RLS）和归一化最小均方（NLMS）滤波器的混合组合分别有效地衰减噪声的每个周期性和随机分量。讨论了所提出的FANC方法在fMRI测试床上的实时实现，并给出了获得的噪声衰减水平（NAL），这支持了FANC方法在实践中的有效性。

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《IEEE Dallas Circuits and Systems Conference》|2014年|1-4|共4页
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Krishna Vemuri S.H.; Ganguly A.; Panahi I.;
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biomedical MRI; filtering theory; image denoising; least squares approximations; medical image processing; noise abatement; FANC method; MRI acoustic noise; NAL; active noise control; adaptive feedback active noise control; fMRI bore; functional magnetic resonance imaging; linear prediction filtering; multitone control; noise attenuation levels; normalized least mean squares; parallel hybrid RLS-NLMS adaptive algorithm; recursive least squares; signal decomposition; Acoustic noise; Adaptive filters; Convergence; Magnetic resonance imaging; Microphones; Noise; Real-time systems; Active Noise control; adaptive filtering; adaptive signal processing; linear prediction filtering; signal decomposition;

机译：生物医学MRI;滤波理论;图像去噪;最小二乘近似;医学图像处理;消噪; FANC方法; MRI声学噪声; NAL;主动噪声控制;自适应反馈主动噪声控制; fMRI孔径;功能磁共振成像;线性预测滤波多音控制噪声衰减水平归一化最小均方并行混合RLS-NLMS自适应算法递归最小二乘信号分解噪声自适应滤波器收敛磁共振成像麦克风实时系统有源噪声控制;自适应滤波;自适应信号处理;线性预测滤波;信号分解;

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专利

1. An Efficient Feedback Active Noise Control Algorithm Based on Reduced-Order Linear Predictive Modeling of fMRI Acoustic Noise [J] . Kannan G., Milani A. A., Panahi I. M. S., Biomedical Engineering, IEEE Transactions on . 2011,第12期

机译：基于fMRI噪声降阶线性预测建模的有效反馈主动噪声控制算法
2. Hybrid FxRLS-FxNLMS Adaptive Algorithm for Active Noise Control in fMRI Application [J] . Reddy R. M.Panahi I. M. S.Briggs R. Control Systems Technology, IEEE Transactions on . 2011,第2期

机译：混合FxRLS-FxNLMS自适应算法在fMRI中的主动噪声控制
3. A novel noise reduction technique for underwater acoustic signals based on complete ensemble empirical mode decomposition with adaptive noise, minimum mean square variance criterion and least mean square adaptive filter [J] . Yu-xing Li, Long Wang 兵工学报（英文版） . 2020,第003期
4. Real-time active noise control of multi-tones and MRI acoustic noise in fMRI bore with signal decomposition and parallel hybrid RLS-NLMS adaptive algorithms [C] . Krishna Vemuri S.H., Ganguly A., Panahi I. IEEE Dallas Circuits and Systems Conference . 2014

机译：用信号分解和并联Hybrid RLS-NLS-NLS-NLS-NLS-NLMS-NLMS-NLMS-NLS-NLMS-NLMS-NLS-NLS-NLS自适应算法实时主动噪声控制
5. Real-time active noise control of fMRI acoustic noise. [D] . Reddy, Rajiv Majjiga. 2008

机译：fMRI声学噪声的实时主动噪声控制。
6. A Novel Hybrid Approach for Partial Discharge Signal Detection Based on Complete Ensemble Empirical Mode Decomposition with Adaptive Noise and Approximate Entropy [O] . Haikun Shang, Yucai Li, Junyan Xu, 2020

机译：一种基于完整集合经验模式分解的局部放电信号检测的新型混合方法自适应噪声和近似熵
7. Sequentially Adapted Parallel Feedforward Active Noise Control of Noisy Sinusoidal Signals [O] . Govind Kannan, Issa M. S. Panahi, Richard W. Briggs 2009

机译：序列地适应了噪声正弦信号的并行前馈激励噪声控制

Real-time active noise control of multi-tones and MRI acoustic noise in fMRI bore with signal decomposition and parallel hybrid RLS-NLMS adaptive algorithms

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