Your search keyword '"Chen, Badong"' showing total 2 results

1. Adaptive filtering with quantized minimum error entropy criterion.

Author

Li, Zhuang, Xing, Lei, and Chen, Badong

Subjects

*ADAPTIVE filters, *ALGORITHMS, *ENTROPY (Information theory), *ELECTROENCEPHALOGRAPHY, *TAYLOR'S series, *QUANTIZATION (Physics), *BRAIN-computer interfaces, *COMPUTATIONAL complexity

Abstract

• A variant of the quantized minimum error entropy (QMEE) algorithm is proposed. • The mean square convergence performance analysis for QMEE algorithm is given. • The theoretical values of the steady-state EMSE for QMEE algorithm are validated by simulations. • QMEE algorithm is applied in electroencephalo (EEG) de-noising task. Adaptive filtering algorithms have been widely used in many areas, among which the minimum error entropy (MEE) algorithm is a superior choice, due to its excellent performance in the non-Gaussian noise situations. However, the computational complexity of the MEE algorithm is expensive, which leads to the computational bottlenecks, especially for large-scale datasets. In order to address the problem, we propose an adaptive filtering algorithm based on the quantized minimum error entropy (QMEE) criterion with an online quantization method, named QMEE algorithm. Moreover, we analyze the transient behavior characteristic and derive an approximate analytical expression for the steady-state excess mean square error (EMSE) based on the Taylor expansion. The extensive simulation results in linear modeling and electroencephalogram (EEG) denoising task demonstrate that the proposed method can outperform other robust adaptive filtering algorithms. [ABSTRACT FROM AUTHOR]

Published

2020

2. A novel sign adaptation scheme for convex combination of two adaptive filters.

Author

Lu, Lu, Zhao, Haiquan, He, Zhengyou, and Chen, Badong

Subjects

*ADAPTIVE filters, *COMPUTATIONAL complexity, *PERFORMANCE evaluation, *ROBUST control, *MEAN square algorithms

Abstract

To improve the performance and reduce the computational complexity, a novel sign adaptation scheme for convex combination of adaptive filters is proposed. By using a sign adaptation scheme, the proposed scheme slightly reduces the computational complexity of the basic combination of mixing parameter, and improves the robustness of mixing parameter. Moreover, to obtain fast convergence property during the period of convergence transition in different environments, the instantaneous transfer scheme is applied to the proposed algorithm. The instantaneous transfer scheme has lower computational complexity than that of the basic combination of least mean square (basic-CLMS) algorithms. Simulation results in the context of system identification under time-invariant and time-variant systems demonstrate that the proposed algorithm based on the instantaneous transfer scheme has lower computational complexity and faster convergence rate than that of the basic-CLMS algorithm during period of convergence transitions. [ABSTRACT FROM AUTHOR]

Published

2015