Adaptive Nonlinear Equalization Combining Sparse Bayesian Learning and Kalman Filtering for Visible Light Communications

Adaptive Nonlinear Equalization Combining Sparse Bayesian Learning and Kalman Filtering for Visible Light Communications

Nonlinear post equalization (NPE) based on Volterra series (VS) is considered as an effective way to mitigate the severe light emitting diode (LED) nonlinearity and multipath effect in a visible light communication (VLC) system. However, it is restricted by kernel complexity in practical application...

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Bibliographic Details
Published in:Journal of lightwave technology Vol. 38; no. 24; pp. 6732 - 6745
Main Authors: Miao, Pu, Chen, Gaojie, Wang, Xianbo, Yao, Yu, Chambers, Jonathon A.
Format: Journal Article
Language:English
Published: New York IEEE 15-12-2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Adaptive filters
Bayesian analysis
Communications systems
Dynamic stability
Equalization
Kalman filters
Kernel
Kernel extraction
Kernels
Light emitting diodes
Machine learning
Matching pursuit algorithms
nonlinear equalization
Nonlinear optics
Nonlinearity
Optical communication
Optical transmitters
Redundancy
Statistical analysis
Training
Visible light communication
volterra series
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Summary:Nonlinear post equalization (NPE) based on Volterra series (VS) is considered as an effective way to mitigate the severe light emitting diode (LED) nonlinearity and multipath effect in a visible light communication (VLC) system. However, it is restricted by kernel complexity in practical applications. In this paper, we formulate the kernel extraction of VS-based NPE to be a sparse recovery problem, and propose an efficient sparsity-aware approach, using combined sparse Bayesian learning (SBL) and Kalman filtering (KF) to extract the active VS kernels and thus to reduce the redundancy of NPE. First, from the view of probability, a Bayesian strategy is applied to select the dominant regressors from the original measurement matrices by exploiting the learning of hyperparameters, which encourages the sparseness of VS kernels with an imposed prior. Then, based on the specified regression matrix, the improved KF iteration is used in the estimation of the kernel coefficients to overcome the system instability in a dynamic noise environment. With this methodology, the active VS kernels can be effectively extracted and the corresponding kernel quantity is significantly reduced at least by 65%. Moreover, the system can still work effectively in the case of a lower size of training samples. The simulation results show that the proposed scheme is beneficial to both the nonlinearity compensation and multipath interference mitigation, and exhibits better overall performance than some existing methods, which demonstrates the potential and validity of kernel extraction in VS-based NPE.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2020.3017724