non-parametric impulsive noise mitigation in ofdm systems
Post on 22-Feb-2016
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~6dB
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Non-Parametric Impulsive Noise Mitigation in OFDM SystemsJing Lin, Marcel Nassar, and Brian L. Evans, The University of Texas at Austin
Project supported by National Instruments, and by SRC GRC under Task Id 1836.063.
Simulated Performance
Objective: Estimate and mitigate impulsive noise without any assumption of noise statistics and without any training overhead
OFDM
DFT sub-matrix
Impulsive noise AWGN
Non-Parametric Mitigation
Noise estimation by observing null tones • No data carried by null tones• Underdetermined linear regression• Impulsive noise is sparse• Sparse Bayesian learning (SBL) approach Prior:
Likelihood: Posterior:
o Solved by expectation maximization o and converge to a sparse vector due to the
sparsity promoting prior
Noise estimation by observing all tones• Improved accuracy• Assuming known channel• Iteratively updating noise and data estimates
Gaussian Mixture Model Middleton Class A Model
Communication performance (Symbol error rate (SER) ) in different impulsive noise scenarios
Impulsive Noise at Wireless Receivers
Antenna
Baseband processor
Computational Platform• Clocks, busses, processors• Co-located transceivers
Wireless CommunicationSources
Uncoordinated Transmissions
Non-CommunicationSources
Electromagnetic radiations
Sources of impulsive noise
Throughput performance (Wifi, channel 7) [J. Shi et al., 2006]
• OFDM transmits data over multiple independent subcarriers (tones)
• FFT spreads out impulsive noise across all subcarriers
Parametric Methods Non-Parametric MethodsAssumption on noise statistics Yes No
Training needed Yes NoSuffer from model mismatch Yes No
Computational Complexity: O(N2M) (using M null tones), O(N3) (using all N tones)
• MMSE w/ (w/o) CSI: a parametric minimum mean square error estimator w/ (w/o) channel state information• CS+LS: a compressive sensing and least squares based non-parametric approach
• Two non-parametric methods for impulsive noise mitigation in OFDM systems
• 5-10dB signal-to-noise ratio (SNR) gains in simulation • Algorithms being implemented in LabVIEW FPGA
Conclusion
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