Variable step-size modified blind equalization algorithm based on fractional lower order statistics under impulsive noise

In order to improve the performance of blind equalization under impulsive noise environments, a novel variable step-size modified blind equalization algorithm based on fractional lower order statistics is proposed. In the proposed method, fractional lower order statistic (FLOS) is used as cost function to update the weight coefficient of equalization, which can suppress the impulsive noise effectively. Moreover, in order to solve the problem of phase rotation, the cost function is modified by the imaginary part of FLOS, which can supplement the phase information. Furthermore, a variable step-size function is defined to improve the convergence speed. The results of Monte Carlo simulations show that the algorithm converges faster and suppresses impulse noise effectively at the same time.

[1]  Ting Li,et al.  Capture Properties of the Generalized CMA in Alpha-Stable Noise Environment , 2004, Proceedings 7th International Conference on Signal Processing, 2004. Proceedings. ICSP '04. 2004..

[2]  Hui Wang,et al.  A new hybrid blind equalization algorithm with steady-state performance analysis , 2012, Digit. Signal Process..

[3]  Asoke K. Nandi,et al.  Performance analysis of a family of adaptive blind equalization algorithms for square-QAM , 2016, Digit. Signal Process..

[4]  Mauro Biagi,et al.  Second-Order Statistics Driven LMS Blind Fractionally Spaced Channel Equalization , 2017, IEEE Signal Processing Letters.

[5]  Magno T. M. Silva,et al.  A Soft-Switching Blind Equalization Scheme via Convex Combination of Adaptive Filters , 2013, IEEE Transactions on Signal Processing.

[6]  Rui Ruan,et al.  Normalized p-Norm Blind Equalization Algorithm with Adaptive Momentum under Impulsive Noise Environment , 2015 .

[7]  C. Richard Johnson,et al.  Dithered signed-error CMA: robust, computationally efficient blind adaptive equalization , 1999, IEEE Trans. Signal Process..

[8]  Bernard Mulgrew,et al.  Adaptive Bayesian decision feedback equaliser for alpha-stable noise environments , 2001, Signal Process..

[9]  Enrico Del Re,et al.  Constant modulus blind equalization based on fractional lower-order statistics , 2004, Signal Process..

[10]  Bin Lin,et al.  Excess MSE analysis of the concurrent constant modulus algorithm and soft decision-directed scheme for blind equalisation , 2008 .