Title :
Recursive Total Least-Squares Algorithm Based on Inverse Power Method and Dichotomous Coordinate-Descent Iterations
Author :
Arablouei, Reza ; Dogancay, Kutluyil ; Werner, Stefan
Author_Institution :
Inst. for Telecommun. Res., Univ. of South Australia, Mawson Lakes, SA, Australia
Abstract :
We develop a recursive total least-squares (RTLS) algorithm for errors-in-variables system identification utilizing the inverse power method and the dichotomous coordinate-descent (DCD) iterations. The proposed algorithm, called DCD-RTLS, outperforms the previously proposed RTLS algorithms, which are based on the line-search method, with reduced computational complexity. We perform a comprehensive analysis of the DCD-RTLS algorithm and show that it is asymptotically unbiased as well as being stable in the mean. We also find a lower bound for the forgetting factor that ensures mean-square stability of the algorithm and calculate the theoretical steady-state mean-square deviation (MSD). We verify the effectiveness of the proposed algorithm and the accuracy of the predicted steady-state MSD via simulations.
Keywords :
adaptive filters; computational complexity; filtering theory; least squares approximations; search problems; DCD-RTLS; RTLS algorithm; adaptive filtering; dichotomous coordinate-descent iterations; errors-in-variables system identification; inverse power method; line-search method; mean-square stability; recursive total least-squares algorithm; reduced computational complexity; steady-state mean-square deviation; Algorithm design and analysis; Educational institutions; Linear systems; Noise; Signal processing algorithms; Steady-state; Vectors; Adaptive filtering; dichotomous coordinate-descent algorithm; inverse power method; performance analysis; total least-squares;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2015.2405492
