Adaptive filter theory (3rd ed.)
Adaptive filter theory (3rd ed.)
An improved variable tap-length LMS algorithm
Signal Processing
Adaptive filter length selection for acoustic echo cancellation
Signal Processing
A robust variable step-size LMS-type algorithm: analysis andsimulations
IEEE Transactions on Signal Processing
Performance analysis of the deficient length LMS adaptive algorithm
IEEE Transactions on Signal Processing - Part I
Steady-State Performance Analysis of a Variable Tap-Length LMS Algorithm
IEEE Transactions on Signal Processing
An LMS style variable tap-length algorithm for structure adaptation
IEEE Transactions on Signal Processing
International Journal of Computational Vision and Robotics
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Most current adaptive filters fix the filter order at some compromise value resulting in too short and too long filters with issues like undermodelling and adaptation noise in time varying scenarios. The tap length learning algorithm dynamically adapt the filter order to the optimum value makes the variable order adaptive filter more efficient including smaller computational complexity, higher output SNR and lower power consumption. The optimum order best balance the complexity and steady state performance of the adaptive filter. Choice of parameter, noise level and convergence issues affect the performance up to a great extent in the existing dynamic order estimation algorithm. In this paper a variable step LMS (VLMS) based pseudo-fractional optimum order estimation algorithm has been proposed that improves the overall performance of the adaptive filter searching the optimum order dynamically with fast convergence. Simulations and results are provided to observe the analysis of the proposed algorithm.