Self correction fractional least mean square algorithm for application in digital beamforming

Shah, Syed Asghar Ali; Jan, Tariqullah; Shah, Syed Muslim; Raja, Muhammad Asif Zahoor; Zafar, Mohammad Haseeb; Haq, Sana Ul

Self correction fractional least mean square algorithm for application in digital beamforming

Syed Asghar Ali Shah, Tariqullah Jan, Syed Muslim Shah, Muhammad Asif Zahoor Raja, Mohammad Haseeb Zafar and Sana Ul Haq

PLOS ONE, 2024, vol. 19, issue 6, 1-17

Abstract: Fractional order algorithms demonstrate superior efficacy in signal processing while retaining the same level of implementation simplicity as traditional algorithms. The self-adjusting dual-stage fractional order least mean square algorithm, denoted as LFLMS, is developed to expedite convergence, improve precision, and incurring only a slight increase in computational complexity. The initial segment employs the least mean square (LMS), succeeded by the fractional LMS (FLMS) approach in the subsequent stage. The latter multiplies the LMS output, with a replica of the steering vector (Ŕ) of the intended signal. Mathematical convergence analysis and the mathematical derivation of the proposed approach are provided. Its weight adjustment integrates the conventional integer ordered gradient with a fractional-ordered. Its effectiveness is gauged through the minimization of mean square error (MSE), and thorough comparisons with alternative methods are conducted across various parameters in simulations. Simulation results underscore the superior performance of LFLMS. Notably, the convergence rate of LFLMS surpasses that of LMS by 59%, accompanied by a 49% improvement in MSE relative to LMS. So it is concluded that the LFLMS approach is a suitable choice for next generation wireless networks, including Internet of Things, 6G, radars and satellite communication.

Date: 2024
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Persistent link: https://EconPapers.repec.org/RePEc:plo:pone00:0304018

DOI: 10.1371/journal.pone.0304018

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