Design and Analysis of Linear Phase Finite Impulse Response Filter Using Henry Gas Solubility Optimization Algorithm

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Keywords: Henry Gas Solubility Optimization algorithm cut off frequency, clock frequency, error function, signals

Abstract

Researchers have recently observed a significant increase in the use of evolutionary optimization in the construction of digital FIR filters based on frequency domain specifications. A Linear Phase Finite Impulse Response (LP-FIR) filter utilizing Henry Gas Solubility Optimization approaches (HGSOA) is designed in this manuscript for designing high pass, low pass then band pass and band stop filters. Proposed work is compared through existing methods such as Design and Analysis of LP-FIR utilizing Water Strider Optimization Algorithm (DALP-FIR-WSOA) and Digital Pre-detection Equalizer (DPE) Using a FIR Filter Field Programmable Gate Array (FIR-GOA).It gives a result of objective competently by reduced ripples at high filter as well as higher attenuation at low pass and band pass filter by low executional time.

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Published
09.09.2025
Issue
ISSUE 3/2025
Section
Articles

How to Cite

Meena, T. ., Jampani Chandra Sekhar, Anandan, P. ., Vinoth Chakkaravarthy, G. ., Elumalai, M. . ., Anni Princy, B. ., & Vijaya Lakshmi, T. R. (2025). Design and Analysis of Linear Phase Finite Impulse Response Filter Using Henry Gas Solubility Optimization Algorithm. Journal of Automation, Mobile Robotics and Intelligent Systems, 19(3), 38-44. https://doi.org/10.14313/jamris-2025-023
How to Cite
Meena, T. ., Jampani Chandra Sekhar, Anandan, P. ., Vinoth Chakkaravarthy, G. ., Elumalai, M. . ., Anni Princy, B. ., & Vijaya Lakshmi, T. R. (2025). Design and Analysis of Linear Phase Finite Impulse Response Filter Using Henry Gas Solubility Optimization Algorithm. Journal of Automation, Mobile Robotics and Intelligent Systems, 19(3), 38-44. https://doi.org/10.14313/jamris-2025-023

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