Flower Pollination Heuristics for Nonlinear Active Noise Control Systems

Abstract In this paper, a novel design of the flower pollination algorithm is presented for model identification problems in nonlinear active noise control systems. The recently introduced flower pollination based heuristics is implemented to minimize the mean squared error based merit/cost function...

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Veröffentlicht in:	Computers, materials & continua materials & continua, 2021, Vol.67 (1), p.815-834
Hauptverfasser:	Ullah Khan, Wasim, He, Yigang, Asif Zahoor Raja, Muhammad, Ishtiaq Chaudhary, Naveed, Aslam Khan, Zeshan, Muslim Shah, Syed
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Sprache:	eng
Schlagworte:	Accuracy Active noise control Comparative studies Complexity Control systems Cost function Fireworks Genetic algorithms Heuristic Heuristic methods Mathematical models Noise control Nonlinear control Optimization algorithms Particle swarm optimization Random signals Robust control
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container_title	Computers, materials & continua
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creator	Ullah Khan, Wasim He, Yigang Asif Zahoor Raja, Muhammad Ishtiaq Chaudhary, Naveed Aslam Khan, Zeshan Muslim Shah, Syed
description	Abstract In this paper, a novel design of the flower pollination algorithm is presented for model identification problems in nonlinear active noise control systems. The recently introduced flower pollination based heuristics is implemented to minimize the mean squared error based merit/cost function representing the scenarios of active noise control system with linear/nonlinear and primary/secondary paths based on the sinusoidal signal, random and complex random signals as noise interferences. The flower pollination heuristics based active noise controllers are formulated through exploitation of nonlinear filtering with Volterra series. The comparative study on statistical observations in terms of accuracy, convergence and complexity measures demonstrates that the proposed meta-heuristic of flower pollination algorithm is reliable, accurate, stable as well as robust for active noise control system. The accuracy of the proposed nature inspired computing of flower pollination is in good agreement with the state of the art counterpart solvers based on variants of genetic algorithms, particle swarm optimization, backtracking search optimization algorithm, fireworks optimization algorithm along with their memetic combination with local search methodologies. Moreover, the central tendency and variation based statistical indices further validate the consistency and reliability of the proposed scheme mimic the mathematical model for the process of flower pollination systems.
doi_str_mv	10.32604/cmc.2021.014674
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The recently introduced flower pollination based heuristics is implemented to minimize the mean squared error based merit/cost function representing the scenarios of active noise control system with linear/nonlinear and primary/secondary paths based on the sinusoidal signal, random and complex random signals as noise interferences. The flower pollination heuristics based active noise controllers are formulated through exploitation of nonlinear filtering with Volterra series. The comparative study on statistical observations in terms of accuracy, convergence and complexity measures demonstrates that the proposed meta-heuristic of flower pollination algorithm is reliable, accurate, stable as well as robust for active noise control system. The accuracy of the proposed nature inspired computing of flower pollination is in good agreement with the state of the art counterpart solvers based on variants of genetic algorithms, particle swarm optimization, backtracking search optimization algorithm, fireworks optimization algorithm along with their memetic combination with local search methodologies. 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subjects	Accuracy Active noise control Comparative studies Complexity Control systems Cost function Fireworks Genetic algorithms Heuristic Heuristic methods Mathematical models Noise control Nonlinear control Optimization algorithms Particle swarm optimization Random signals Robust control
title	Flower Pollination Heuristics for Nonlinear Active Noise Control Systems
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