Particle swarm optimization solution for roll-off control in radiofrequency ablation of liver tumors: Optimal search for PID controller tuning-Reference-Cited by-同舟云学术

Particle swarm optimization solution for roll-off control in radiofrequency ablation of liver tumors: Optimal search for PID controller tuning

Published:2024-06-26 Issue:6 Volume:19 Page:e0300445
ISSN:1932-6203
Container-title:PLOS ONE
language:en
Short-container-title:PLoS ONE

Author:

Faria Rafael Mendes^ORCID,Rosa Suélia de Siqueira Rodrigues Fleury,Nunes Gustavo Adolfo Marcelino de Almeida,Santos Klériston Silva,de Souza Rafael Pissinati,Benavides Angie Daniela Ibarra,Alves Angélica Kathariny de Oliveira,da Silva Ana Karoline Almeida^ORCID,Rosa Mario Fabrício,Cardoso Antônio Aureliano de Anicêsio,Faria Sylvia de Sousa,Berjano Enrique,da Rocha Adson Ferreira,dos Santos Ícaro,González-Suárez Ana

Abstract

The study investigates the efficacy of a bioinspired Particle Swarm Optimization (PSO) approach for PID controller tuning in Radiofrequency Ablation (RFA) for liver tumors. Ex-vivo experiments were conducted, yielding a 9th order continuous-time transfer function. PSO was applied to optimize PID parameters, achieving outstanding simulation results: 0.605% overshoot, 0.314 seconds rise time, and 2.87 seconds settling time for a unit step input. Statistical analysis of 19 simulations revealed PID gains: Kp (mean: 5.86, variance: 4.22, standard deviation: 2.05), Ki (mean: 9.89, variance: 0.048, standard deviation: 0.22), Kd (mean: 0.57, variance: 0.021, standard deviation: 0.14) and ANOVA analysis for the 19 experiments yielded a p-value ≪ 0.05. The bioinspired PSO-based PID controller demonstrated remarkable potential in mitigating roll-off effects during RFA, reducing the risk of incomplete tumor ablation. These findings have significant implications for improving clinical outcomes in hepatocellular carcinoma management, including reduced recurrence rates and minimized collateral damage. The PSO-based PID tuning strategy offers a practical solution to enhance RFA effectiveness, contributing to the advancement of radiofrequency ablation techniques.

Funder

University of Brasília (UnB) and the Fundação de Empreendimentos Científicos e Tecnológicos

Federal Deputy Erika Kokay

Publisher

Public Library of Science (PLoS)

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