Maximum Lyapunov Exponent-based Multiple Chaotic Slime Mold Algorithm for Real-world Optimization

Yang, Jiaru; Jin, Tao; Lei, Zhenyu; Todo, Yuki; Gao, Shangce

doi:10.21203/rs.3.rs-2505598/v1

2023

DOI: 10.21203/rs.3.rs-2505598/v1

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Maximum Lyapunov Exponent-based Multiple Chaotic Slime Mold Algorithm for Real-world Optimization

Jiaru Yang

Tao Jin

Zhenyu Lei

et al.

Abstract: Slime mold algorithm (SMA) is a nature-inspired algorithm that simulates the biological optimization mechanisms and has achieved great results in various complex stochastic optimization problems. Owing to the simulated biological search principle of slime mold, SMA has a unique advantage in global optimization problem. However, it still suffers from issues of missing the optimal solution or collapsing to local optimum when facing complicated problems. To conquer these drawbacks, we consider adding a novel mult… Show more

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A Pad$ \acute{e} $ approximation and intelligent population shrinkage chicken swarm optimization algorithm for solving global optimization and engineering problems

Liu,

Li,

Qin

2023

MBE

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<abstract><p>Bio-inspired optimization algorithms are competitive solutions for engineering design problems. Chicken swarm optimization (CSO) combines the advantages of differential evolution and particle swarm optimization, drawing inspiration from the foraging behavior of chickens. However, the CSO algorithm may perform poorly in the face of complex optimization problems because it has a high risk of falling into a local optimum. To address these challenges, a new CSO called chicken swarm optimization combining Pad$ \acute{e} $ approximate, random learning and population reduction techniques (PRPCSO) was proposed in this work. First, a Pad$ \acute{e} $ approximate strategy was combined to help agents converge to the approximate real solution area quickly. Pad$ \acute{e} $ approximate was grounded in a rational function aligning with the power series expansion of the approximated function within a defined number of terms. The fitting function used in this strategy employs the above rational function and the extreme points are calculated mathematically, which can significantly improve the accuracy of the solution. Second, the random learning mechanism encouraged agents to learn from other good agents, resulting in better local exploitation capability compared to traditional CSO. This mechanism has a special idea that when it comes to selecting random individuals, it selects from the same type of high-performing agents, rather than selecting them completely at random. Third, a new intelligent population size shrinking strategy was designed to dynamically adjust the population size to prevent premature convergence. It considers fitness function calls and variations in recent optimal solutions creatively. To validate the algorithm's efficacy, PRPCSO was rigorously tested across 23 standard test functions and six kinds of practical engineering problems. We then compared PRPCSO with several mainstream algorithms, and the results unequivocally established PRPCSO's superior performance in most instances, highlighting its substantial practical utility in real engineering applications.</p></abstract>

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A Pad$ \acute{e} $ approximation and intelligent population shrinkage chicken swarm optimization algorithm for solving global optimization and engineering problems

Liu,

Li,

Qin

2023

MBE

View full text Add to dashboard Cite

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Maximum Lyapunov Exponent-based Multiple Chaotic Slime Mold Algorithm for Real-world Optimization

Cited by 1 publication

References 66 publications

A Pad$ \acute{e} $ approximation and intelligent population shrinkage chicken swarm optimization algorithm for solving global optimization and engineering problems

A Pad$ \acute{e} $ approximation and intelligent population shrinkage chicken swarm optimization algorithm for solving global optimization and engineering problems

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