Spiral Sine-Cosine Algorithm for Global Optimization

Nurul Amira Mhd Rizal, Mohd Falfazli Mat Jusof, Ahmad Azwan Abd Razak, Shuhairie Mohammad, Ahmad Nor Kasruddin Nasir
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引用次数: 5

Abstract

This paper presents a Hybrid Spiral and Sine-Cosine Algorithm (SSCA). Sine-Cosine algorithm (SCA) is a random-based optimization that utilizes an elitism approach and adaptive step size in its strategy. The step size is linearly varied and thus has caused the algorithm to produce steady convergence trend towards an optimal solution. It also has resulted the algorithm unable to achieve the true optimal solution. On the other hand, Spiral Dynamic Algorithm (SDA) is a deterministic-based algorithm that offers a nonlinear trend of agents step size in its operation. Therefore, an adoption of spiral equation from SDA into SCA is proposed as a solution to increase SCA convergence speed and its corresponding accuracy. The proposed algorithm is tested with a set of benchmark functions. Its accuracy and convergence trend performances are measured and recorded. A nonparametric Wilcoxon Sign Rank test is applied to statistically analyze the significance improvement of the SSCA accuracy in comparison to original SCA. Finding from the accuracy analysis indicates that the proposed SSCA algorithm significantly outperformed the original SCA. Moreover, from a graphical result, it shows that the SSCA has faster speed compared to another contestant algorithm.
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螺旋正弦-余弦算法的全局优化
提出了一种螺旋和正弦余弦混合算法(SSCA)。正弦余弦算法(SCA)是一种基于随机的优化方法,在其策略中采用了精英化方法和自适应步长。该算法的步长是线性变化的,从而使算法向最优解产生稳定的收敛趋势。这也导致了算法无法得到真正的最优解。另一方面,螺旋动态算法(SDA)是一种基于确定性的算法,它在运行过程中提供了智能体步长的非线性趋势。因此,提出将SDA中的螺旋方程引入SCA,以提高SCA的收敛速度和相应的精度。用一组基准函数对该算法进行了测试。测量并记录了其精度和收敛趋势性能。采用非参数Wilcoxon符号秩检验统计分析SSCA与原始SCA相比准确性的显著性提高。准确度分析结果表明,本文提出的SSCA算法明显优于原SCA算法。此外,从图形结果来看,SSCA比另一种竞争算法具有更快的速度。
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