精英反向黄金正弦海洋捕食者算法

计算机工程与科学 ›› 2023, Vol. 45 ›› Issue (02): 355-362.

精英反向黄金正弦海洋捕食者算法

张磊,刘升,高文欣,郭雨鑫

(上海工程技术大学管理学院,上海 201620)

收稿日期:2021-03-09 修回日期:2021-05-15 接受日期:2023-02-25 出版日期:2023-02-25 发布日期:2023-02-16
基金资助:
国家自然科学基金（61075115，61673258）；上海市自然科学基金（19ZR1421600）

An elite opposition-based golden sine marine predator algorithm

ZHANG Lei,LIU Sheng,GAO Wen-xin,GUO Yu-xin

(School of Management,Shanghai University of Engineering Science,Shanghai 201620,China)

Received:2021-03-09 Revised:2021-05-15 Accepted:2023-02-25 Online:2023-02-25 Published:2023-02-16

摘要/Abstract

摘要： 由于基本的海洋捕食者算法在运行时存在求解准确度低和稳定性差等缺点，提出一种精英反向学习黄金正弦的海洋捕食者算法。加入精英反向学习机制，提升了海洋捕食者的种群质量，使得算法全面探索的范围得到了有效扩大；加入黄金正弦策略，改进了海洋捕食者捕食猎物的方法，缩小了海洋捕食者的搜索空间，使得算法的局部开发性能得到了有效提高。对12个基准测试函数和12个CEC2017函数进行求解测试，测试结果显示，2种改进策略有助于提高海洋捕食者算法的性能。

关键词: 精英反向学习, 黄金正弦, 海洋捕食者算法

Abstract: Because the basic ocean predator algorithm has shortcomings such as low solution accuracy and poor stability at runtime, this paper proposes an elite reverse learning golden sine ocean predator algorithm. The elite reverse learning mechanism is added to improve the population quality of marine predators, and the comprehensive exploration scope of the algorithm is effectively expanded. The golden sine strategy is added to improve the way of hunting their prey of marine predators and reduce the search space of marine predators, and the performance of local development of the algorithm is effectively enhanced. The effectiveness of the improved strategy is evaluated by solving 12 benchmark functions and 12 CEC2017 functions. The solution test results show that the two strategies have an excellent effect on improving the performance of the ocean predator algorithm.

Key words: elite opposition-based learning, golden sine, marine predators algorithm

张磊, 刘升, 高文欣, 郭雨鑫. 精英反向黄金正弦海洋捕食者算法[J]. 计算机工程与科学, 2023, 45(02): 355-362.

ZHANG Lei, LIU Sheng, GAO Wen-xin, GUO Yu-xin. An elite opposition-based golden sine marine predator algorithm[J]. Computer Engineering & Science, 2023, 45(02): 355-362.

参考文献［10］

［1］	Faramarzi A, Heidarinejad M,Mirjalili S,et al.Marine predators algorithm:A nature-inspired metaheuristic［J］.Expert Systems with Applications,2020,152:113377.
［2］	Elaziz M A,Mohammadi D,Oliva D,et al.Quantum marine predators algorithm for addressing multilevel image segmentation［J］.Applied Soft Computing,2021,107:103-124.
［3］	Al-Qaness M A A,Saba A I,Elsheikh A H,et al.Efficient artificial intelligence forecasting models for COVID-19 outbreak in Russia and Brazil［J］.Process Safety and Environmental Protection,2021,149:399-409.
［4］	Sun X K,Wang G L,Xu L Y,et al.Optimal performance of a combined heat-power system with a proton exchange membrane fuel cell using a developed marine predators algorithm［J］.Journal of Cleaner Production,2020,284:124776.1-124776.11.
［5］	Zhong K Y,Luo Q F,Zhou Y Q,et al.TLMPA:Teaching-learning-based Marine Predators algorithm［J］.AIMS Mathematics,2021,6(2):1395-1442.
［6］	Adbel-Basset M, EI-Shahat D, Chakrabortty R K,et al.Parameter estimation of photovoltaic models using an improved marine predators algorithm—ScienceDirect［J］.Energy Conversion and Management,2021,227:113491.
［7］	Tizhoosh H R.Opposition-based learning:A new scheme for machine intelligence［C］∥Proc of International Conference on International Conference on Computational Intelligence for Modelling,Control & Automation,2005:695-701.
［8］	Zhou X Y，Wu Z J，Wang H． Elite opposition based differential evolution for solving large-scale optimization problems and its implementation on GPU［C］∥Proc of International Conference on Parallel and Distributed Computing,Applications and Technologies,2012:727-731.
［9］	Xiao Zi-ya, Liu Sheng. Study on elite opposition-based golden-sine whale optimization algorithm and its application of project optimization［J］.Acta Electronica Sinica,2019,47(10):2177-2186.(in Chinese)
［10］	Fang Xu-yang,Wu Xiang-jun,You Da-tao.Sin-cosine algorithm with learning mechanism［J］.Application Research of Computers,2020,37(3):809-813.(in Chinese)
［11］	Sihwail R,Omar K,Ariffin K A Z,et al.Improved harris hawks optimization using elite opposition-based learning and novel search mechanism for feature selection［J］.IEEE Access,2020,8:121127-121145.
［12］	Tanyildizi E,Demir G.Golden sine algorithm:A novel math-inspired algorithm［J］.Advances in Electrical and Computer Engineering,2017,17(2):71-78.
［13］	Mirjalili S,Lewis A.The whale optimization algorithm［J］.Advances in Engineering Software,2016,95(12):51-67.
［14］	Heidari A A, Mirjalili S, Faris H,et al.Harris hawks optimization:Algorithm and applications［J］.Future Generation Computer Systems,2019,97:849-872.
［15］	Emad N. A modified flower pollination algorithm for global optimization［J］.Expert Systems with Applications,2016,57:192-203.
［16］	Awad N H,Ali M Z,Suganthan P N,et al.Problem definitions and evaluation criteria for the CEC 2017 special session and competition on single objective real-parameter numerical optimization［R］.Singapore:Nanyang Technological University,2016.
［17］	Kennedy J,Eberhart R.Particle swarm optimization［C］∥Proc of the IEEE International Conference on Neural Networks,2002:1942-1948.
	附中文参考文献：
［9］	肖子雅,刘升.精英反向黄金正弦鲸鱼算法及其工程优化研究［J］.电子学报,2019,47(10):2177-2186.
［10］	方旭阳,武相军,游大涛.具有学习机制的正弦余弦算法［J］.计算机应用研究,2020,37(3):809-813.