象鼻虫危害优化算法及其应用

Seyed Muhammad Hossein Mousavi, S. Mirinezhad
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引用次数: 3

摘要

象鼻虫是一种长鼻昆虫,属于象鼻虫总科,约有97000种。它们大多数被认为是害虫,并造成环境破坏,但一些种类如小麦象鼻虫、玉米象鼻虫和棉铃象鼻虫是出了名的对农作物,特别是谷物造成巨大损害。本研究提出了一种新的基于群的元启发式算法——象鼻虫损害优化算法(WDOA),该算法模拟象鼻虫的飞力、鼻部力和对农作物或农产品的损害力。用12个基准单峰和多峰人工景观或优化测试函数对算法进行了测试。此外,将所提出的WDOA应用于五个工程问题,以检验其对问题求解的鲁棒性。问题有旅行商问题(TSP)、n-Queens问题、投资组合问题、最优库存控制问题(OIC)和装箱问题(BPP)。所有测试的功能与广泛使用的粒子群优化(PSO)、遗传算法(GA)、和谐搜索(HS)算法、帝国主义竞争算法(ICA)、萤火虫算法(FA)和差分进化(DE)算法等基准算法进行了比较。此外,所有问题都用DE、FA和HS算法进行了测试。该算法在速度合理的同时提供精度,对所有函数和问题都具有鲁棒性和快速性。
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Weevil damage optimization algorithm and its applications
Weevils are a type of insect with elongated snouts coming from superfamily of Curculionoidea with approximately 97,000 species. Most of them consider pest and cause environmental damages but some kinds like wheat weevil, maize weevil, and boll weevils are famous to cause huge damage on crops, especially cereal grains. This research proposes a novel swarm-based metaheuristics algorithm called Weevil Damage Optimization Algorithm (WDOA) which mimics weevils’ fly power, snout power, and damage power on crops or agricultural products. The proposed algorithm is tested with 12 benchmark unimodal and multimodal artificial landscapes or optimization test functions. Additionally, the proposed WDOA is employed in five engineering problems to check its robustness for problem solving. Problems are Travelling Salesman Problem (TSP), n-Queens problem, portfolio problem, Optimal Inventory Control (OIC) problem, and Bin Packing Problem (BPP). All tests’ functions are compared with widely used benchmark algorithms of Particle Swarm Optimization (PSO), Genetic Algorithm (GA), Harmony Search (HS) algorithm, Imperialist Competitive Algorithm (ICA), Firefly Algorithm (FA), and Differential Evolution (DE) algorithm. Also, all problems are tested with DE, FA, and HS algorithms. The Proposed algorithm showed robustness and speed on all functions and problems by providing precision alongside with reasonable speed.
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