Mohammad H. Nadimi-Shahraki scite author profile

In this paper, a conscious neighborhood-based crow search algorithm (CCSA) is proposed for solving global optimization and engineering design problems. It is a successful improvement to tackle the imbalance search strategy and premature convergence problems of the crow search algorithm. CCSA introduces three new search strategies called neighborhood-based local search (NLS), non-neighborhood based global search (NGS) and wandering around based search (WAS) in order to improve the movement of crows in different search spaces. Moreover, a neighborhood concept is defined to select the movement strategy between NLS and NGS consciously, which enhances the balance between local and global search. The proposed CCSA is evaluated on several benchmark functions and four applied problems of engineering design.In all experiments, CCSA is compared by other state-of-the-art swarm intelligence algorithms: BA, CLPSO, GWO, EEGWO, WOA, KH, ABC, GABC, and Best-so-far ABC. The experimental and statistical results show that CCSA is very competitive especially for largescale optimization problems, and it is significantly superior to the compared algorithms. Furthermore, the proposed algorithm also finds the best optimal solution for the applied problems of engineering design.

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MTDE: An effective multi-trial vector-based differential evolution algorithm and its applications for engineering design problems

Nadimi-Shahraki

Taghian

Mirjalili

et al. 2020

Applied Soft Computing

144

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Starling murmuration optimizer: A novel bio-inspired algorithm for global and engineering optimization

Zamani

Nadimi-Shahraki

Gandomi

2022

Computer Methods in Applied Mechanics and Engineering

163

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QANA: Quantum-based avian navigation optimizer algorithm

Zamani

Nadimi-Shahraki

Gandomi

2021

Engineering Applications of Artificial Intelligence

146

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GGWO: Gaze cues learning-based grey wolf optimizer and its applications for solving engineering problems

Nadimi-Shahraki

Taghian

Mirjalili

et al. 2022

Journal of Computational Science

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B-MFO: A Binary Moth-Flame Optimization for Feature Selection from Medical Datasets

et al. 2021

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Advancements in medical technology have created numerous large datasets including many features. Usually, all captured features are not necessary, and there are redundant and irrelevant features, which reduce the performance of algorithms. To tackle this challenge, many metaheuristic algorithms are used to select effective features. However, most of them are not effective and scalable enough to select effective features from large medical datasets as well as small ones. Therefore, in this paper, a binary moth-flame optimization (B-MFO) is proposed to select effective features from small and large medical datasets. Three categories of B-MFO were developed using S-shaped, V-shaped, and U-shaped transfer functions to convert the canonical MFO from continuous to binary. These categories of B-MFO were evaluated on seven medical datasets and the results were compared with four well-known binary metaheuristic optimization algorithms: BPSO, bGWO, BDA, and BSSA. In addition, the convergence behavior of the B-MFO and comparative algorithms were assessed, and the results were statistically analyzed using the Friedman test. The experimental results demonstrate a superior performance of B-MFO in solving the feature selection problem for different medical datasets compared to other comparative algorithms.

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Enhanced whale optimization algorithm for medical feature selection: A COVID-19 case study

Nadimi-Shahraki

Zamani

Mirjalili

2022

Computers in Biology and Medicine

128

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