Nature-Inspired Heuristic Frameworks Trends in Solving Multi-objective Engineering Optimization Problems

Nature-Inspired Heuristic Frameworks Trends in Solving Multi-objective Engineering Optimization Problems

Nowadays, nature-inspired artificial intelligent metaheuristic optimization algorithms (MHOAs) have gained many attentions from researchers all over the world due to their capabilities in solving various decision-making problems. These algorithms are inspired and modelled based on the searching beha...

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Bibliographic Details
Main Authors: Chang C.C.W., Ding T.J., Ee C.C.W., Han W., Paw J.K.S., Salam I., Bhuiyan M.A.S., Kuan G.S.
Other Authors: 57473577900
Format: Review
Published: Springer Science and Business Media B.V. 2025
Subjects:
Benchmarking
Biomimetics
Decision making
Multiobjective optimization
Artificial intelligent
Decision-making problem
Engineering optimization problems
Metaheuristic optimization
Multi objective
Optimization algorithms
Review papers
Search mechanism
Searching behavior
State of the art
Heuristic algorithms
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Summary:Nowadays, nature-inspired artificial intelligent metaheuristic optimization algorithms (MHOAs) have gained many attentions from researchers all over the world due to their capabilities in solving various decision-making problems. These algorithms are inspired and modelled based on the searching behaviour of animals in real life. This review paper provides in-depth discussions on various challenges and breakthroughs in numerous state-of-the-art nature-inspired artificial intelligence (AI) algorithms in solving multi-objective optimization engineering problems with emphasis on the mathematical modelling and algorithm developments. From conventional analysis such as speeds and accuracies to relatively advanced benchmarks such as complexities and convergence patterns, the comparison criteria of population-based and nature-inspired search mechanisms have evolved in the effort to further enhance the overall performance and reachability of these heuristic algorithms. This paper provides a platform for young readers and new researches who are about to indulge in the realm of various AI optimization techniques. Comprehensive analysis and discussions are presented on various state-of-the-art methods, with possible fields of applications proposed. Suitability of search mechanisms to specific optimization problem categories has also been investigated and presented, with combined or hybrid methods under scrutiny. ? The Author(s) under exclusive licence to International Center for Numerical Methods in Engineering (CIMNE) 2024.

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