The design of complex electromagnetic systems always starts from a set of physically consistent equations. However, dealing with real scenarios, unforeseen coupling phenomena, incomplete description of the systems, and/or ineffective modeling may result in suboptimal designs. Advanced optimization techniques play a critical role in addressing these challenges by refining suboptimal designs to meet specific objectives. In this paper, a novel evolutionary optimization algorithm inspired by intricate geopolitical conflicts of the classical era is presented. It is tested against classical optimization benchmarks as well as to a common electromagnetic problem showing good results with respect to already well known evolutionary algorithms.
Wsppso Optimization Applied to Electromagnetic Problems
Chiaudani F.;Zich E. L.;Grimaccia F.;Martinez G. F.;
2025-01-01
Abstract
The design of complex electromagnetic systems always starts from a set of physically consistent equations. However, dealing with real scenarios, unforeseen coupling phenomena, incomplete description of the systems, and/or ineffective modeling may result in suboptimal designs. Advanced optimization techniques play a critical role in addressing these challenges by refining suboptimal designs to meet specific objectives. In this paper, a novel evolutionary optimization algorithm inspired by intricate geopolitical conflicts of the classical era is presented. It is tested against classical optimization benchmarks as well as to a common electromagnetic problem showing good results with respect to already well known evolutionary algorithms.| File | Dimensione | Formato | |
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Wsppso_Optimization_Applied_to_Electromagnetic_Problems.pdf
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