Towards Resilient and Sustainable Global Industrial Systems: An Evolutionary-Based Approach
This paper presents a new complex optimization problem in the field of automatic design of advanced industrial systems and proposes a hybrid optimization approach to solve the problem. The problem is multi-objective as it aims at finding solutions that minimize CO2 emissions, transportation time, and costs. The optimization approach combines an evolutionary algorithm and classical mathematical programming to design resilient and sustainable global manufacturing networks. Further, it makes use of the OWL ontology for data consistency and constraint management. The experimental validation demonstrates the effectiveness of the approach in both single and double sourcing scenarios. The proposed methodology, in general, can be applied to any industry case with complex manufacturing and supply chain challenges.
View on arXiv@article{jirkovský2025_2503.11688,
title={ Towards Resilient and Sustainable Global Industrial Systems: An Evolutionary-Based Approach },
author={ Václav Jirkovský and Jiří Kubalík and Petr Kadera and Arnd Schirrmann and Andreas Mitschke and Andreas Zindel },
journal={arXiv preprint arXiv:2503.11688},
year={ 2025 }
}