Please use this identifier to cite or link to this item: http://repository.aaup.edu/jspui/handle/123456789/1971
Title: Visual Reasoning and Multi-Agent Approach in Multimodal Large Language Models (MLLMs): Solving TSP and mTSP Combinatorial Challenges
Authors: Elhenawy, Mohammed$Other$Other
Abutahoun, Ahmad$Other$Other
Alhadidi, Taqwa I.$Other$Other
Jaber, Ahmed$Other$Palestinian
Ashqar, Huthaifa$AAUP$Palestinian
Jaradat, Shadi$Other$Palestinian
Abdelhay, Ahmed$Other$Other
Glaser, Sebastien$Other$Other
Rakotonirainy, Andry$Other$Other
Issue Date: 13-Aug-2024
Publisher: MDPI
Citation: Elhenawy, M.; Abutahoun, A.; Alhadidi, T.I.; Jaber, A.; Ashqar, H.I.; Jaradat, S.; Abdelhay, A.; Glaser, S.; Rakotonirainy, A. Visual Reasoning and Multi-Agent Approach in Multimodal Large Language Models (MLLMs): Solving TSP and mTSP Combinatorial Challenges. Mach. Learn. Knowl. Extr. 2024, 6, 1894–1921. https://doi.org/10.3390/ make6030093
Abstract: Multimodal Large Language Models (MLLMs) harness comprehensive knowledge spanning text, images, and audio to adeptly tackle complex problems. This study explores the ability of MLLMs in visually solving the Traveling Salesman Problem (TSP) and Multiple Traveling Salesman Problem (mTSP) using images that portray point distributions on a two-dimensional plane. We introduce a novel approach employing multiple specialized agents within the MLLM framework, each dedicated to optimizing solutions for these combinatorial challenges. We benchmarked our multi-agent model solutions against the Google OR tools, which served as the baseline for comparison. The results demonstrated that both multi-agent models—Multi-Agent 1, which includes the initializer, critic, and scorer agents, and Multi-Agent 2, which comprises only the initializer and critic agents—significantly improved the solution quality for TSP and mTSP problems. Multi-Agent 1 excelled in environments requiring detailed route refinement and evaluation, providing a robust framework for sophisticated optimizations. In contrast, Multi-Agent 2, focusing on iterative refinements by the initializer and critic, proved effective for rapid decision-making scenarios. These experiments yield promising outcomes, showcasing the robust visual reasoning capabilities of MLLMs in addressing diverse combinatorial problems. The findings underscore the potential of MLLMs as powerful tools in computational optimization, offering insights that could inspire further advancements in this promising field.
URI: http://repository.aaup.edu/jspui/handle/123456789/1971
ISSN: https://doi.org/10.3390/make6030093
Appears in Collections:Faculty & Staff Scientific Research publications

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