Advancing Decision-Making: AI-Driven Optimization Models for Complex Systems

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Hengki Tamando Sihotang, Jonhariono Sihotang, Agata Putri Handayani Simbolon, Firta Sari Panjaitan, Roma Sinta Simbolon

2024 International Journal of Basic and Applied Science Vol. 13 Issue 3 Article Cited by 1

Abstract

Effective decision-making in complex systems requires optimization models that balance multiple competing objectives, such as cost efficiency, time constraints, and adaptability to dynamic environments. This research proposes an AI-driven optimization model utilizing the Pareto optimization algorithm to enhance decision-making accuracy and system resilience. The model was tested in a logistics scenario, demonstrating a 10% reduction in operational costs and a 36% decrease in time deviations while improving adaptability to real-time disruptions. Unlike traditional static models, the proposed framework dynamically adjusts to external factors, optimizing resource allocation and route planning in real-world conditions. The findings highlight the model’s capability to bridge the gap between theoretical AI advancements and practical applications in industries such as supply chain management, urban transportation, and disaster response logistics. While computational requirements and data availability pose challenges, future research should explore computational efficiency enhancements, broader industry applications, and sustainability integration. This study contributes to the advancement of AI-based multi-objective optimization, providing a scalable and adaptable solution for complex decision-making in dynamic environments. © 2024, Institute of Computer Science (IOCS). All rights reserved.

Affiliations

Sistem Informasi, Universitas Putra Abadi Langkat, Indonesia; Universitas Negeri Medan, Indonesia