Pareto-Grid-Guided Large Language Models for Fast and High-Quality Heuristics Design in Multi-Objective Combinatorial Optimization

Authors

  • Ha Minh Hieu Hanoi University of Science and Technology
  • Hung Phan Hanoi University of Science and Technology
  • Tung Duy Doan Hanoi University of Science and Technology
  • Tung Dao Hanoi University of Science and Technology
  • Cong Dao Tran FPT
  • Huynh Thi Thanh Binh Hanoi University of Science and Technology

DOI:

https://doi.org/10.1609/aaai.v40i43.41024

Abstract

Multi-objective combinatorial optimization problems (MOCOP) frequently arise in practical applications that require the simultaneous optimization of conflicting objectives. Although traditional evolutionary algorithms can be effective, they typically depend on domain knowledge and repeated parameter tuning, limiting flexibility when applied to unseen MOCOP instances. Recently, integration of Large Language Models (LLMs) into evolutionary computation has opened new avenues for automatic heuristic generation, using their advanced language understanding and code synthesis capabilities. Nevertheless, most existing approaches predominantly focus on single-objective tasks, often neglecting key considerations such as runtime efficiency and heuristic diversity in multi-objective settings. To bridge this gap, we introduce Multi-heuristics for MOCOP via Pareto-Grid-guided Evolution of LLMs (MPaGE), a novel enhancement of the Simple Evolutionary Multiobjective Optimization (SEMO) framework that leverages LLMs and Pareto Front Grid (PFG) technique. By partitioning the objective space into grids and retaining top-performing candidates to guide heuristic generation, MPaGE utilizes LLMs to prioritize heuristics with semantically distinct logical structures during variation, thus promoting diversity and mitigating redundancy within the population. Through extensive evaluations, MPaGE demonstrates superior performance over existing LLM-based frameworks, and achieves competitive results to traditional Multi-objective evolutionary algorithms (MOEAs), with significantly faster runtime.
AAAI-26 / IAAI-26 / EAAI-26 Proceedings Cover

Downloads

Published

2026-03-14

How to Cite

Hieu, H. M., Phan, H., Doan, T. D., Dao, T., Tran, C. D., & Binh, H. T. T. (2026). Pareto-Grid-Guided Large Language Models for Fast and High-Quality Heuristics Design in Multi-Objective Combinatorial Optimization. Proceedings of the AAAI Conference on Artificial Intelligence, 40(43), 36964–36972. https://doi.org/10.1609/aaai.v40i43.41024

Issue

Vol. 40 No. 43: AAAI-26 Technical Tracks 43

Section

AAAI Technical Track on Search and Optimization