Paper ID: 2312.11025

Multi-Goal Optimal Route Planning Using the Cell Mapping Technique

Athanasios Karagounis

This manuscript explores the complexities of multi-objective path planning, aiming to optimize routes against a backdrop of conflicting performance criteria. The study integrates the cell mapping approach as its foundational concept. A two-pronged search strategy is introduced; initially, the cell mapping technique is utilized to develop a comprehensive database, encompassing all cells within the specified area. This database records the performance metrics for the most efficient routes from each cell to the designated target. The second phase involves analyzing this database to pinpoint the extent and count of all Pareto optimal routes from a selected starting cell to the target. This analysis contributes to solving the overarching multi-objective optimization challenge inherent in path planning. To validate this approach, case studies are included, and the results are benchmarked against the well-established multi-objective A* (MOA*) method. The study discovers that while the cell mapping method achieves similar outcomes to the MOA* method for routes originating from a single point, it demonstrates superior computational benefits, particularly when the starting and ending points are in separate, non-overlapping areas.

Submitted: Dec 18, 2023