Enhanced Route Planning with Calibrated Uncertainty Set
Tang, Lingxuan, Luo, Rui, Zhou, Zhixin, Colombo, Nicolo
This paper investigates the application of probabilistic prediction methodologies in route planning within a road network context. Specifically, we introduce the Conformalized Quantile Regression for Graph Autoencoders (CQR-GAE), which leverages the conformal prediction technique to offer a coverage guarantee, thus improving the reliability and robustness of our predictions. By incorporating uncertainty sets derived from CQR-GAE, we substantially improve the decision-making process in route planning under a robust optimization framework. We demonstrate the effectiveness of our approach by applying the CQR-GAE model to a real-world traffic scenario. The results indicate that our model significantly outperforms baseline methods, offering a promising avenue for advancing intelligent transportation systems.
Mar-13-2025
- Country:
- North America > United States
- Illinois > Cook County > Chicago (0.05)
- Europe > Sweden
- Västerbotten County > Umeå (0.04)
- Asia > China
- Hong Kong (0.05)
- North America > United States
- Genre:
- Research Report (1.00)
- Industry:
- Transportation
- Infrastructure & Services (1.00)
- Ground > Road (0.36)
- Transportation
- Technology: