Enhanced Route Planning with Calibrated Uncertainty Set
Abstract
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.
Cite
Text
Tang et al. "Enhanced Route Planning with Calibrated Uncertainty Set." Machine Learning, 2025. doi:10.1007/S10994-024-06697-7Markdown
[Tang et al. "Enhanced Route Planning with Calibrated Uncertainty Set." Machine Learning, 2025.](https://mlanthology.org/mlj/2025/tang2025mlj-enhanced/) doi:10.1007/S10994-024-06697-7BibTeX
@article{tang2025mlj-enhanced,
title = {{Enhanced Route Planning with Calibrated Uncertainty Set}},
author = {Tang, Lingxuan and Luo, Rui and Zhou, Zhixin and Colombo, Nicolò},
journal = {Machine Learning},
year = {2025},
pages = {129},
doi = {10.1007/S10994-024-06697-7},
volume = {114},
url = {https://mlanthology.org/mlj/2025/tang2025mlj-enhanced/}
}