Towards Uncertainty Unification: A Case Study for Preference Learning

摘要

Learning human preferences is essential for humanrobot interaction, as it enables robots to adapt their behaviors to align with human expectations and goals.However, the inherent uncertainties in both human behavior and robotic systems make preference learning a challenging task.While probabilistic robotics algorithms offer uncertainty quantification, the integration of human preference uncertainty remains underexplored.To bridge this gap, we introduce uncertainty unification and propose a novel framework, uncertainty-unified preference learning (UUPL), which enhances Gaussian Process (GP)-based preference learning by unifying human and robot uncertainties.Specifically, UUPL includes a human preference uncertainty model that improves GP posterior mean estimation, and an uncertainty-weighted Gaussian Mixture Model (GMM) that enhances GP predictive variance accuracy.Additionally, we design a user-specific calibration process to align uncertainty representations across users, ensuring consistency and reliability in the model performance.Comprehensive experiments and user studies demonstrate that UUPL achieves state-of-the-art performance in both prediction accuracy and user rating.An ablation study further validates the effectiveness of human uncertainty model and uncertainty-weighted GMM of UUPL.Video and code are available at https://sites.google.com/view/uupl-rss25/home. I prefer 20C than 18C and I'm very confident!Do you prefer 18C or 20C, and how confident are you?Human Preference Uncertainty Model Uncertainty-weighted GMM User-specific Uncertainty Calibration