ICRA 24 Active Learning - Honda Research Institute USA

ICRA 24 Active Learning

Active learning with dual model predictive path- integral control for interaction-aware autonomous highway on-ramp merging

J. Knaup J. D’sa B. Chalaki T. Naes H. N. Mahjoub E. Moradi- Pari and P. Tsiotras

International Conference on Robotics and Automation (ICRA) 2024

Merging into dense highway traffic for an au- tonomous vehicle is a complex decision-making task, wherein the vehicle must identify a potential gap and coordinate with surrounding human drivers, each of whom may exhibit diverse driving behaviors. Many existing methods consider other drivers to be dynamic obstacles and, as a result, are incapable of capturing the full intent of the human drivers via this passive planning. In this paper, we propose a novel dual control framework based on Model Predictive Path-Integral control to generate interactive trajectories. This framework incorporates a Bayesian inference approach to actively learn the agents’ parameters, i.e., other drivers’ model parameters. The proposed framework employs a sampling-based approach that is suitable for real-time implementation through the utilization of GPUs. We illustrate the effectiveness of our proposed methodology through comprehensive numerical simulations conducted in both high and low-fidelity simulation scenarios focusing on autonomous on-ramp merging.

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