@article{Zhao_Wu_Xu_Che_Lu_Tang_Liu_2022, title={CADRE: A Cascade Deep Reinforcement Learning Framework for Vision-Based Autonomous Urban Driving}, volume={36}, url={https://ojs.aaai.org/index.php/AAAI/article/view/20259}, DOI={10.1609/aaai.v36i3.20259}, abstractNote={Vision-based autonomous urban driving in dense traffic is quite challenging due to the complicated urban environment and the dynamics of the driving behaviors. Widely-applied methods either heavily rely on hand-crafted rules or learn from limited human experience, which makes them hard to generalize to rare but critical scenarios. In this paper, we present a novel CAscade Deep REinforcement learning framework, CADRE, to achieve model-free vision-based autonomous urban driving. In CADRE, to derive representative latent features from raw observations, we first offline train a Co-attention Perception Module (CoPM) that leverages the co-attention mechanism to learn the inter-relationships between the visual and control information from a pre-collected driving dataset. Cascaded by the frozen CoPM, we then present an efficient distributed proximal policy optimization framework to online learn the driving policy under the guidance of particularly designed reward functions. We perform a comprehensive empirical study with the CARLA NoCrash benchmark as well as specific obstacle avoidance scenarios in autonomous urban driving tasks. The experimental results well justify the effectiveness of CADRE and its superiority over the state-of-the-art by a wide margin.}, number={3}, journal={Proceedings of the AAAI Conference on Artificial Intelligence}, author={Zhao, Yinuo and Wu, Kun and Xu, Zhiyuan and Che, Zhengping and Lu, Qi and Tang, Jian and Liu, Chi Harold}, year={2022}, month={Jun.}, pages={3481-3489} }