出现断层了？ICCV2025的自动驾驶方向演变...

Core Insights - The article highlights the latest advancements in autonomous driving technologies, focusing on various research papers and frameworks that contribute to the field [2][3]. Multimodal Models & VLA - ORION presents a holistic end-to-end framework for autonomous driving, utilizing vision-language instructed action generation [5]. - An all-in-one large multimodal model for autonomous driving is introduced, showcasing its potential applications [6][7]. - MCAM focuses on multimodal causal analysis for ego-vehicle-level driving video understanding [9]. - AdaDrive and VLDrive emphasize self-adaptive systems and lightweight models for efficient language-grounded autonomous driving [10]. Simulation & Reconstruction - ETA proposes a dual approach to self-driving with large models, enhancing efficiency through forward-thinking [13]. - InvRGB+L introduces inverse rendering techniques for complex scene modeling [14]. - AD-GS and BézierGS focus on object-aware scene reconstruction and dynamic urban scene reconstruction, respectively [18][19]. End-to-End & Trajectory Prediction - Epona presents an autoregressive diffusion world model for autonomous driving, enhancing trajectory prediction capabilities [25]. - World4Drive introduces an intention-aware physical latent world model for end-to-end autonomous driving [30]. - MagicDrive-V2 focuses on high-resolution long video generation for autonomous driving with adaptive control [35]. Occupancy Networks - The article discusses advancements in 3D semantic occupancy prediction, highlighting the transition from binary to semantic data [44]. - GaussRender and GaussianOcc focus on learning 3D occupancy with Gaussian rendering techniques [52][54]. Object Detection - Several papers address 3D object detection, including MambaFusion, which emphasizes height-fidelity dense global fusion for multi-modal detection [64]. - OcRFDet explores object-centric radiance fields for multi-view 3D object detection in autonomous driving [69]. Datasets - The ROADWork Dataset aims to improve recognition and analysis of work zones in driving scenarios [73]. - Research on driver attention prediction and motion planning is also highlighted, showcasing the importance of understanding driver behavior in autonomous systems [74][75].