Autonomous Driving

Autonomous driving research aims to develop vehicles capable of navigating and operating without human intervention, prioritizing safety and efficiency. Current efforts heavily focus on improving perception (using techniques like 3D Gaussian splatting and Bird's-Eye-View representations), prediction (leveraging diffusion models, transformers, and Bayesian games to handle uncertainty), and planning (employing reinforcement learning, large language models, and hierarchical approaches for decision-making). These advancements are crucial for enhancing the reliability and safety of autonomous vehicles, with significant implications for transportation systems and the broader AI community.

Papers

July 4, 2024

Detect Closer Surfaces that can be Seen: New Modeling and Evaluation in Cross-domain 3D Object Detection
Ruixiao Zhang, Yihong Wu, Juheon Lee, Adam Prugel-Bennett, Xiaohao Cai
Autonomous Driving Global Evaluation 3D Object Detection 3D Object Detection Model Cross Domain Object Detection Domain Performance Novel Model

July 3, 2024

July 2, 2024

July 1, 2024

June 29, 2024

A Rule-Based Behaviour Planner for Autonomous Driving
Bouchard Frederic, Sedwards Sean, Czarnecki Krzysztof
Autonomous Driving Autonomous Vehicle Behavior Planning

June 25, 2024

June 24, 2024

June 21, 2024

NAVSIM: Data-Driven Non-Reactive Autonomous Vehicle Simulation and Benchmarking
Daniel Dauner, Marcel Hallgarten, Tianyu Li, Xinshuo Weng, Zhiyu Huang, Zetong Yang, Hongyang Li, Igor Gilitschenski, Boris Ivanovic, Marco Pavone, Andreas Geiger, Kashyap Chitta
Autonomous Driving Large Scale Benchmark Platform Closed Loop

June 20, 2024

Multi-Task Lane-Free Driving Strategy for Connected and Automated Vehicles: A Multi-Agent Deep Reinforcement Learning Approach
Mehran Berahman, Majid Rostami-Shahrbabaki, Klaus Bogenberger
Autonomous Driving Multi Task Automated Driving Strategy Logic Connected Behavior Multi Agent Deep Deterministic Policy Lane Free

Autonomous Driving

Papers

Detect Closer Surfaces that can be Seen: New Modeling and Evaluation in Cross-domain 3D Object Detection

Efficient Fusion and Task Guided Embedding for End-to-end Autonomous Driving

Solving Motion Planning Tasks with a Scalable Generative Model

AutoSplat: Constrained Gaussian Splatting for Autonomous Driving Scene Reconstruction

Cloud-Edge-Terminal Collaborative AIGC for Autonomous Driving

Predicting Trust Dynamics with Dynamic SEM in Human-AI Cooperation

SeFlow: A Self-Supervised Scene Flow Method in Autonomous Driving

Deep Reinforcement Learning for Adverse Garage Scenario Generation

Let Hybrid A* Path Planner Obey Traffic Rules: A Deep Reinforcement Learning-Based Planning Framework

Acceleration method for generating perception failure scenarios based on editing Markov process

Tokenize the World into Object-level Knowledge to Address Long-tail Events in Autonomous Driving

A Rule-Based Behaviour Planner for Autonomous Driving

End-to-End Autonomous Driving without Costly Modularization and 3D Manual Annotation

Querying Labeled Time Series Data with Scenario Programs

Optimization of Autonomous Driving Image Detection Based on RFAConv and Triplet Attention

Image-Guided Outdoor LiDAR Perception Quality Assessment for Autonomous Driving

GPT-4V Explorations: Mining Autonomous Driving

SegNet4D: Effective and Efficient 4D LiDAR Semantic Segmentation in Autonomous Driving Environments

NAVSIM: Data-Driven Non-Reactive Autonomous Vehicle Simulation and Benchmarking

Multi-Task Lane-Free Driving Strategy for Connected and Automated Vehicles: A Multi-Agent Deep Reinforcement Learning Approach