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FUTR3D: A Unified Sensor Fusion Framework for 3D Detection

Xuanyao Chen, Tianyuan Zhang, Yue Wang, Yilun Wang, Hang Zhao

2023282 citationsDOI

Abstract

Sensor fusion is an essential topic in many perception systems, such as autonomous driving and robotics. Existing multi-modal 3D detection models usually involve customized designs depending on the sensor combinations or setups. In this work, we propose the first unified end-to-end sensor fusion framework for 3D detection, named FUTR3D, which can be used in (almost) any sensor configuration. FUTR3D employs a query-based Modality-Agnostic Feature Sampler (MAFS), together with a transformer decoder with a set-to-set loss for 3D detection, thus avoiding using late fusion heuristics and post-processing tricks. We validate the effectiveness of our framework on various combinations of cameras, low-resolution LiDARs, high-resolution LiDARs, and Radars. On NuScenes dataset, FUTR3D achieves better performance over specifically designed methods across different sensor combinations. Moreover, FUTR3D achieves great flexibility with different sensor configurations and enables low-cost autonomous driving. For example, only using a 4-beam LiDAR with cameras, FUTR3D (58.0 mAP) surpasses state-of-the-art 3D detection model [41] (56.6 mAP) using a 32-beam LiDAR. Our code is available on the ${\text{project page}}$.

Topics & Concepts

Computer scienceLidarArtificial intelligenceSensor fusionComputer visionHeuristicsFusionReal-time computingRemote sensingPhilosophyGeologyOperating systemLinguisticsAdvanced Neural Network ApplicationsRobotics and Sensor-Based LocalizationAdversarial Robustness in Machine Learning
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