Abstract
Monocular 3D object detection has long been a challenging task in autonomous driving, which requires to decode 3D predictions solely from a single 2D image. Most existing methods follow conventional 2D object detectors to first localize objects by their centers, and then predict 3D attributes using center-neighboring local features. However, such center-based pipeline views 3D prediction as a subordinate task and lacks inter-object depth interactions with global spatial clues. In this paper, we introduce a simple framework for Monocular DEtection with depth-aware TRansformer, named MonoDETR. We enable the vanilla transformer to be depth-aware and enforce the whole detection process guided by depth. Specifically, we represent 3D object candidates as a set of queries and produce non-local depth embeddings of the input image by a lightweight depth predictor and an attention-based depth encoder. Then, we propose a depth-aware decoder to conduct both inter-query and query-scene depth feature communication. In this way, each object estimates its 3D attributes adaptively from the depth-informative regions on the image, not limited by center-around features. With minimal handcrafted designs, MonoDETR is an end-to-end framework without additional data, anchors or NMS and achieves competitive performance on KITTI benchmark among state-of-the-art center-based networks. Extensive ablation studies demonstrate the effectiveness of our approach and its potential to serve as a transformer baseline for future monocular research. Code is available at this https URL.
Abstract (translated)
URL
https://arxiv.org/abs/2203.13310
