Deep Sliding Shapes for Amodal 3D Object Detection in RGB-D Images
IEEE Conference on Computer Vision and Pattern Recognition (CVPR) spotlight presentation, June 2016
Abstract
We focus on the task of amodal 3D object detection in RGB-D images, which aims to produce a 3D bounding box of an object in metric form at its full extent. We introduce Deep Sliding Shapes, a 3D ConvNet formulation that takes a 3D volumetric scene from a RGB-D image as input and outputs 3D object bounding boxes. In our approach, we propose the first 3D Region Proposal Network (RPN) to learn objectness from geometric shapes and the first joint Object Recognition Network (ORN) to extract geometric features in 3D and color features in 2D. In particular, we handle objects of various sizes by training an amodal RPN at two different scales and an ORN to regress 3D bounding boxes. Experiments show that our algorithm outperforms the state-of-the-art by 13.8 in mAP and is 200x faster than the original Sliding Shapes.
Citation
Shuran Song and Jianxiong Xiao.
"Deep Sliding Shapes for Amodal 3D Object Detection in RGB-D Images."
IEEE Conference on Computer Vision and Pattern Recognition (CVPR) spotlight presentation, June 2016.
BibTeX
@inproceedings{Song:2016:DSS, author = "Shuran Song and Jianxiong Xiao", title = "Deep Sliding Shapes for Amodal {3D} Object Detection in {RGB-D} Images", booktitle = "IEEE Conference on Computer Vision and Pattern Recognition (CVPR) spotlight presentation", year = "2016", month = jun }