3d semantic segmentation with submanifold sparse convolutional networks
B Graham, M Engelcke… - Proceedings of the …, 2018 - openaccess.thecvf.com
B Graham, M Engelcke, L Van Der Maaten
Proceedings of the IEEE conference on computer vision and …, 2018•openaccess.thecvf.comConvolutional networks are the de-facto standard for analyzing spatio-temporal data such as
images, videos, and 3D shapes. Whilst some of this data is naturally dense (eg, photos),
many other data sources are inherently sparse. Examples include 3D point clouds that were
obtained using a LiDAR scanner or RGB-D camera. Standard``dense''implementations of
convolutional networks are very inefficient when applied on such sparse data. We introduce
new sparse convolutional operations that are designed to process spatially-sparse data …
images, videos, and 3D shapes. Whilst some of this data is naturally dense (eg, photos),
many other data sources are inherently sparse. Examples include 3D point clouds that were
obtained using a LiDAR scanner or RGB-D camera. Standard``dense''implementations of
convolutional networks are very inefficient when applied on such sparse data. We introduce
new sparse convolutional operations that are designed to process spatially-sparse data …
Abstract
Convolutional networks are the de-facto standard for analyzing spatio-temporal data such as images, videos, and 3D shapes. Whilst some of this data is naturally dense (eg, photos), many other data sources are inherently sparse. Examples include 3D point clouds that were obtained using a LiDAR scanner or RGB-D camera. Standard``dense''implementations of convolutional networks are very inefficient when applied on such sparse data. We introduce new sparse convolutional operations that are designed to process spatially-sparse data more efficiently, and use them to develop spatially-sparse convolutional networks. We demonstrate the strong performance of the resulting models, called submanifold sparse convolutional networks (SSCNs), on two tasks involving semantic segmentation of 3D point clouds. In particular, our models outperform all prior state-of-the-art on the test set of a recent semantic segmentation competition.
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