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Masked Autoencoder for Self-Supervised Pre-training on Lidar Point Clouds

Georg Hess, Johan Jaxing, Elias Svensson, David Hagerman, Christoffer Petersson, Lennart Svensson

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Abstract

Masked autoencoding has become a successful pretraining paradigm for Transformer models for text, images, and, recently, point clouds. Raw automotive datasets are suitable candidates for self-supervised pre-training as they gener-ally are cheap to collect compared to annotations for tasks like 3D object detection (OD). However, the development of masked autoencoders for point clouds has focused solely on synthetic and indoor data. Consequently, existing meth-ods have tailored their representations and models toward small and dense point clouds with homogeneous point den-sities. In this work, we study masked autoencoding for point clouds in an automotive setting, which are sparse and for which the point density can vary drastically among ob-jects in the same scene. To this end, we propose Voxel-MAE, a simple masked autoencoding pre-training scheme designed for voxel representations. We pre-train the back-bone of a Transformer-based 3D object detector to reconstruct masked voxels and to distinguish between empty and non-empty voxels. Our method improves the 3D OD performance by 1.75 mAP points and 1.05 NDS on the challenging nuScenes dataset. Further, we show that by pre-training with Voxel-MAE, we require only 40% of the annotated data to outperform a randomly initialized equivalent. Code is available at https://github.com/georghess/voxel-mae.

Topics & Concepts

AutoencoderTraining (meteorology)Computer scienceLidarPoint cloudArtificial intelligencePoint (geometry)Training setRemote sensingComputer visionDeep learningMeteorologyGeographyMathematicsGeometryRemote Sensing and LiDAR ApplicationsAdvanced Optical Sensing TechnologiesAdvanced Measurement and Metrology Techniques