3DmFV: 3D Point Cloud Classification in Real-Time using Convolutional Neural Networks

ECCV 2020

Presented at the IEEE International Conference on Intelligent Robots and Systems (IROS) 2018. Paper: https://ieeexplore.ieee.org/abstract/document/8394990/ Code: https://github.com/sitzikbs/3DmFV-Net Vision Day 2019 full talk: https://www.youtube.com/watch?v=HIUGOKSLTcE Tutorials: GMMs: http://www.itzikbs.com/gaussian-mixture-model-gmm-3d-point-cloud-classification-primer Fisher Vectors for point clouds: http://www.itzikbs.com/what-is-a-fisher-vector-for-3d-point-clouds-3d-point-cloud-classification-primer 3DmFV: http://www.itzikbs.com/what-is-3d-modified-fisher-vector-3dmfv-representation-for-3d-point-clouds 3DmFV-Net: http://www.itzikbs.com/3dmfv-net-3d-point-cloud-lassification-in-real-time-using-3dmfv-and-cnns Abstract: Modern robotic systems are often equipped with a direct 3D data acquisition device, e.g. LiDAR, which provides a rich 3D point cloud representation of the surroundings. This representation is commonly used for obstacle avoidance and mapping. Here, we propose a new approach for using point clouds for another critical robotic capability, semantic understanding of the environment (i.e. object classification). Convolutional neural networks (CNN), that perform extremely well for object classification in 2D images, are not easily extendible to 3D point clouds analysis. It is not straightforward due to point clouds’ irregular format and a varying number of points. The common solution of transforming the point cloud data into a 3D voxel grid needs to address severe accuracy vs memory size tradeoffs. In this paper we propose a novel, intuitively interpretable, 3D point cloud representation called 3D Modified Fisher Vectors (3DmFV). Our representation is hybrid as it combines a coarse discrete grid structure with continuous generalized Fisher vectors. Using the grid enables us to design a new CNN architecture for real-time point cloud classification. In a series of performance analysis experiments, we demonstrate competitive results or even better than state-of-the-art on challenging benchmark datasets while maintaining robustness to various data corruptions.