Pytorch implementation of 'Graph Attention Convolution for Point Cloud Segmentation'
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Updated
Apr 3, 2019 - Python
Pytorch implementation of 'Graph Attention Convolution for Point Cloud Segmentation'
PyTorch implementation to train MortonNet and use it to compute point features. MortonNet is trained in a self-supervised fashion, and the features can be used for general tasks like part or semantic segmentation of point clouds.
Grid-GCN for Fast and Scalable Point Cloud Learning
Forked from HuguesTHOMAS KPConv_Pytorch for a course project
Point-PlaneNet: Plane kernel based convolutional neural network for point clouds analysis
CVPR 2020, "FPConv: Learning Local Flattening for Point Convolution"
[CVPR 2021] CGA-Net: Category Guided Aggregation for Point Cloud Semantic Segmentation
[NeurIPS 2019, Spotlight] Point-Voxel CNN for Efficient 3D Deep Learning
PVT: Point-Voxel Transformer for 3D Deep Learning
[CVPR 2022 Oral] Official implementation for "Surface Representation for Point Clouds"
🔥RandLA-Net in Tensorflow (CVPR 2020, Oral & IEEE TPAMI 2021)
[ICCV-23] Official implementation of SeedAL for seeding active learning for 3D semantic segmentation
[CVPR'22 Best Paper Finalist] Official PyTorch implementation of the method presented in "Learning Multi-View Aggregation In the Wild for Large-Scale 3D Semantic Segmentation"
[ECCV2022] FCAF3D: Fully Convolutional Anchor-Free 3D Object Detection
[WACV'24] TD3D: Top-Down Beats Bottom-Up in 3D Instance Segmentation
[CVPR 2022 Oral] SoftGroup for Instance Segmentation on 3D Point Clouds
[CVPR2024] OneFormer3D: One Transformer for Unified Point Cloud Segmentation
PointNet and PointNet++ implemented by pytorch (pure python) and on ModelNet, ShapeNet and S3DIS.
A versatile framework for 3D machine learning built on Pytorch Lightning and Hydra [looking for contributors!]
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