This repository contains the implementation of our papers related with O-CNN.
The code is released under the MIT license.
-
O-CNN: Octree-based Convolutional Neural Networks
By Peng-Shuai Wang, Yang Liu, Yu-Xiao Guo, Chun-Yu Sun and Xin Tong
ACM Transactions on Graphics (SIGGRAPH), 36(4), 2017 -
Adaptive O-CNN: A Patch-based Deep Representation of 3D Shapes
By Peng-Shuai Wang, Chun-Yu Sun, Yang Liu and Xin Tong
ACM Transactions on Graphics (SIGGRAPH Asia), 37(6), 2018 -
Deep Octree-based CNNs with Output-Guided Skip Connections for 3D Shape and Scene Completion
By Peng-Shuai Wang, Yang Liu and Xin Tong
Computer Vision and Pattern Recognition (CVPR) Workshops, 2020 -
Unsupervised 3D Learning for Shape Analysis via Multiresolution Instance Discrimination
By Peng-Shuai Wang, Yu-Qi Yang, Qian-Fang Zou, Zhirong Wu, Yang Liu and Xin Tong
AAAI Conference on Artificial Intelligence (AAAI), 2021. [Arxiv, 2020.08]
If you use our code or models, please cite our paper.
- Installation
- Data Preparation
- Shape Classification
- Shape Retrieval
- Shape Segmentation
- Shape Autoencoder
- Shape Completion
- Image2Shape
- Unsupverised Pretraining
- ScanNet Segmentation
- 2021.08.24: Update the code for pythorch-based O-CNN, including a UNet and some other major components. Our vanilla implementation without any tricks on ScanNet dataset achieves 76.2 mIoU on the ScanNet benchmark, even surpassing the recent state-of-art approaches published in CVPR 2021 and ICCV 2021.
- 2021.03.01: Update the code for pytorch-based O-CNN, including a ResNet and some important modules.
- 2021.02.08: Release the code for ShapeNet segmentation with HRNet.
- 2021.02.03: Release the code for ModelNet40 classification with HRNet.
- 2020.10.12: Release the initial version of our O-CNN under PyTorch. The code has been tested with the classification task.
- 2020.08.16: We released our code for 3D unsupervised learning. We provided a unified network architecture for generic shape analysis tasks and an unsupervised method to pretrain the network. Our method achieved state-of-the-art performance on several benchmarks.
- 2020.08.12: We released our code for Partnet segmentation. We achieved an average IoU of 58.4, significantly better than PointNet (IoU: 35.6), PointNet++ (IoU: 42.5), SpiderCNN (IoU: 37.0), and PointCNN(IoU: 46.5).
- 2020.08.05: We released our code for shape completion. We proposed a simple yet efficient network and output-guided skip connections for 3D completion, which achieved state-of-the-art performances on several benchmarks.
Please contact us (Peng-Shuai Wang [email protected], Yang Liu [email protected] ) if you have any problems about our implementation.