Code for HodgeNet: Learning Spectral Geometry on Triangle Meshes, in SIGGRAPH 2021.

Last update: Nov 27, 2022

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Deep Learning HodgeNet

Overview

HodgeNet | Webpage | Paper | Video

HodgeNet: Learning Spectral Geometry on Triangle Meshes
Dmitriy Smirnov, Justin Solomon
SIGGRAPH 2021

Set-up

To install the neecssary dependencies, run:

conda env create -f environment.yml
conda activate hodgenet

Training

To train the segmentation model, first download the Shape COSEG dataset. Then, run:

python train_segmentation.py --out out_dir --mesh_path path_to_meshes --seg_path path_to_segs

To train the classification model, first download the SHREC 2011 dataset:

wget -O shrec.tar.gz https://www.dropbox.com/s/4z4v1x30jsy0uoh/shrec.tar.gz?dl=0
tar -xvf shrec.tar.gz -C data

Then, run:

python train_classification.py --out out_dir

To train the dihedral angle stress test model, run:

python train_origami.py --out out_dir

To monitor the training, launch a TensorBoard instance with --logdir out_dir

To finetune a model, add the flag --fine_tune to the above training commands.

BibTeX

@article{smirnov2021hodgenet,
  title={{HodgeNet}: Learning Spectral Geometry on Triangle Meshes},
  author={Smirnov, Dmitriy and Solomon, Justin},
  year={2021},
  journal={SIGGRAPH}
}

Code for HodgeNet: Learning Spectral Geometry on Triangle Meshes, in SIGGRAPH 2021.

Related tags

Overview

HodgeNet | Webpage | Paper | Video

Set-up

Training

BibTeX

Owner

Dima Smirnov

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Code for HodgeNet: Learning Spectral Geometry on Triangle Meshes, in SIGGRAPH 2021.

Related tags

Overview

HodgeNet | Webpage | Paper | Video

Set-up

Training

BibTeX

Owner

Dima Smirnov

Perform Linear Classification with Multi-way Data

Official repository for the ICCV 2021 paper: UltraPose: Synthesizing Dense Pose with 1 Billion Points by Human-body Decoupling 3D Model.

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For encoding a text longer than 512 tokens, for example 800. Set max_pos to 800 during both preprocessing and training.

Quickly comparing your image classification models with the state-of-the-art models (such as DenseNet, ResNet, ...)

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Code and models for "Rethinking Deep Image Prior for Denoising" (ICCV 2021)

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