This repository contains the implementation of Fine-Grained Generalized Zero-Shot Learning via Dense Attribute-Based Attention.
In this work, we develop a zero-shot fine-grained recognition with the ability to localize attributes using a dense attribute-based attention and embedding mechanism.
To install all the dependency packages, please run:
pip install -r requirements.txt
-
Please download and extract information into the
./data folder. We include details about download links as well as what are they used for in each folder within./data folder. -
[Optional] For DeepFashion dataset, we partition seen/unseen classes and training/testing split via:
python ./extract_feature/extract_annotation_DeepFashion.py #create ./data/DeepFashion/annotation.pkl
We have included the result file by default in the repository. Similarly, we have also included the attribute semantics from GloVe model for all datasets which are computed by:
python ./extract_feature/extract_attribute_w2v_DeepFashion.py #create ./w2v/DeepFashion_attribute.pkl
python ./extract_feature/extract_attribute_w2v_AWA2.py #create ./w2v/AWA2_attribute.pkl
python ./extract_feature/extract_attribute_w2v_CUB.py #create ./w2v/CUB_attribute.pkl
python ./extract_feature/extract_attribute_w2v_SUN.py #create ./w2v/SUN_attribute.pkl
- Please run feature extraction scripts in
./extract_featurefolder to extract features from the last convolution layers of ResNet as region features for attention mechanism:
python ./extract_feature/extract_feature_map_ResNet_101_DeepFashion.py #create ./data/DeepFashion/feature_map_ResNet_101_DeepFashion_sep_seen_samples.hdf5
python ./extract_feature/extract_feature_map_ResNet_101_AWA2.py #create ./data/AWA2/feature_map_ResNet_101_AWA2.hdf5
python ./extract_feature/extract_feature_map_ResNet_101_CUB.py #create ./data/CUB/feature_map_ResNet_101_CUB.hdf5
python ./extract_feature/extract_feature_map_ResNet_101_SUN.py #create ./data/SUN/feature_map_ResNet_101_SUN.hdf5
These scripts create hdf5 files which contain image features and data splits for training and evaluation.
- We provide separate jupyter notebooks for training and evaluation on all four datasets in
./notebookfolder:
./notebook/DAZLE_DeepFashion.ipynb
./notebook/DAZLE_AWA2.ipynb
./notebook/DAZLE_CUB.ipynb
./notebook/DAZLE_SUN.ipynb
Since the training process is not resource-intensive, most experiments can be produced within 30mins.
- If you need the pretrained models, please reach out to me via huynh.dat@northeastern.edu
If this code is helpful for your research, we would appreciate if you cite the work:
@article{Huynh-DAZLE:CVPR20,
author = {D.~Huynh and E.~Elhamifar},
title = {Fine-Grained Generalized Zero-Shot Learning via Dense Attribute-Based Attention},
journal = {{IEEE} Conference on Computer Vision and Pattern Recognition},
year = {2020}}
We adapt our dataloader classes from the following project: https://github.com/edgarschnfld/CADA-VAE-PyTorch