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Zero-shot GCN

This code is a re-implementation of the zero-shot classification in ImageNet in the paper Zero-shot Recognition via Semantic Embeddings and Knowledge Graphs. The code is developed based on the TensorFlow framework and the Graph Convolutional Network (GCN) repo.

Our pipeline consists of two parts: CNN and GCN.

  • CNN: Input an image and output deep features for the image.
  • GCN: Input the word embedding for every object class, and output the visual classifier for every object class. Each visual classifier (1-D weight vector) can be applied on the deep features for classification.

Citation

If you use our code in your research or wish to refer to the benchmark results, please use the following BibTeX entry.

@article{wang2018zero,
  title={Zero-shot Recognition via Semantic Embeddings and Knowledge Graphs},
  author={Wang, Xiaolong and Ye, Yufei and Gupta, Abhinav},
  journal={CVPR},
  year={2018}
}

Using Our Code

git clone [email protected]:JudyYe/zero-shot-gcn.git
cd zero-shot-gcn/src

Without further specification, we default the root directory to zero-shot-gcn/src.

Dataset Preparation

Please read DATASET.md for downloading images and extracting image features.

Testing Demo

With extracted feature and semantic embeddings, at this point, we can perform zero-shot classification with the model we provide.

wget -O ../data/wordnet_resnet_glove_feat_2048_1024_512_300 https://www.dropbox.com/s/e7jg00nx0h2gbte/wordnet_resnet_glove_feat_2048_1024_512_300?dl=0
python test_imagenet.py --model ../data/wordnet_resnet_glove_feat_2048_1024_512_300

The above line defaults to res50 + 2-hops combination and test under two settings: unseen classes with or without seen classes. (see the paper for further explaination.)

We also provide other configurations. Please refer to the code for details.

Main Results

We report the results with the above testing demo code (using ResNet-50 visual features and GloVe word embeddings). All experiments are conducted with the ImageNet dataset.

We first report the results on testing with only unseen classes. We compare our method with the state-of-the-art method SYNC in this benchmark.

ImageNet Subset Method top 1 top 2 top 5 top 10 top 20
2-hops SYNC
GCNZ (Ours)
10.5
21.0
17.7
33.7
28.6
52.7
40.1
64.8
52.0
74.3
3-hops SYNC
GCNZ (Ours)
2.9
4.3
4.9
7.7
9.2
14.2
14.2
20.4
20.9
27.6
All SYNC
GCNZ (Ours)
1.4
1.9
2.4
3.4
4.5
6.4
7.1
9.3
10.9
12.7

We then report the results under the generalized zero-shot setting, i.e. testing with both unseen and seen classes. We compare our method with the state-of-the-art method ConSE in this benchmark.

ImageNet Subset Method top 1 top 2 top 5 top 10 top 20
2-hops (+1K) ConSE
GCNZ (Ours)
0.1
10.2
11.2
21.2
24.3
42.1
29.1
56.2
32.7
67.5
3-hops (+1K) ConSE
GCNZ (Ours)
0.2
2.4
3.2
5.3
7.3
12.0
10.0
18.2
12.2
25.4
All (+1K) ConSE
GCNZ (Ours)
0.1
1.1
1.5
2.4
3.5
5.4
4.9
8.3
6.2
11.7

We also visualize the t-SNE plots of GCN inputs and outputs for two subtrees of WordNet as followings.

synset word t-SNE of input word embeddings t-SNE of output visual classifiers
instrumentality
instrumentation
animal,
animate being,
beast, brute,
creature, fauna

Training

As DATASET.md illustrates, convert_to_gcn_data.py prepares data to train GCN. It supports two CNN network fc = res50 or inception, and three semantic embedding wv = glove or google or fasttext. The output will be saved to ../data/$wv_$fc/

python convert_to_gcn_data.py --fc res50 --wv glove

After preparing the data, we can start training by using:

python gcn/train_gcn.py --gpu $GPU_ID 	--dataset ../data/glove_res50/ --save_path $SAVE_PATH

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Zero-Shot Learning with GCN (CVPR 2018)

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