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Superclass-class conditional Gaussian mixture model for learning fine-grained embeddings

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Superclass-Conditional Gaussian Mixture Model For Learning Fine-Grained Embeddings (ICLR 2022 Spotlight)

This is the code for the paper "Superclass-Conditional Gaussian Mixture Model for Learning Fine-Grained Embeddings" in ICLR 2022 (pdf). This code provides a demo on BREEDS dataset, and it can be adapted to other datasets including CIFAR-100 and tieredImageNet.

Requirements

The experiments were done using python3.7, with the following packages:

  • learn2learn==0.1.5
  • matplotlib==3.4.2
  • networkx==2.5.1
  • numpy==1.20.3
  • pandas==1.3.0
  • robustness==1.2.1.post2
  • scikit-learn==0.24.2
  • scipy==1.7.0
  • seaborn==0.11.1
  • torch==1.4.0+cu92
  • torchvision==0.5.0+cu92

Datasets

BREEDS Dataset

  1. Download the ImageNet dataset.
  2. Following the official BREEDS repo, run
import os
from robustness.tools.breeds_helpers import setup_breeds
info_dir= "[your_imagenet_path]/ILSVRC/BREEDS"
if not (os.path.exists(info_dir) and len(os.listdir(info_dir))):
    print("Downloading class hierarchy information into `info_dir`")
    setup_breeds(info_dir)
  1. The directory structure is
└── ILSVRC
    ├── Annotations
    │   └── CLS-LOC
    ├── BREEDS
    │   ├── class_hierarchy.txt
    │   ├── dataset_class_info.json
    │   └── node_names.txt
    ├── Data
    │   └── CLS-LOC
    ├── ImageSets
    │   └── CLS-LOC
    └── Meta
        ├── imagenet_class_index.json
        ├── test.json
        ├── wordnet.is_a.txt
        └── words.txt

CIFAR-100 Dataset

CIFAR-100 can be downloaded from [link].

  • Once downloaded, use dataset_cifar.py in dataset/ folder to generate minibatches for model training.

TieredImageNet Dataset

TieredImageNet can be downloaded from [link].

  • Once downloaded, use dataset_tiered_imagenet.py in dataset/ folder to generate minibatches for model training.

Training

First, create a directory to save the pre-trained models.

mkdir pretrain_model

To train SCGM with a generic encoder (i.e., SCGM-G) on Living17 dataset, run

python train_scgm_g.py \
  --data [path to data directory] \
  --workers 32 \
  --epochs 200 \
  --batch_size 256 \
  --hiddim 128 \
  --tau 0.1 \
  --alpha 0.5 \
  --lmd 25 \
  --n-subclass 100 \
  --n-class 17 \
  --dataset living17

To train SCGM with a momentum-based encoder (i.e., SCGM-A) on Living17 dataset, run

python train_scgm_g.py \
  --data [path to data directory] \
  --arch resnet50 \
  --workers 32 \
  --epochs 200 \
  --batch_size 256 \
  --hiddim 128 \
  --queue multi \
  --metric angular \
  --head-type seq_em \
  --cst-t 0.2 \
  --tau1 0.1 \
  --alpha 0.5 \
  --lmd 25 \
  --n-subclass 100 \
  --n-class 17 \
  --dataset living17

The default parameters were set for training on BREEDS dataset. To check the model parameters, run

python train_scgm_g.py -h
python train_scgm_a.py -h

Testing

To test the performance of the pre-trained SCGM-G on the cross-granularity few-shot (CGFS) learning setting, run

python test_scgm_g.py
  --data [path to data directory] \
  --batch_size 256 \
  --n-test-runs 1000 \
  --n-ways 5 \
  --n-shots 1 \
  --n-queries 15 \
  --feat-norm \
  --classifier LR \
  --hiddim 128 \
  --n-subclass 100 \
  --n-class 17 \
  --dataset living17

To test the performance of the pre-trained SCGM-A, run

python test_scgm_a.py
  --data [path to data directory] \
  --arch resnet50 \
  --batch_size 256 \
  --n-test-runs 1000 \
  --n-ways 5 \
  --n-shots 1 \
  --n-queries 15 \
  --feat-norm \
  --classifier LR \
  --hiddim 128 \
  --n-subclass 100 \
  --n-class 17 \
  --dataset living17

Similarly, to test the performance on the fine-grained intra-class setting, run

python test_fg_scgm_g.py
python test_fg_scgm_a.py

Visualization

To visualize the embeddings, include the lines 318 to 340 in train_scgm_g.py and the lines 341 to 363 in train_scgm_a.py.

Citation

@inproceedings{ni2021superclass,
  title={Superclass-Conditional Gaussian Mixture Model For Learning Fine-Grained Embeddings},
  author={Ni, Jingchao and Cheng, Wei and Chen, Zhengzhang and Asakura, Takayoshi and Soma, Tomoya and Kato, Sho and Chen, Haifeng},
  booktitle={International Conference on Learning Representations},
  year={2021}
}

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