This is the PyTorch implementation of accepted AAAI 2021 paper: Deep Unsupervised Image Hashing by Maximizing Bit Entropy
A simple, parameter-free, bi-half coding layer to maximize hash channel capacity |
Experiments on 5 image datasets: Flickr25k, Nus-wide, Cifar-10, Mscoco, Mnist, and 2 video datasets: Ucf-101 and Hmdb-51. According to different settings, we divided them into: i) Train an AutoEncoder on Mnist; ii) Image Hashing on Flickr25k, Nus-wide, Cifar-10, Mscoco using Pre-trained Vgg; iii) Video Hashing on Ucf-101 and Hmdb-51 using Pre-trained 3D models.
3 settings ── AutoEncoder ── ── ── ── ImageHashing ── ── ── ── VideoHashing
├── Sign.py ├── Cifar10_I.py └── main.py
├── SignReg.py ├── Cifar10_II.py
└── BiHalf.py ├── Flickr25k.py
└── Mscoco.py
# | Datasets | Download |
---|---|---|
1 | Flick25k | Link |
2 | Mscoco | Link |
3 | Nuswide | Link |
4 | Cifar10 | Link |
5 | Mnist | Link |
6 | Ucf101 | Link |
7 | Hmdb51 | Link |
For video datasets, we converted them from avi to jpg files. The original avi videos can be download: Ucf101 and Hmdb51.
For the video datasets ucf101 and hmdb51, to generate a training sample, we first select a video frame by uniform sampling, and then generate a 16-frame clip around the frame. If the selected position has less than 16 frames before the video ends, then we repeat the procedure until it fits. We spatially resize the cropped sample to 112 x 112 pixels, resulting in one training sample with size of 3 channels x 16 frames x 112 pixels x 112 pixels. In the retrieval, we adopt sliding window to generate clips as input, i.e, each video is split into non-overlapping 16-frame clips. Each video has an average 92 non-overlapped clips. Take the ucf101 for example, we obtain a query set of 3,783 videos containing 348,047 non-overlapped clips, and the retrieval set of 9,537 videos containing 891,961 clips. We then input the non-overlapped clips to extract binary descriptors for hashing. For more details, please see the paper.
You can download kinetics pre-trained 3D models: ResNet-34 and ResNet-101 here.
The continuous feature visualization on an AutoEncoder using Mnist. We compare 3 different models: sign layer, sign+reg and our bi-half layer.
Sign Layer | Sign + Reg | Bi-half Layer |
If you find the code in this repository useful for your research consider citing it.
@article{liAAAI2021,
title={Deep Unsupervised Image Hashing by Maximizing Bit Entropy},
author={Li, Yunqiang and van Gemert, Jan},
journal={AAAI},
year={2021}
}
If you have any problem about our code, feel free to contact