DSNet: A Flexible Detect-to-Summarize Network for Video Summarization [paper]
A PyTorch implementation of our paper DSNet: A Flexible Detect-to-Summarize Network for Video Summarization by Wencheng Zhu, Jiwen Lu, Jiahao Li, and Jie Zhou. Published in IEEE Transactions on Image Processing.
This project is developed on Ubuntu 16.04 with CUDA 9.0.176.
First, clone this project to your local environment.
git clone https://github.com/li-plus/DSNet.gitCreate a virtual environment with python 3.6, preferably using Anaconda.
conda create --name dsnet python=3.6
conda activate dsnetInstall python dependencies.
pip install -r requirements.txtDownload the pre-processed datasets into datasets/ folder, including TVSum, SumMe, OVP, and YouTube datasets.
mkdir -p datasets/ && cd datasets/
wget https://www.dropbox.com/s/tdknvkpz1jp6iuz/dsnet_datasets.zip
unzip dsnet_datasets.zipIf the Dropbox link is unavailable to you, try downloading from below links.
- (Baidu Cloud) Link: https://pan.baidu.com/s/1LUK2aZzLvgNwbK07BUAQRQ Extraction Code: x09b
- (Google Drive) https://drive.google.com/file/d/11ulsvk1MZI7iDqymw9cfL7csAYS0cDYH/view?usp=sharing
Now the datasets structure should look like
DSNet
└── datasets/
├── eccv16_dataset_ovp_google_pool5.h5
├── eccv16_dataset_summe_google_pool5.h5
├── eccv16_dataset_tvsum_google_pool5.h5
├── eccv16_dataset_youtube_google_pool5.h5
└── readme.txt
Our pre-trained models are now available online. You may download them for evaluation, or you may skip this section and train a new one from scratch.
mkdir -p models && cd models
# anchor-based model
wget https://www.dropbox.com/s/0jwn4c1ccjjysrz/pretrain_ab_basic.zip
unzip pretrain_ab_basic.zip
# anchor-free model
wget https://www.dropbox.com/s/2hjngmb0f97nxj0/pretrain_af_basic.zip
unzip pretrain_af_basic.zipTo evaluate our pre-trained models, type:
# evaluate anchor-based model
python evaluate.py anchor-based --model-dir ../models/pretrain_ab_basic/ --splits ../splits/tvsum.yml ../splits/summe.yml
# evaluate anchor-free model
python evaluate.py anchor-free --model-dir ../models/pretrain_af_basic/ --splits ../splits/tvsum.yml ../splits/summe.yml --nms-thresh 0.4If everything works fine, you will get similar F-score results as follows.
| TVSum | SumMe | |
|---|---|---|
| Anchor-based | 62.05 | 50.19 |
| Anchor-free | 61.86 | 51.18 |
To train anchor-based attention model on TVSum and SumMe datasets with canonical settings, run
python train.py anchor-based --model-dir ../models/ab_basic --splits ../splits/tvsum.yml ../splits/summe.ymlTo train on augmented and transfer datasets, run
python train.py anchor-based --model-dir ../models/ab_tvsum_aug/ --splits ../splits/tvsum_aug.yml
python train.py anchor-based --model-dir ../models/ab_summe_aug/ --splits ../splits/summe_aug.yml
python train.py anchor-based --model-dir ../models/ab_tvsum_trans/ --splits ../splits/tvsum_trans.yml
python train.py anchor-based --model-dir ../models/ab_summe_trans/ --splits ../splits/summe_trans.ymlTo train with LSTM, Bi-LSTM or GCN feature extractor, specify the --base-model argument as lstm, bilstm, or gcn. For example,
python train.py anchor-based --model-dir ../models/ab_basic --splits ../splits/tvsum.yml ../splits/summe.yml --base-model lstmMuch similar to anchor-based models, to train on canonical TVSum and SumMe, run
python train.py anchor-free --model-dir ../models/af_basic --splits ../splits/tvsum.yml ../splits/summe.yml --nms-thresh 0.4Note that NMS threshold is set to 0.4 for anchor-free models.
To evaluate your anchor-based models, run
python evaluate.py anchor-based --model-dir ../models/ab_basic/ --splits ../splits/tvsum.yml ../splits/summe.ymlFor anchor-free models, remember to specify NMS threshold as 0.4.
python evaluate.py anchor-free --model-dir ../models/af_basic/ --splits ../splits/tvsum.yml ../splits/summe.yml --nms-thresh 0.4Based on the public datasets provided by DR-DSN, we apply KTS algorithm to generate video shots for OVP and YouTube datasets. Note that the pre-processed datasets already contain these video shots. To re-generate video shots, run
python make_shots.py --dataset ../datasets/eccv16_dataset_ovp_google_pool5.h5
python make_shots.py --dataset ../datasets/eccv16_dataset_youtube_google_pool5.h5We provide scripts to pre-process custom video data, like the raw videos in custom_data folder.
First, create an h5 dataset. Here --video-dir contains several MP4 videos, and --label-dir contains ground truth user summaries for each video. The user summary of a video is a UxN binary matrix, where U denotes the number of annotators and N denotes the number of frames in the original video.
python make_dataset.py --video-dir ../custom_data/videos --label-dir ../custom_data/labels \
--save-path ../custom_data/custom_dataset.h5 --sample-rate 15Then split the dataset into training and validation sets and generate a split file to index them.
python make_split.py --dataset ../custom_data/custom_dataset.h5 \
--train-ratio 0.67 --save-path ../custom_data/custom.ymlNow you may train on your custom videos using the split file.
python train.py anchor-based --model-dir ../models/custom --splits ../custom_data/custom.yml
python evaluate.py anchor-based --model-dir ../models/custom --splits ../custom_data/custom.ymlTo predict the summary of a raw video, use infer.py. For example, run
python infer.py anchor-based --ckpt-path ../models/custom/checkpoint/custom.yml.0.pt \
--source ../custom_data/videos/EE-bNr36nyA.mp4 --save-path ./output.mp4We gratefully thank the below open-source repo, which greatly boost our research.
- Thank KTS for the effective shot generation algorithm.
- Thank DR-DSN for the pre-processed public datasets.
- Thank VASNet for the training and evaluation pipeline.
If you find our codes or paper helpful, please consider citing.
@article{zhu2020dsnet,
title={DSNet: A Flexible Detect-to-Summarize Network for Video Summarization},
author={Zhu, Wencheng and Lu, Jiwen and Li, Jiahao and Zhou, Jie},
journal={IEEE Transactions on Image Processing},
volume={30},
pages={948--962},
year={2020}
}