Code for the AAAI18 paper PixelLink: Detecting Scene Text via Instance Segmentation, by Dan Deng, Haifeng Liu, Xuelong Li, and Deng Cai.
Contributions to this repo are welcome, e.g., some other backbone networks (including the model definition and pretrained models).
PLEASE CHECK EXSITING ISSUES BEFORE OPENNING YOUR OWN ONE. IF A SAME OR SIMILAR ISSUE HAD BEEN POSTED BEFORE, JUST REFER TO IT, AND DO NO OPEN A NEW ONE.
git clone --recursive git@github.com:ZJULearning/pixel_link.git
Denote the root directory path of pixel_link by ${pixel_link_root}
.
Add the path of ${pixel_link_root}/pylib/src
to your PYTHONPATH
:
export PYTHONPATH=${pixel_link_root}/pylib/src:$PYTHONPATH
(Only tested on) Ubuntu14.04 and 16.04 with:
- Python 2.7
- Tensorflow-gpu >= 1.1
- opencv2
- setproctitle
- matplotlib
Anaconda is recommended to for an easier installation:
- Install Anaconda
- Create and activate the required virtual environment by:
conda env create --file pixel_link_env.txt
source activate pixel_link
- PixelLink + VGG16 4s Baidu Netdisk | GoogleDrive, trained on IC15
- PixelLink + VGG16 2s Baidu Netdisk | GoogleDrive, trained on IC15
Unzip the downloaded model. It contains 4 files:
- config.py
- model.ckpt-xxx.data-00000-of-00001
- model.ckpt-xxx.index
- model.ckpt-xxx.meta
Denote their parent directory as ${model_path}
.
The reported results on ICDAR2015 are:
Model | Recall | Precision | F-mean |
---|---|---|---|
PixelLink+VGG16 2s | 82.0 | 85.5 | 83.7 |
PixelLink+VGG16 4s | 81.7 | 82.9 | 82.3 |
Suppose you have downloaded the ICDAR2015 dataset, execute the following commands to test the model on ICDAR2015:
cd ${pixel_link_root}
./scripts/test.sh ${GPU_ID} ${model_path}/model.ckpt-xxx ${path_to_icdar2015}/ch4_test_images
For example:
./scripts/test.sh 3 ~/temp/conv3_3/model.ckpt-38055 ~/dataset/ICDAR2015/Challenge4/ch4_test_images
The program will create a zip file of detection results, which can be submitted to the ICDAR2015 server directly.
The detection results can be visualized via scripts/vis.sh
.
Put the images to be tested in a single directory, i.e., ${image_dir}
. Then:
cd ${pixel_link_root}
./scripts/test_any.sh ${GPU_ID} ${model_path}/model.ckpt-xxx ${image_dir}
For example:
./scripts/test_any.sh 3 ~/temp/conv3_3/model.ckpt-38055 ~/dataset/ICDAR2015/Challenge4/ch4_training_images
The program will visualize the detection results directly on images. If the detection result is not satisfying, try to:
- Adjust the inference parameters like
eval_image_width
,eval_image_height
,pixel_conf_threshold
,link_conf_threshold
. - Or train your own model.
Scripts for converting ICDAR2015 and SynthText datasets have been provided in the datasets
directory.
It not hard to write a converting script for your own dataset.
- Modify
scripts/train.sh
to configure your dataset name and dataset path like:
DATASET=icdar2015
DATASET_DIR=$HOME/dataset/pixel_link/icdar2015
- Start training
./scripts/train.sh ${GPU_IDs} ${IMG_PER_GPU}
For example, ./scripts/train.sh 0,1,2 8
.
The existing training strategy in scripts/train.sh
is configured for icdar2015, modify it if necessary. A lot of training or model options are available in config.py
, try it yourself if you are interested.