This is the PyTorch implementation for the ECCV 2020 paper: Stochastic Fine-grained Labeling of Multi-state Sign Glosses for Continuous Sign Language Recognition.
pip install git+https://github.com/zheniu/stochastic-cslr
Also, you need to install sclite
for evaluation. Take a look at step 2 for instructions.
- Download the RWTH-PHOENIX-2014 dataset here.
- Unzip it and obtain the path to
phoenix-2014-multisigner/
folder for later use. - Install
sclite
for evaluation. Checkphoenix-2014-multisigner/evaluation/NIST-sclite_sctk-2.4.0-20091110-0958.tar.bz2
for detail. - After installing
sclite
, put it in yourPATH
.
You can use the script quick_test.py
for a quick test.
python3 quick_test.py --data-root your_path_to/phoenix-2014-multisigner
By specifying the model type --model sfl/dfl
, the data split --split dev/test
, whether to use a language model--use-lm
, you can get the following results:
Model | WER (dev) | sub/del/ins (dev) | WER (test) | sub/del/ins (test) |
---|---|---|---|---|
DFL | 27.1 | 12.7/7.4/7.0 | 27.7 | 13.8/7.3/6.6 |
SFL | 26.2 | 12.7/6.9/6.7 | 26.6 | 13.7/6.5/6.4 |
DFL + LM | 25.6 | 11.5/9.2/4.9 | 26.4 | 12.4/9.3/4.7 |
SFL + LM | 24.3 | 11.4/8.5/4.4 | 25.3 | 12.4/8.5/4.3 |
Note that these results are slightly different from the paper as a different random seed is used.
You may also take a look at quick_test.py
as it shows how to use the pretrained models.
The configuration files for deterministic and stochastic fine-grained labeling are put under config/
. The training script is based on a PyTorch experiment runner torchzq, which automatically reads the hyperparameters in the YAML file and passes them to stochastic_cslr/runner.py
.
Before running, change the data_root
in the YAML configurations to phoenix-2014-multisigner/
first.
tzq config/dfl-fp16.yml train
tzq config/dfl-fp16.yml test
You may cite this work by:
@inproceedings{niu2020stochastic,
title={Stochastic Fine-Grained Labeling of Multi-state Sign Glosses for Continuous Sign Language Recognition},
author={Niu, Zhe and Mak, Brian},
booktitle={European Conference on Computer Vision},
pages={172--186},
year={2020},
organization={Springer}
}