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Spatially Aware Multimodal Transformers for TextVQA

Yash Kant, Dhruv Batra, Peter Anderson, Alex Schwing, Devi Parikh, Jiasen Lu, Harsh Agrawal
Published at ECCV, 2020


Paper: arxiv.org/abs/2007.12146

Project Page: yashkant.github.io/projects/sam-textvqa

We propose a novel spatially aware self-attention layer such that each visual entity only looks at neighboring entities defined by a spatial graph and use it to solve TextVQA.

Repository Setup

Create a fresh conda environment, and install all dependencies.

conda create -n sam python=3.6
conda activate sam
cd sam-textvqa
pip install -r requirements.txt

Install pytorch

conda install pytorch torchvision cudatoolkit=10.0 -c pytorch

Finally, install apex from: https://github.com/NVIDIA/apex

Data Setup

Download files from the dropbox link and place it in the data/ folder. Ensure that data paths match the directory structure provided in data/README.md

Run Experiments

From the below table pick the suitable configuration file:

Method context (c) Train splits Evaluation Splits Config File
SA-M4C 3 TextVQA TextVQA train-tvqa-eval-tvqa-c3.yml
SA-M4C 3 TextVQA + STVQA TextVQA train-tvqa_stvqa-eval-tvqa-c3.yml
SA-M4C 3 STVQA STVQA train-stvqa-eval-stvqa-c3.yml
SA-M4C 5 TextVQA TextVQA train-tvqa-eval-tvqa-c5.yml

To run the experiments use:

python train.py \
--config config.yml \
--tag experiment-name

To evaluate the pretrained checkpoint provided use:

python train.py \
--config configs/train-tvqa_stvqa-eval-tvqa-c3.yml \
--pretrained_eval data/pretrained-models/best_model.tar

Note: The beam-search evaluation is undergoing changes and will be updated.

Resources Used: We ran all the experiments on 2 Titan Xp gpus.

Citation

@inproceedings{kant2020spatially,
  title={Spatially Aware Multimodal Transformers for TextVQA},
  author={Kant, Yash and Batra, Dhruv and Anderson, Peter 
          and Schwing, Alexander and Parikh, Devi and Lu, Jiasen
          and Agrawal, Harsh},
  booktitle={ECCV}
  year={2020}}

Acknowledgements

Parts of this codebase were borrowed from the following repositories:

We thank Abhishek Das, Abhinav Moudgil for their feedback and Ronghang Hu for sharing an early version of his work. The Georgia Tech effort was supported in part by NSF, AFRL, DARPA, ONR YIPs, ARO PECASE, Amazon. The views and conclusions contained herein are those of the authors and should not be interpreted as necessarily representing the official policies or endorsements, either expressed or implied, of the U.S. Government, or any sponsor.

License

MIT