If this code helps with your work/research, please consider citing
Rohit Girdhar and Deva Ramanan. Attentional Pooling for Action Recognition. Advances in Neural Information Processing Systems (NIPS), 2017.
@inproceedings{Girdhar_17b_AttentionalPoolingAction,
title = {Attentional Pooling for Action Recognition},
author = {Girdhar, Rohit and Ramanan, Deva},
booktitle = {NIPS},
year = 2017
}This code was trained and tested with
- CentOS 6.5
- Python 2.7
- TensorFlow 1.1.0-rc2 (6a1825e2)
Clone the code and create some directories for outputs
$ git clone --recursive
$ export ROOT=`pwd`/AttentionalPoolingAction
$ cd $ROOT/src/
$ mkdir -p expt_outputs dataYou can download the tfrecord files for MPII I used from
here
and uncompress on to a fast local disk.
If you want to create your own tfrecords, you can use the following steps, which is
what I used to create the linked tfrecord files
Convert the MPII data into tfrecords. The system also can read from individual JPEG files, but that needs a slightly different intial setup.
First download the MPII images and annotations, and un-compress the files.
$ cd $ROOT/utils/dataset_utils
$ # Set the paths for MPII images and annotations file in gen_tfrecord_mpii.py
$ python gen_tfrecord_mpii.py # Will generate the tfrecord filesFirst download and unzip the
pretrained models
to a $ROOT/src/pretrained_models/.
The models can be run by
# Baseline model (no attention)
$ python eval.py --cfg ../experiments/001_MPII_ResNet_pretrained.yaml
# With attention
$ python eval.py --cfg ../experiments/002_MPII_ResNet_pretrained.yaml
# With pose regularized attention
$ python eval.py --cfg ../experiments/003_MPII_ResNet_withPoseAttention_pretrained.yaml| Method | mAP | Accuracy |
|---|---|---|
| Baseline (no attention) | 26.2 | 33.5 |
| With attention | 30.3 | 37.2 |
| With pose regularized attention | 30.6 | 37.8 |
Train a attentional pooled model on MPII dataset, using python train.py --cfg <path to YAML file>.
$ cd $ROOT/src
$ python train.py --cfg ../experiments/002_MPII_ResNet_withAttention.yaml
# To train the model with pose regularized attention, use the following config
$ python train.py --cfg ../experiments/003_MPII_ResNet_withPoseAttention.yaml
# To train the baseline without attention, use the following config
$ python train.py --cfg ../experiments/001_MPII_ResNet.yamlTest the model trained above on the validation set, using python eval.py --cfg <path to YAML file>.
$ python eval.py --cfg ../experiments/002_MPII_ResNet_withAttention.yaml
# To evaluate the model with pose regularized attention
$ python eval.py --cfg ../experiments/003_MPII_ResNet_withPoseAttention.yaml
# To evaluate the model without attention
$ python train.py --cfg ../experiments/001_MPII_ResNet.yamlThe performance of these models should be similar to the above released pre-trained models.
This is for getting the final number on MPII test set.
# Train on the train + val set
$ python train.py --cfg ../experiments/002_MPII_ResNet_withAttention_train+val.yaml
# Test on the test set
$ python eval.py --cfg ../experiments/002_MPII_ResNet_withAttention_train+val.yaml --save
# Convert the output into the MAT files as expected by MPII authors (requires matlab/octave)
$ cd ../utils;
$ bash convert_mpii_result_for_eval.sh ../src/expt_outputs/002_MPII_ResNet_withAttention_train+val.yaml/<filename.h5>
# Now the generated mat file can be emailed to MPII authors for test evaluation