By Mitchell Wortsman, Kiana Ehsani, Mohammad Rastegari, Ali Farhadi and Roozbeh Mottaghi (Oral Presentation at CVPR 2019).
CVPR 2019 Paper | Video | BibTex
Intuition | Examples |
---|---|
There is a lot to learn about a task by actually attempting it! Learning is continuous, i.e. we learn as we perform. Traditional navigation approaches freeze the model during inference (top row in the intuition figure above). In this paper, we propose a self-addaptive agent for visual navigation that learns via self-supervised interaction with the environment (bottom row in the intuition figure above).
If you find this project useful in your research, please consider citing:
@InProceedings{Wortsman_2019_CVPR,
author={Mitchell Wortsman and Kiana Ehsani and Mohammad Rastegari and Ali Farhadi and Roozbeh Mottaghi},
title={Learning to Learn How to Learn: Self-Adaptive Visual Navigation Using Meta-Learning},
booktitle = {The IEEE Conference on Computer Vision and Pattern Recognition (CVPR)},
month = {June},
year = {2019}
}
Model | SPL ≥ 1 | Success ≥ 1 | SPL ≥ 5 | Success ≥ 5 |
---|---|---|---|---|
SAVN | 16.15 ± 0.5 | 40.86 ± 1.2 | 13.91 ± 0.5 | 28.70 ± 1.5 |
Scene Priors | 15.47 ± 1.1 | 35.13 ± 1.3 | 11.37 ± 1.6 | 22.25 ± 2.7 |
Non-Adaptive A3C | 14.68 ± 1.8 | 33.04 ± 3.5 | 11.69 ± 1.9 | 21.44 ± 3.0 |
-
Clone the repository with
git clone https://github.com/allenai/savn.git && cd savn
. -
Install the necessary packages. If you are using pip then simply run
pip install -r requirements.txt
. -
Download the pretrained models and data to the
savn
directory. Untar with
tar -xzf pretrained_models.tar.gz
tar -xzf data.tar.gz
The data
folder contains:
thor_offline_data
which is organized into sub-folders, each of which corresponds to a scene in AI2-THOR. For each room we have scraped the ResNet features of all possible locations in addition to a metadata and NetworkX graph of possible navigations in the scene.thor_glove
which contains the GloVe embeddings for the navigation targets.gcn
which contains the necessary data for the Graph Convolutional Network (GCN) in Scene Priors, including the adjacency matrix.
Note that the starting positions and scenes for the test and validation set may be found in test_val_split
.
If you wish to access the RGB images in addition to the ResNet features, replace thor_offline_data
with thor_offlline_data_with_images. If you wish to run your model on the image files,
add the command line argument --images_file_name images.hdf5
.
Use the following code to run the pretrained models on the test set. Add the argument --gpu-ids 0 1
to speed up the evaluation by using GPUs.
python main.py --eval \
--test_or_val test \
--episode_type TestValEpisode \
--load_model pretrained_models/savn_pretrained.dat \
--model SAVN \
--results_json savn_test.json
cat savn_test.json
python main.py --eval \
--test_or_val test \
--episode_type TestValEpisode \
--load_model pretrained_models/gcn_pretrained.dat \
--model GCN \
--glove_dir ./data/gcn \
--results_json scene_priors_test.json
cat scene_priors_test.json
python main.py --eval \
--test_or_val test \
--episode_type TestValEpisode \
--load_model pretrained_models/nonadaptivea3c_pretrained.dat \
--results_json nonadaptivea3c_test.json
cat nonadaptivea3c_test.json
The result may vary depending on system and set-up though we obtain:
Model | SPL ≥ 1 | Success ≥ 1 | SPL ≥ 5 | Success ≥ 5 |
---|---|---|---|---|
SAVN | 16.13 | 42.20 | 14.30 | 30.09 |
Scene Priors | 14.86 | 36.90 | 11.49 | 24.70 |
Non-Adaptive A3C | 14.10 | 32.40 | 10.73 | 19.16 |
The results in the initial submission (shown below) were the best (in terms of success on the validation set). After the initial submission, we trained the model 5 times from scratch to obtain error bars, which you may find in results.
Model | SPL ≥ 1 | Success ≥ 1 | SPL ≥ 5 | Success ≥ 5 |
---|---|---|---|---|
SAVN | 16.13 | 42.10 | 13.19 | 30.54 |
Non-Adaptive A3C | 13.73 | 32.90 | 10.88 | 20.66 |
You may train your own models by using the commands below.
python main.py \
--title savn_train \
--model SAVN \
--gpu-ids 0 1 \
--workers 12
python main.py \
--title nonadaptivea3c_train \
--gpu-ids 0 1 \
--workers 12
You may use the following commands for evaluating models you have trained.
python full_eval.py \
--title savn \
--model SAVN \
--results_json savn_results.json \
--gpu-ids 0 1
cat savn_results.json
python full_eval.py \
--title nonadaptivea3c \
--results_json nonadaptivea3c_results.json \
--gpu-ids 0 1
cat nonadaptivea3c_results.json
python main.py \
--eval \
--test_or_val test \
--episode_type TestValEpisode \
--title random_test \
--agent_type RandomNavigationAgent \
--results_json random_results.json
cat random_results.json