Published at ICLR 2020 [OpenReview] [Video] [PDF]
This repo provides a reference implementation for active affordance learning, which can be employed to improve autonomous navigation performance in hazardous environments (demonstrated here using the VizDoom simulator). The repo also contains a variety of convenient utilities that can be re-used in other VizDoom-based projects to improve quality of life.
This code has been tested on Ubuntu 16.04.
- python >= 3.5
- keras >= 2.2.0
- opencv-python >= 3.4.0
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Install VizDoom simulator into local Python environment.
# Install ZDoom dependencies sudo apt-get install build-essential zlib1g-dev libsdl2-dev libjpeg-dev \ nasm tar libbz2-dev libgtk2.0-dev cmake git libfluidsynth-dev libgme-dev \ libopenal-dev timidity libwildmidi-dev unzip # Install Boost libraries sudo apt-get install libboost-all-dev # Install Python 3 dependencies sudo apt-get install python3-dev python3-pip pip install numpy
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Install Keras-based segmentation-models library.
pip install segmentation-models
In order to download the demo data (which contains train/test maps, pre-computed train beacons, and a pre-trained A2L model), follow the steps below:
-
Download the demo data into the root of the repo and uncompress using the following commands:
wget https://www.dropbox.com/s/0hn71njit81xiy7/demo_data.tar.gz tar -xvzf demo_data.tar.gz
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Check that the directory structure looks like the following:
βββ data β βββ beacons β βββ configs β βββ experiments β βββ maps β βββ samples β βββ models
Each executable script included in this repo is prefixed with run in its file name. For a detailed description of all possible configuration arguments, please run with the -h
flag.
The following sequence of commands are used to generate a configurable number of partially-labeled examples of navigability in a self-supervised manner. This should work with any set of maps that are compatible with VizDoom.
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Generate a set of beacons for each map - which describe valid spawn points from which the agent can start a sampling episode.
python preprocess/run_beacon_generation.py --wad-dir ../data/maps/train/ --save-dir ../data/beacons/train/
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Generate a configurable number of self-supervised examples per map.
python train/run_data_sampling.py --wad-dir ../data/maps/train/ --beacon-dir ../data/beacons/train/ --save-dir ../data/samples/train/ --samples-per-map 500
The following command is used to train a ResNet-18-based UNet segmentation model to predict pixel-wise navigability.
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Train UNet-based segmentation model.
python train/run_train_model.py --data-dir ../data/samples/train/ --save-dir ../data/models/ --epochs 50 --batch-size 40
The following command is used to train a ResNet-18-based UNet segmentation model using active affordance learning. The script alternates between data generation and model training, using trained seed models to actively seek out difficult examples.
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Train UNet-based segmentation model using active affordance learning.
python train/run_train_A2L.py --wad-dir ../data/maps/train --beacon-dir ../data/beacons/train --save-dir ../data/models/active --active-iterations 5 --samples-per-map 500 --epochs 50 --batch-size 40
The following command is used to evaluate the performance of an affordance-based agent in a goal-directed navigation task. It can also be used to evaluate a geometry-based agent by dropping the --model-path
argument.
- Run navigation experiments specified using JSON file.
python eval/run_eval_navigation.py --wad-dir ../data/maps/test --model-path ../data/models/seg_model.h5 --experiment-path ../data/experiments/navigation/demo.json --iterations 5
If you've found this code to be useful, please consider citing our paper!
@inproceedings{qi2020learning,
title={Learning to Move with Affordance Maps},
author={Qi, William and Mullapudi, Ravi Teja and Gupta, Saurabh and Ramanan, Deva},
booktitle={International Conference on Learning Representations (ICLR)},
year={2020}
}
If you have additional questions/concerns, please feel free to reach out to [email protected].