Scalable Bayesian Inverse Reinforcement Learning
Alex J. Chan and Mihaela van der Schaar
International Conference on Learning Representations (ICLR) 2021
Last Updated: 2 March 2021
Code Author: Alex J. Chan (ajc340@cam.ac.uk)
This repo contains a JAX based implementation of the Approximate Variational Reward Imitation Learning (AVRIL) algorithm. The code is ready to run on the control environments in the OpenAI Gym, with pre-run expert trajectories stored in the volume folder.
This repo is pip installable - clone it, optionally create a virtual env, and install it (this will automatically install dependencies):
git clone https://github.com/XanderJC/scalable-birl.git
cd scalable-birl
pip install -e .Example usage:
from sbirl import avril, load_data
# First setup the data, I have provided a helper function for dealing
# with the OpenAI gym control environemnts
inputs,targets,a_dim,s_dim = load_data('CartPole-v1',num_trajs=15)
# However, AVRIL can handle any data appropriately formatted, that is inputs
# that are (state,next_state) pairs and targets that are (action, next_action)
# pairs:
# inputs = [num_pairs x 2 x state_dimension]
# targets = [num_pairs x 2 x 1]
# You can define the reward to be state-only or state-action depending on use
agent = avril(inputs,targets,s_dim,a_dim,state_only=True)
# Train for set number of iterations with desired batch-size
agent.train(iters=5000,batch_size=64)
# Now test by rolling out in the live Gym environment
agent.gym_test('CartPole-v1')We can see the trained agent can now balance the pole:
This example can be run simply from the shell using:
python sbirl/models.pyCiting
If you use this software please cite as follows:
@inproceedings{chan2021scalable,
title={Scalable {B}ayesian Inverse Reinforcement Learning},
author={Alex James Chan and Mihaela van der Schaar},
booktitle={International Conference on Learning Representations},
year={2021},
url={https://openreview.net/forum?id=4qR3coiNaIv}
}