Reinforcement Learning with a Corrupted Reward Channel
Abstract
No real-world reward function is perfect. Sensory errors and software bugs may result in RL agents observing higher (or lower) rewards than they should. For example, a reinforcement learning agent may prefer states where a sensory error gives it the maximum reward, but where the true reward is actually small. We formalise this problem as a generalised Markov Decision Problem called Corrupt Reward MDP. Traditional RL methods fare poorly in CRMDPs, even under strong simplifying assumptions and when trying to compensate for the possibly corrupt rewards. Two ways around the problem are investigated. First, by giving the agent richer data, such as in inverse reinforcement learning and semi-supervised reinforcement learning, reward corruption stemming from systematic sensory errors may sometimes be completely managed. Second, by using randomisation to blunt the agent's optimisation, reward corruption can be partially managed under some assumptions.
Cite
Text
Everitt et al. "Reinforcement Learning with a Corrupted Reward Channel." International Joint Conference on Artificial Intelligence, 2017. doi:10.24963/IJCAI.2017/656Markdown
[Everitt et al. "Reinforcement Learning with a Corrupted Reward Channel." International Joint Conference on Artificial Intelligence, 2017.](https://mlanthology.org/ijcai/2017/everitt2017ijcai-reinforcement/) doi:10.24963/IJCAI.2017/656BibTeX
@inproceedings{everitt2017ijcai-reinforcement,
title = {{Reinforcement Learning with a Corrupted Reward Channel}},
author = {Everitt, Tom and Krakovna, Victoria and Orseau, Laurent and Legg, Shane},
booktitle = {International Joint Conference on Artificial Intelligence},
year = {2017},
pages = {4705-4713},
doi = {10.24963/IJCAI.2017/656},
url = {https://mlanthology.org/ijcai/2017/everitt2017ijcai-reinforcement/}
}