Provably Efficient Iterated CVaR Reinforcement Learning with Function Approximation and Human Feedback
Abstract
Risk-sensitive reinforcement learning (RL) aims to optimize policies that balance the expected reward and risk. In this paper, we present a novel risk-sensitive RL framework that employs an Iterated Conditional Value-at-Risk (CVaR) objective under both linear and general function approximations, enriched by human feedback. These new formulations provide a principled way to guarantee safety in each decision making step throughout the control process. Moreover, integrating human feedback into risk-sensitive RL framework bridges the gap between algorithmic decision-making and human participation, allowing us to also guarantee safety for human-in-the-loop systems. We propose provably sample-efficient algorithms for this Iterated CVaR RL and provide rigorous theoretical analysis. Furthermore, we establish a matching lower bound to corroborate the optimality of our algorithms in a linear context.
Cite
Text
Chen et al. "Provably Efficient Iterated CVaR Reinforcement Learning with Function Approximation and Human Feedback." International Conference on Learning Representations, 2024.Markdown
[Chen et al. "Provably Efficient Iterated CVaR Reinforcement Learning with Function Approximation and Human Feedback." International Conference on Learning Representations, 2024.](https://mlanthology.org/iclr/2024/chen2024iclr-provably/)BibTeX
@inproceedings{chen2024iclr-provably,
title = {{Provably Efficient Iterated CVaR Reinforcement Learning with Function Approximation and Human Feedback}},
author = {Chen, Yu and Du, Yihan and Hu, Pihe and Wang, Siwei and Wu, Desheng and Huang, Longbo},
booktitle = {International Conference on Learning Representations},
year = {2024},
url = {https://mlanthology.org/iclr/2024/chen2024iclr-provably/}
}