首页|Return Capping: Sample-Efficient CVaR Policy Gradient Optimisation

Return Capping: Sample-Efficient CVaR Policy Gradient Optimisation

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英文摘要

When optimising for conditional value at risk (CVaR) using policy gradients (PG), current methods rely on discarding a large proportion of trajectories, resulting in poor sample efficiency. We propose a reformulation of the CVaR optimisation problem by capping the total return of trajectories used in training, rather than simply discarding them, and show that this is equivalent to the original problem if the cap is set appropriately. We show, with empirical results in an number of environments, that this reformulation of the problem results in consistently improved performance compared to baselines.

作者：Harry Mead、Clarissa Costen、Bruno Lacerda、Nick Hawes

作者单位：

学科分类：计算技术、计算机技术

推荐引用：Harry Mead,Clarissa Costen,Bruno Lacerda,Nick Hawes.Return Capping: Sample-Efficient CVaR Policy Gradient Optimisation[EB/OL].(2025-04-29)[2025-05-21].https://arxiv.org/abs/2504.20887.点此复制

Return Capping: Sample-Efficient CVaR Policy Gradient Optimisation

Return Capping: Sample-Efficient CVaR Policy Gradient Optimisation

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