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arxiv: 2505.16925 · v2 · pith:CI26NMO4new · submitted 2025-05-22 · 💻 cs.LG

Risk-Averse Reinforcement Learning with Itakura-Saito Loss

classification 💻 cs.LG
keywords learningfunctionlossreinforcementitakura-saitorisk-aversealternativesexpected
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Risk-averse reinforcement learning finds application in various high-stakes fields. Unlike classical reinforcement learning, which aims to maximize expected returns, risk-averse agents choose policies that minimize risk, occasionally sacrificing expected value. These preferences can be framed through utility theory. We focus on the specific case of the exponential utility function, where one can derive the Bellman equations and employ various reinforcement learning algorithms with few modifications. To address this, we introduce to the broad machine learning community a numerically stable and mathematically sound loss function based on the Itakura-Saito divergence for learning state-value and action-value functions. We evaluate the Itakura-Saito loss function against established alternatives, both theoretically and empirically. In the experimental section, we explore multiple scenarios, some with known analytical solutions, and show that the considered loss function outperforms the alternatives.

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