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Reinforcement Learning via Value Gradient Flow

Haoran Xu, Kaiwen Hu, Somayeh Sojoudi, Amy Zhang

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huggingface Score 11.5

Published 2026-04-15 · First seen 2026-04-18

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Abstract

We study behavior-regularized reinforcement learning (RL), where regularization toward a reference distribution (the dataset in offline RL or the base model in LLM RL finetuning) is essential to prevent value over-optimization caused by erroneous out-of-distribution extrapolation. Existing methods either rely on reparameterized policy gradient, which are difficult to scale to large generative models, or on reject sampling, which can be overly conservative when attempting to move beyond the behavior support. In this paper, we propose Value Gradient Flow (VGF), a scalable new paradigm for behavior-regularized RL. VGF casts behavior-regularized RL as an optimal transport problem that maps the reference distribution to the value-induced optimal policy distribution. We solve this transport problem via discrete gradient flow, where value gradients guide particles initialized from the reference distribution. Our analysis shows that VGF imposes regularization implicitly by controlling the transport budget. VGF eliminates explicit policy parameterization while remaining expressive and flexible, this enables adaptive test-time scaling by adjusting the transport budget. Extensive experiments demonstrate that VGF significantly outperforms prior methods, achieving state-of-the-art results on offline RL benchmarks (D4RL, OGBench) and LLM RL tasks. Code and runs can be found at https://ryanxhr.github.io/vgf.

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BibTeX

@misc{xu2026reinforcement,
  title = {Reinforcement Learning via Value Gradient Flow},
  author = {Haoran Xu and Kaiwen Hu and Somayeh Sojoudi and Amy Zhang},
  year = {2026},
  abstract = {We study behavior-regularized reinforcement learning (RL), where regularization toward a reference distribution (the dataset in offline RL or the base model in LLM RL finetuning) is essential to prevent value over-optimization caused by erroneous out-of-distribution extrapolation. Existing methods either rely on reparameterized policy gradient, which are difficult to scale to large generative models, or on reject sampling, which can be overly conservative when attempting to move beyond the behav},
  url = {https://huggingface.co/papers/2604.14265},
  keywords = {behavior-regularized reinforcement learning, reference distribution, value over-optimization, reparameterized policy gradient, reject sampling, optimal transport problem, discrete gradient flow, value gradients, transport budget, adaptive test-time scaling, code available, huggingface daily},
  eprint = {2604.14265},
  archiveprefix = {arXiv},
}

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