English

Evolving Diffusion and Flow Matching Policies for Online Reinforcement Learning

Machine Learning 2026-03-10 v2

Abstract

Diffusion and flow matching policies offer expressive, multimodal action modeling, yet they are frequently unstable in online reinforcement learning (RL) due to intractable likelihoods and gradients propagating through long sampling chains. Conversely, tractable parameterizations such as Gaussians lack the expressiveness needed for complex control -- exposing a persistent tension between optimization stability and representational power. We address this tension with a key structural principle: decoupling optimization from generation. Building on this, we introduce GoRL (Generative Online Reinforcement Learning), an algorithm-agnostic framework that trains expressive policies from scratch by confining policy optimization to a tractable latent space while delegating action synthesis to a conditional generative decoder. Using a two-timescale alternating schedule and anchoring decoder refinement to a fixed prior, GoRL enables stable optimization while continuously expanding expressiveness. Empirically, GoRL consistently outperforms unimodal and generative baselines across diverse continuous-control tasks. Notably, on the challenging HopperStand task, it achieves episodic returns exceeding 870 -- more than 3×3\times that of the strongest baseline -- demonstrating a practical path to policies that are both stable and highly expressive. Our code is publicly available at https://github.com/bennidict23/GoRL.

Keywords

Cite

@article{arxiv.2512.02581,
  title  = {Evolving Diffusion and Flow Matching Policies for Online Reinforcement Learning},
  author = {Chubin Zhang and Zhenglin Wan and Feng Chen and Fuchao Yang and Lang Feng and Yaxin Zhou and Xingrui Yu and Yang You and Ivor Tsang and Bo An},
  journal= {arXiv preprint arXiv:2512.02581},
  year   = {2026}
}

Comments

Ver 2

R2 v1 2026-07-01T08:05:23.586Z