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Aligning Flow Map Policies with Optimal Q-Guidance

Christos Ziakas, Alessandra Russo, Avishek Joey Bose

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arxiv Score 14.3

Published 2026-05-12 · First seen 2026-05-13

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Abstract

Generative policies based on expressive model classes, such as diffusion and flow matching, are well-suited to complex control problems with highly multimodal action distributions. Their expressivity, however, comes at a significant inference cost: generating each action typically requires simulating many steps of the generative process, compounding latency across sequential decision-making rollouts. We introduce flow map policies, a novel class of generative policies designed for fast action generation by learning to take arbitrary-size jumps including one-step jumps-across the generative dynamics of existing flow-based policies. We instantiate flow map policies for offline-to-online reinforcement learning (RL) and formulate online adaptation as a trust-region optimization problem that improves the critic's Q-value while remaining close to the offline policy. We theoretically derive FLOW MAP Q-GUIDANCE (FMQ), a principled closed-form learning target that is optimal for adapting offline flow map policies under a critic-guided trust-region constraint. We further introduce Q-GUIDED BEAM SEARCH (QGBS), a stochastic flow-map sampler that combines renoising with beam search to enable iterative inference-time refinement. Across 12 challenging robotic manipulation and locomotion tasks from OGBench and RoboMimic, FMQ achieves state-of-the-art performance in offline-to-online RL, outperforming the previous one-step policy MVP by a relative improvement of 21.3% on the average success rate.

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BibTeX

@article{ziakas2026aligning,
  title = {Aligning Flow Map Policies with Optimal Q-Guidance},
  author = {Christos Ziakas and Alessandra Russo and Avishek Joey Bose},
  year = {2026},
  abstract = {Generative policies based on expressive model classes, such as diffusion and flow matching, are well-suited to complex control problems with highly multimodal action distributions. Their expressivity, however, comes at a significant inference cost: generating each action typically requires simulating many steps of the generative process, compounding latency across sequential decision-making rollouts. We introduce flow map policies, a novel class of generative policies designed for fast action ge},
  url = {https://arxiv.org/abs/2605.12416},
  keywords = {cs.LG},
  eprint = {2605.12416},
  archiveprefix = {arXiv},
}

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