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WoVR: World Models as Reliable Simulators for Post-Training VLA Policies with RL

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arxiv 2602.13977 v2 pith:TG5F55VQ submitted 2026-02-15 cs.RO cs.AI

WoVR: World Models as Reliable Simulators for Post-Training VLA Policies with RL

classification cs.RO cs.AI
keywords worldimaginedmodelswovrlearningoptimizationpolicyrollouts
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Reinforcement learning (RL) promises to unlock capabilities beyond imitation learning for Vision--Language--Action (VLA) models, but its requirement for massive real-world interaction prevents direct deployment on physical robots. Recent work attempts to use learned world models as simulators for policy optimization, yet closed-loop imagined rollouts inevitably suffer from hallucination and long-horizon error accumulation. Such errors not only degrade visual fidelity, but also mislead policy optimization by providing unreliable learning signals. We propose WoVR, a reliable world-model-based RL framework for post-training VLA policies. Instead of assuming a faithful world model, WoVR explicitly regulates how RL interacts with imperfect imagined dynamics. It improves rollout stability through a controllable action-conditioned video world model, reshapes imagined interaction to reduce effective error depth via Keyframe-Initialized Rollouts, and maintains policy--simulator alignment through World Model-Policy co-evolution. Extensive experiments demonstrate that WoVR enables stable long-horizon imagined rollouts and effective policy optimization, achieving superior LIBERO performance and consistent real-world gains across multiple robotic platforms. These results show that world models can serve as practical simulators for RL when hallucination is explicitly controlled. Additional visualization results are available at https://wovr-corl.github.io.

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Cited by 26 Pith papers

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