R1-Reward: Training Multimodal Reward Model Through Stable Reinforcement Learning

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YiFan Zhang, Xingyu Lu, Xiao Hu, Chaoyou Fu, Bin Wen, Tianke Zhang, Changyi Liu, Kaiyu Jiang, Kaibing Chen, Kaiyu Tang, Haojie Ding, Jiankang Chen, Fan Yang, Zhang Zhang, Tingting Gao, Di ZHANG, Guorui Zhou, Liang Wang

Published: 26 Jan 2026, Last Modified: 11 Apr 2026ICLR 2026 PosterEveryoneRevisionsBibTeXCC BY 4.0
Keywords: Multimodal Large Language Model, Multimodal Reward Model, Stable Reinforcement Learning, Long-CoT Reasoning
TL;DR: This paper introduces StableReinforce, a novel RL algorithm designed to stably and effectively train Multimodal Reward Models (MRMs), leading to the R1-Reward model which significantly outperforms previous SOTA models on key benchmarks.
Abstract: Multimodal Reward Models (MRMs) play a crucial role in enhancing the performance of Multimodal Large Language Models (MLLMs). While recent advancements have primarily focused on improving the model structure and training data of MRMs, there has been limited exploration into the effectiveness of long-term reasoning capabilities for reward modeling and how to activate these capabilities in MRMs. In this paper, we explore how Reinforcement Learning (RL) can be used to improve reward modeling. Specifically, we reformulate the reward modeling problem as a rule-based RL task. However, we observe that directly applying existing RL algorithms, such as Reinforce++, to reward modeling often leads to training instability or even collapse due to the inherent limitations of these algorithms. To address this issue, we propose the StableReinforce algorithm, which refines the training loss, advantage estimation strategy, and reward design of existing RL methods. These refinements result in more stable training dynamics and superior performance. To facilitate MRM training, we collect 200K preference data from diverse datasets. Our reward model, R1-Reward, trained using the StableReinforce algorithm on this dataset, significantly improves performance on multimodal reward modeling benchmarks. Compared to previous SOTA models, R1-Reward achieves a 8.4% improvement on the VL Reward-Bench and a 14.3% improvement on the Multimodal Reward Bench. Moreover, with more inference compute, R1-Reward's performance is further enhanced, highlighting the potential of RL algorithms in optimizing MRMs.
Primary Area: applications to computer vision, audio, language, and other modalities
Submission Number: 12048