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Autori principali: Kung, Po-Nien, Yang, Zhen, Luo, Jeffrey, Yang, Cheng-Fu, Deng, Haikang, Dou, Zi-Yi, Yang, Yinfei, Peng, Nanyun, Gan, Zhe, Chang, Kai-Wei
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2603.01641
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author Kung, Po-Nien
Yang, Zhen
Luo, Jeffrey
Yang, Cheng-Fu
Deng, Haikang
Dou, Zi-Yi
Yang, Yinfei
Peng, Nanyun
Gan, Zhe
Chang, Kai-Wei
author_facet Kung, Po-Nien
Yang, Zhen
Luo, Jeffrey
Yang, Cheng-Fu
Deng, Haikang
Dou, Zi-Yi
Yang, Yinfei
Peng, Nanyun
Gan, Zhe
Chang, Kai-Wei
contents Large language models can exhibit emergent reasoning behaviors, often manifested as recurring lexical patterns (e.g., "wait," indicating verification). However, complex reasoning trajectories remain sparse in unconstrained sampling, and standard RL often fails to guarantee the acquisition of diverse reasoning behaviors. We propose a systematic discovery and reinforcement of diverse reasoning patterns through structured reasoning, a paradigm that requires targeted exploration of specific reasoning patterns during the RL process. To this end, we propose Ctrl-R, a framework for learning structured reasoning via tractable trajectory control that actively guides the rollout process, incentivizing the exploration of diverse reasoning patterns that are critical for complex problem-solving. The resulting behavior policy enables accurate importance-sampling estimation, supporting unbiased on-policy optimization. We further introduce a power-scaling factor on the importance-sampling weights, allowing the policy to selectively learn from exploratory, out-of-distribution trajectories while maintaining stable optimization. Experiments demonstrate that Ctrl-R enables effective exploration and internalization of previously unattainable reasoning patterns, yielding consistent improvements across language and vision-language models on mathematical reasoning tasks.
format Preprint
id arxiv_https___arxiv_org_abs_2603_01641
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Learning Structured Reasoning via Tractable Trajectory Control
Kung, Po-Nien
Yang, Zhen
Luo, Jeffrey
Yang, Cheng-Fu
Deng, Haikang
Dou, Zi-Yi
Yang, Yinfei
Peng, Nanyun
Gan, Zhe
Chang, Kai-Wei
Artificial Intelligence
Large language models can exhibit emergent reasoning behaviors, often manifested as recurring lexical patterns (e.g., "wait," indicating verification). However, complex reasoning trajectories remain sparse in unconstrained sampling, and standard RL often fails to guarantee the acquisition of diverse reasoning behaviors. We propose a systematic discovery and reinforcement of diverse reasoning patterns through structured reasoning, a paradigm that requires targeted exploration of specific reasoning patterns during the RL process. To this end, we propose Ctrl-R, a framework for learning structured reasoning via tractable trajectory control that actively guides the rollout process, incentivizing the exploration of diverse reasoning patterns that are critical for complex problem-solving. The resulting behavior policy enables accurate importance-sampling estimation, supporting unbiased on-policy optimization. We further introduce a power-scaling factor on the importance-sampling weights, allowing the policy to selectively learn from exploratory, out-of-distribution trajectories while maintaining stable optimization. Experiments demonstrate that Ctrl-R enables effective exploration and internalization of previously unattainable reasoning patterns, yielding consistent improvements across language and vision-language models on mathematical reasoning tasks.
title Learning Structured Reasoning via Tractable Trajectory Control
topic Artificial Intelligence
url https://arxiv.org/abs/2603.01641