Learning to Reason without External Rewards

Xuandong Zhao; Zhewei Kang; Aosong Feng; Sergey Levine; Dawn Song

Learning to Reason without External Rewards

Xuandong Zhao, Zhewei Kang, Aosong Feng, Sergey Levine, Dawn Song

Published: 09 Jul 2025, Last Modified: 16 Jul 2025AI4Math@ICML25 PosterEveryoneRevisionsBibTeXCC BY-NC-SA 4.0

Keywords: RL, Reasoning, Math

Abstract: Training large language models (LLMs) for complex reasoning via Reinforcement Learning with Verifiable Rewards (RLVR) is effective but limited by reliance on costly, domain-specific supervision. We explore Reinforcement Learning from Internal Feedback (RLIF), a framework that enables LLMs to learn from intrinsic signals without external rewards or labeled data. We propose Intuitor, an RLIF method that uses a model's own confidence, termed self-certainty, as its sole reward signal. Intuitor replaces external rewards in Group Relative Policy Optimization (GRPO) with self-certainty scores, enabling fully unsupervised learning. Experiments demonstrate that Intuitor matches GRPO's performance on mathematical benchmarks while achieving superior generalization to out-of-domain tasks like code generation, without requiring gold solutions or test cases. Our findings show that intrinsic model signals can drive effective learning across domains, offering a scalable alternative to RLVR for autonomous AI systems where verifiable rewards are unavailable.

Submission Number: 45

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