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Main Authors: Qi, Yajie, Wei, Wei, Li, Lin, Zhang, Lijun, Gao, Zhidong, Wang, Da, Song, Huizhong
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.22008
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author Qi, Yajie
Wei, Wei
Li, Lin
Zhang, Lijun
Gao, Zhidong
Wang, Da
Song, Huizhong
author_facet Qi, Yajie
Wei, Wei
Li, Lin
Zhang, Lijun
Gao, Zhidong
Wang, Da
Song, Huizhong
contents Real-world decision-making tasks typically occur in complex and open environments, posing significant challenges to reinforcement learning (RL) agents' exploration efficiency and long-horizon planning capabilities. A promising approach is LLM-enhanced RL, which leverages the rich prior knowledge and strong planning capabilities of LLMs to guide RL agents in efficient exploration. However, existing methods mostly rely on frequent and costly LLM invocations and suffer from limited performance due to the semantic mismatch. In this paper, we introduce a Structured Goal-guided Reinforcement Learning (SGRL) method that integrates a structured goal planner and a goal-conditioned action pruner to guide RL agents toward efficient exploration. Specifically, the structured goal planner utilizes LLMs to generate a reusable, structured function for goal generation, in which goals are prioritized. Furthermore, by utilizing LLMs to determine goals' priority weights, it dynamically generates forward-looking goals to guide the agent's policy toward more promising decision-making trajectories. The goal-conditioned action pruner employs an action masking mechanism that filters out actions misaligned with the current goal, thereby constraining the RL agent to select goal-consistent policies. We evaluate the proposed method on Crafter and Craftax-Classic, and experimental results demonstrate that SGRL achieves superior performance compared to existing state-of-the-art methods.
format Preprint
id arxiv_https___arxiv_org_abs_2509_22008
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Goal-Guided Efficient Exploration via Large Language Model in Reinforcement Learning
Qi, Yajie
Wei, Wei
Li, Lin
Zhang, Lijun
Gao, Zhidong
Wang, Da
Song, Huizhong
Machine Learning
Real-world decision-making tasks typically occur in complex and open environments, posing significant challenges to reinforcement learning (RL) agents' exploration efficiency and long-horizon planning capabilities. A promising approach is LLM-enhanced RL, which leverages the rich prior knowledge and strong planning capabilities of LLMs to guide RL agents in efficient exploration. However, existing methods mostly rely on frequent and costly LLM invocations and suffer from limited performance due to the semantic mismatch. In this paper, we introduce a Structured Goal-guided Reinforcement Learning (SGRL) method that integrates a structured goal planner and a goal-conditioned action pruner to guide RL agents toward efficient exploration. Specifically, the structured goal planner utilizes LLMs to generate a reusable, structured function for goal generation, in which goals are prioritized. Furthermore, by utilizing LLMs to determine goals' priority weights, it dynamically generates forward-looking goals to guide the agent's policy toward more promising decision-making trajectories. The goal-conditioned action pruner employs an action masking mechanism that filters out actions misaligned with the current goal, thereby constraining the RL agent to select goal-consistent policies. We evaluate the proposed method on Crafter and Craftax-Classic, and experimental results demonstrate that SGRL achieves superior performance compared to existing state-of-the-art methods.
title Goal-Guided Efficient Exploration via Large Language Model in Reinforcement Learning
topic Machine Learning
url https://arxiv.org/abs/2509.22008