History-Guided Prompt Generation for Vision-and-Language Navigation

计算机科学 安全性令牌 背景(考古学) 一般化 动作(物理) 编码 人工智能 领域(数学) 主动感知 语义学(计算机科学) 编码(集合论) 编码(内存) 感知 电流(流体) 具身认知 推论 适应(眼睛) 机器学习 知识获取 源代码 采样(信号处理)
作者
Wen Guo,Zongmeng Wang,Yufan Hu,Junyu Gao
出处
期刊:IEEE transactions on cybernetics [Institute of Electrical and Electronics Engineers]
卷期号:56 (2): 1013-1026 被引量:1
标识
DOI:10.1109/tcyb.2025.3613147
摘要

Vision-and-language navigation (VLN) has garnered extensive attention in the field of embodied artificial intelligence. VLN involves time series information, where historical observations contain rich contextual knowledge and play a crucial role in navigation. However, current methods do not explicitly excavate the connection between rich contextual information in history and the current environment, and ignore adaptive learning of clues related to the current environment. Therefore, we explore a Prompt Learning-based strategy which adaptively mines information in history that is highly relevant to the current environment to enhance the agent's perception of the current environment and propose a history-guided prompt generation (HGPG) framework. Specifically, HGPG includes two parts, one is an entropy-based history acquisition module that assesses the uncertainty of the action probability distribution from the preceding step to determine whether historical information should be used at the current time step. The other part is the prompt generation module that transforms historical context into prompt vectors by sampling from an end-to-end learned token library. These prompt tokens serve as discrete, knowledge-rich representations that encode semantic cues from historical observations in a compact form, making them easier for the decision network to understand and utilize. In addition, we share the token library across various navigation tasks, mining common features between different tasks to improve generalization to unknown environments. Extensive experimental results on four mainstream VLN benchmarks (R2R, REVERIE, SOON, R2R-CE) demonstrate the effectiveness of our proposed method. Code is available at https://github.com/Wzmshdong/HGPG.
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