P-RAG:用于规划日常任务的渐进式检索增强生成技术

Weiye Xu, Min Wang, Wengang Zhou, Houqiang Li
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引用次数: 0

摘要

嵌入式日常任务(Embodied Everyday Task)是嵌入式人工智能界的一项热门任务,要求代理根据自然语言指令和视觉观察做出一系列动作。传统的基于学习的方法面临两个挑战。首先,自然语言指令通常缺乏明确的任务规划。其次,需要对模型进行大量训练,使其掌握任务环境的知识。以前基于大型语言模型(LLM)的工作要么由于缺乏任务特定知识而导致性能不佳,要么依赖于作为少量样本的地面实况。为了解决上述问题,我们提出了一种名为 "渐进式检索增强生成(Progressive Retrieval AugmentedGeneration,P-RAG)"的新方法,该方法不仅能有效利用 LLM 强大的语言处理能力,还能在不使用地面实况的情况下逐步积累特定任务的知识。传统的 RAG 方法是从数据库中一次性检索相关信息以帮助生成,与之相比,P-RAG 引入了一种迭代方法来逐步更新数据库。在每次迭代中,P-RAG 都会检索最新的数据库,并从之前的交互中获取历史信息,作为当前交互的经验参考。此外,我们还引入了一种粒度更细的检索方案,不仅能检索相似任务,还能检索相似情况,从而提供更有价值的参考经验。广泛的实验表明,P-RAG 在不使用地面实况的情况下也能获得有竞争力的结果,甚至还能通过自我迭代进一步提高性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
P-RAG: Progressive Retrieval Augmented Generation For Planning on Embodied Everyday Task
Embodied Everyday Task is a popular task in the embodied AI community, requiring agents to make a sequence of actions based on natural language instructions and visual observations. Traditional learning-based approaches face two challenges. Firstly, natural language instructions often lack explicit task planning. Secondly, extensive training is required to equip models with knowledge of the task environment. Previous works based on Large Language Model (LLM) either suffer from poor performance due to the lack of task-specific knowledge or rely on ground truth as few-shot samples. To address the above limitations, we propose a novel approach called Progressive Retrieval Augmented Generation (P-RAG), which not only effectively leverages the powerful language processing capabilities of LLMs but also progressively accumulates task-specific knowledge without ground-truth. Compared to the conventional RAG methods, which retrieve relevant information from the database in a one-shot manner to assist generation, P-RAG introduces an iterative approach to progressively update the database. In each iteration, P-RAG retrieves the latest database and obtains historical information from the previous interaction as experiential references for the current interaction. Moreover, we also introduce a more granular retrieval scheme that not only retrieves similar tasks but also incorporates retrieval of similar situations to provide more valuable reference experiences. Extensive experiments reveal that P-RAG achieves competitive results without utilizing ground truth and can even further improve performance through self-iterations.
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