核心概念
Introducing the Chain-of-Action framework to enhance question answering by addressing unfaithful hallucination and weak reasoning in complex tasks.
要約
The Chain-of-Action framework aims to improve question answering by overcoming challenges in current QA applications. It decomposes complex questions into reasoning chains, utilizes a novel reasoning-retrieval mechanism, and proposes domain-adaptable actions for retrieving real-time information. The framework demonstrates superior performance in experiments and real-world applications, showcasing its effectiveness and practicality.
- Introduction
- Chain-of-Action (CoA) framework for multimodal and retrieval-augmented Question-Answering (QA).
- Overcomes challenges of unfaithful hallucination and weak reasoning in current QA applications.
- Proposes reasoning-retrieval mechanism and domain-adaptable actions for information retrieval.
- Methodology
- CoA generates action chains through in-context learning and addresses multimodal retrieval demands.
- Three types of actions designed: Web-querying, Knowledge-encoding, Data-analyzing.
- Workflow includes Information Retrieval, Answering Verification, and Missing Detection.
- Experiments
- CoA outperforms state-of-the-art baselines in various QA tasks and fact-checking datasets.
- Demonstrates superior performance in both information retrieval and non-retrieval scenarios.
- Analysis shows CoA excels in reasoning steps, LLM usage efficiency, and resistance to misinformation.
- Case Study with Web3 QA Application
- CoA applied to a real-world Web3 QA application with expert evaluation.
- CoA outperforms React and Self-Ask in coverage, non-redundancy, and readability.
- Demonstrates superior performance in real-world scenarios.
- Related Work
- Comparison with tool learning and hallucination methods in AI research.
- CoA addresses challenges in tool learning and hallucination by teaching LLMs when to request external help and mitigating hallucination.
統計
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引用
"The key challenge of such heterogeneous multimodal data is to automatically decide when to cease generation to solicit information, what types of external sources to leverage, and how to cross-validate conflicting insights."
"CoA surpasses existing methods in public benchmarks and demonstrates effectiveness in real-world applications."