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Optimizing Evidence for Multilingual Explainable Fact-Checking on Russia-Ukraine Conflict


핵심 개념
Optimized evidence enhances fact-checking systems by providing relevant and sufficient information, as demonstrated in the RU22Fact dataset.
초록

The content discusses the importance of evidence in fact-checking systems, proposing an LLMs-driven method to automatically retrieve and summarize evidence. The RU22Fact dataset is introduced, containing real-world claims, optimized evidence, and referenced explanations. Experimental results show the effectiveness of optimized evidence in improving fact-checking performance.

Directory:

  1. Introduction
    • Fake news as a social issue.
    • Traditional fact-checking systems.
  2. Evidence Analysis
    • Challenges in providing sufficient and relevant evidence.
    • Proposal of LLMs-driven method for optimized evidence.
  3. Dataset Construction
    • Creation of RU22Fact dataset with multilingual content.
  4. Fact-Checking System
    • Framework overview: Evidence Optimization, Claim Verification, Explanation Generation.
  5. Experiment
    • Evaluation of Claim Verification and Explanation Generation tasks.
  6. Conclusion
    • Summary of key findings and contributions.
  7. Limitations
    • Information leakage, low-resource languages, domain generalization challenges.
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통계
High-quality evidence plays a vital role in enhancing fact-checking systems. RU22Fact dataset contains 16K samples on Russia-Ukraine conflict in 2022.
인용구

핵심 통찰 요약

by Yirong Zeng,... 게시일 arxiv.org 03-26-2024

https://arxiv.org/pdf/2403.16662.pdf
RU22Fact

더 깊은 질문

How can the proposed LLMs-driven method be adapted for other fact-checking domains?

The LLMs-driven method proposed in the context for fact-checking can be adapted to other domains by following a similar approach with some modifications. Firstly, the model can be fine-tuned on data specific to the new domain to ensure it captures domain-specific nuances and language patterns. The prompt used for retrieving and summarizing evidence may need to be tailored to suit the nature of claims and evidence in the new domain. Additionally, optimizing evidence from different sources relevant to that particular domain would enhance the performance of the system. By customizing the training data, prompts, and sources of information retrieval, this method can effectively adapt to various fact-checking domains.

What are potential biases introduced by using search snippets as evidence?

Using search snippets as evidence in fact-checking systems introduces several potential biases: Selection Bias: Search engines may prioritize certain websites or content based on popularity or algorithms, leading to biased results. Confirmation Bias: Users tend to click on search results that align with their existing beliefs or opinions, potentially reinforcing misinformation. Quality Bias: Search snippets may not always provide accurate or reliable information, leading to inaccuracies in fact-checking outcomes. Contextual Bias: Snippets often lack context or background information necessary for comprehensive understanding, resulting in incomplete assessments. These biases could impact the accuracy and reliability of fact-checking systems relying solely on search snippets as evidence.

How can the concept of optimized evidence be applied to improve information retrieval systems beyond fact-checking?

The concept of optimized evidence can be extended beyond fact-checking to enhance information retrieval systems across various applications: Academic Research: Researchers could use optimized evidence retrieval methods when conducting literature reviews or gathering references for academic papers. Legal Proceedings: Lawyers and legal professionals could benefit from precise document extraction techniques when preparing cases or analyzing legal documents. Healthcare Industry: Optimized evidence could assist healthcare providers in quickly accessing relevant medical research articles or patient records during diagnosis and treatment planning. Business Intelligence: Companies could utilize optimized evidence strategies for competitive analysis, market research, and trend forecasting by efficiently extracting key insights from vast amounts of data. By implementing advanced techniques like LLMs-driven optimization in these areas, organizations can streamline their information retrieval processes and make more informed decisions based on high-quality extracted data sets.
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