Open Access
Warrant Generation through Deep Learning
Author(s) -
Fatima Alkhawaldeh,
Tommy Yuan,
Dimitar Kazakov
Publication year - 2021
Language(s) - English
Resource type - Conference proceedings
DOI - 10.5121/csit.2021.112005
Subject(s) - warrant , argument (complex analysis) , computer science , bottleneck , process (computing) , face (sociological concept) , data science , deep learning , comprehension , artificial intelligence , natural language processing , programming language , linguistics , business , biochemistry , chemistry , philosophy , embedded system , finance
The warrant element of the Toulmin model is critical for fact-checking and assessing the strength of an argument. As implicit information, warrants justify the arguments and explain why the evidence supports the claim. Despite the critical role warrants play in facilitating argument comprehension, the fact that most works aim to select the best warrant from existing structured data and labelled data is scarce presents a fact-checking challenge, particularly when the evidence is insufficient, or the conclusion is not inferred or generated well based on the evidence. Additionally, deep learning methods for false information detection face a significant bottleneck due to their training requirement of a large amount of labelled data. Manually annotating data, on the other hand, is a time-consuming and laborious process. Thus, we examine the extent to which warrants can be retrieved or reconfigured using unstructured data obtained from their premises.