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impact of sample selection on in-context learning for entity extraction from scientific writing

Necva Bölücü, Maciej Rybiński, Stephen Wan

202312 citationsDOIOpen Access PDF

Abstract

Prompt-based usage of Large Language Models (LLMs) is an increasingly popular way to tackle many well-known natural language problems. This trend is due, in part, to the appeal of the In-Context Learning (ICL) prompt set-up, in which a few selected training examples are provided along with the inference request. ICL, a type of few-shot learning, is especially attractive for natural language processing (NLP) tasks defined for specialised domains, such as entity extraction from scientific documents, where the annotation is very costly due to expertise requirements for the annotators. In this paper, we present a comprehensive analysis of in-context sample selection methods for entity extraction from scientific documents using GPT-3.5 and compare these results against a fully supervised transformer-based baseline. Our results indicate that the effectiveness of the in-context sample selection methods is heavily domain-dependent, but the improvements are more notable for problems with a larger number of entity types. More in-depth analysis shows that ICL is more effective for low-resource set-ups of scientific information extraction

Topics & Concepts

Computer scienceNatural language processingSelection (genetic algorithm)Sample (material)InferenceArtificial intelligenceInformation extractionAnnotationNatural languageContext (archaeology)Set (abstract data type)Information retrievalMachine learningData scienceProgramming languageBiologyPaleontologyChromatographyChemistryTopic ModelingNatural Language Processing TechniquesAdvanced Text Analysis Techniques
impact of sample selection on in-context learning for entity extraction from scientific writing | Litcius