Datasets:

jopan
/

SciDMT

Tasks:

Token Classification

Sub-tasks:

named-entity-recognition

entity-linking-classification

coreference-resolution

Languages:

Size:

Tags:

Named Entities Recognition

Scientific Literature

License:

Dataset card Files Files and versions Community

jopan commited on Feb 20

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@@ -31,6 +31,7 @@ We present SciDMT, an enhanced and expanded corpus for scientific mention detect
 The corpus consists of two components:
 1) the SciDMT main corpus, which includes 48 thousand scientific articles with over 1.8 million weakly annotated mention annotations in the format of in-text span, and
 2) an evaluation set, which comprises 100 scientific articles manually annotated for evaluation purposes.
 To the best of our knowledge, SciDMT is the largest corpus for scientific entity mention detection. The corpus’s scale and diversity are instrumental in developing and refining models for tasks such as indexing scientific papers, enhancing information retrieval, and improving the accessibility of scientific knowledge. We demonstrate the corpus’s utility through experiments with advanced deep learning architectures like SciBERT and GPT-3.5. Our findings establish performance baselines and highlight unresolved challenges in scientific mention detection. SciDMT serves as a robust benchmark for the research community, encouraging the development of innovative models to further the field of scientific information extraction.
 # Files

 The corpus consists of two components:
 1) the SciDMT main corpus, which includes 48 thousand scientific articles with over 1.8 million weakly annotated mention annotations in the format of in-text span, and
 2) an evaluation set, which comprises 100 scientific articles manually annotated for evaluation purposes.
 To the best of our knowledge, SciDMT is the largest corpus for scientific entity mention detection. The corpus’s scale and diversity are instrumental in developing and refining models for tasks such as indexing scientific papers, enhancing information retrieval, and improving the accessibility of scientific knowledge. We demonstrate the corpus’s utility through experiments with advanced deep learning architectures like SciBERT and GPT-3.5. Our findings establish performance baselines and highlight unresolved challenges in scientific mention detection. SciDMT serves as a robust benchmark for the research community, encouraging the development of innovative models to further the field of scientific information extraction.
 # Files