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Main Authors: Alkhidir, Tamador, Awad, Edmond, Alshamsi, Aamena
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.05553
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author Alkhidir, Tamador
Awad, Edmond
Alshamsi, Aamena
author_facet Alkhidir, Tamador
Awad, Edmond
Alshamsi, Aamena
contents Education systems are dynamically changing to accommodate technological advances, industrial and societal needs, and to enhance students' learning journeys. Curriculum specialists and educators constantly revise taught subjects across educational grades to identify gaps, introduce new learning topics, and enhance the learning outcomes. This process is usually done within the same subjects (e.g. math) or across related subjects (e.g. math and physics) considering the same and different educational levels, leading to massive multi-layer comparisons. Having nuanced data about subjects, topics, and learning outcomes structured within a dataset, empowers us to leverage data science to better understand the progression of various learning topics. In this paper, Bidirectional Encoder Representations from Transformers (BERT) topic modeling was used to extract topics from the curriculum, which were then used to identify relationships between subjects, track their progression, and identify conceptual gaps. We found that grouping learning outcomes by common topics helped specialists reduce redundancy and introduce new concepts in the curriculum. We built a dashboard to avail the methodology to curriculum specials. Finally, we tested the validity of the approach with subject matter experts.
format Preprint
id arxiv_https___arxiv_org_abs_2403_05553
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Understanding the Progression of Educational Topics via Semantic Matching
Alkhidir, Tamador
Awad, Edmond
Alshamsi, Aamena
Computers and Society
Computation and Language
Machine Learning
Education systems are dynamically changing to accommodate technological advances, industrial and societal needs, and to enhance students' learning journeys. Curriculum specialists and educators constantly revise taught subjects across educational grades to identify gaps, introduce new learning topics, and enhance the learning outcomes. This process is usually done within the same subjects (e.g. math) or across related subjects (e.g. math and physics) considering the same and different educational levels, leading to massive multi-layer comparisons. Having nuanced data about subjects, topics, and learning outcomes structured within a dataset, empowers us to leverage data science to better understand the progression of various learning topics. In this paper, Bidirectional Encoder Representations from Transformers (BERT) topic modeling was used to extract topics from the curriculum, which were then used to identify relationships between subjects, track their progression, and identify conceptual gaps. We found that grouping learning outcomes by common topics helped specialists reduce redundancy and introduce new concepts in the curriculum. We built a dashboard to avail the methodology to curriculum specials. Finally, we tested the validity of the approach with subject matter experts.
title Understanding the Progression of Educational Topics via Semantic Matching
topic Computers and Society
Computation and Language
Machine Learning
url https://arxiv.org/abs/2403.05553