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Main Authors: Zhang, Yuhong, Li, Jialu, Yang, Shilai, Xu, Yuchen, Cauwenberghs, Gert, Jung, Tzyy-Ping
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.11972
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author Zhang, Yuhong
Li, Jialu
Yang, Shilai
Xu, Yuchen
Cauwenberghs, Gert
Jung, Tzyy-Ping
author_facet Zhang, Yuhong
Li, Jialu
Yang, Shilai
Xu, Yuchen
Cauwenberghs, Gert
Jung, Tzyy-Ping
contents Reading comprehension is a fundamental skill in human cognitive development. With the advancement of Large Language Models (LLMs), there is a growing need to compare how humans and LLMs understand language across different contexts and apply this understanding to functional tasks such as inference, emotion interpretation, and information retrieval. Our previous work used LLMs and human biomarkers to study the reading comprehension process. The results showed that the biomarkers corresponding to words with high and low relevance to the inference target, as labeled by the LLMs, exhibited distinct patterns, particularly when validated using eye-tracking data. However, focusing solely on individual words limited the depth of understanding, which made the conclusions somewhat simplistic despite their potential significance. This study used an LLM-based AI agent to group words from a reading passage into nodes and edges, forming a graph-based text representation based on semantic meaning and question-oriented prompts. We then compare the distribution of eye fixations on important nodes and edges. Our findings indicate that LLMs exhibit high consistency in language understanding at the level of graph topological structure. These results build on our previous findings and offer insights into effective human-AI co-learning strategies.
format Preprint
id arxiv_https___arxiv_org_abs_2507_11972
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Graph Representations for Reading Comprehension Analysis using Large Language Model and Eye-Tracking Biomarker
Zhang, Yuhong
Li, Jialu
Yang, Shilai
Xu, Yuchen
Cauwenberghs, Gert
Jung, Tzyy-Ping
Computation and Language
Neurons and Cognition
Reading comprehension is a fundamental skill in human cognitive development. With the advancement of Large Language Models (LLMs), there is a growing need to compare how humans and LLMs understand language across different contexts and apply this understanding to functional tasks such as inference, emotion interpretation, and information retrieval. Our previous work used LLMs and human biomarkers to study the reading comprehension process. The results showed that the biomarkers corresponding to words with high and low relevance to the inference target, as labeled by the LLMs, exhibited distinct patterns, particularly when validated using eye-tracking data. However, focusing solely on individual words limited the depth of understanding, which made the conclusions somewhat simplistic despite their potential significance. This study used an LLM-based AI agent to group words from a reading passage into nodes and edges, forming a graph-based text representation based on semantic meaning and question-oriented prompts. We then compare the distribution of eye fixations on important nodes and edges. Our findings indicate that LLMs exhibit high consistency in language understanding at the level of graph topological structure. These results build on our previous findings and offer insights into effective human-AI co-learning strategies.
title Graph Representations for Reading Comprehension Analysis using Large Language Model and Eye-Tracking Biomarker
topic Computation and Language
Neurons and Cognition
url https://arxiv.org/abs/2507.11972