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Main Authors: Du, Weihong, Liao, Wenrui, Liang, Hongru, Lei, Wenqiang
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2408.03630
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author Du, Weihong
Liao, Wenrui
Liang, Hongru
Lei, Wenqiang
author_facet Du, Weihong
Liao, Wenrui
Liang, Hongru
Lei, Wenqiang
contents Automatic extraction of procedural graphs from documents creates a low-cost way for users to easily understand a complex procedure by skimming visual graphs. Despite the progress in recent studies, it remains unanswered: whether the existing studies have well solved this task (Q1) and whether the emerging large language models (LLMs) can bring new opportunities to this task (Q2). To this end, we propose a new benchmark PAGED, equipped with a large high-quality dataset and standard evaluations. It investigates five state-of-the-art baselines, revealing that they fail to extract optimal procedural graphs well because of their heavy reliance on hand-written rules and limited available data. We further involve three advanced LLMs in PAGED and enhance them with a novel self-refine strategy. The results point out the advantages of LLMs in identifying textual elements and their gaps in building logical structures. We hope PAGED can serve as a major landmark for automatic procedural graph extraction and the investigations in PAGED can offer insights into the research on logic reasoning among non-sequential elements.
format Preprint
id arxiv_https___arxiv_org_abs_2408_03630
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle PAGED: A Benchmark for Procedural Graphs Extraction from Documents
Du, Weihong
Liao, Wenrui
Liang, Hongru
Lei, Wenqiang
Computation and Language
Automatic extraction of procedural graphs from documents creates a low-cost way for users to easily understand a complex procedure by skimming visual graphs. Despite the progress in recent studies, it remains unanswered: whether the existing studies have well solved this task (Q1) and whether the emerging large language models (LLMs) can bring new opportunities to this task (Q2). To this end, we propose a new benchmark PAGED, equipped with a large high-quality dataset and standard evaluations. It investigates five state-of-the-art baselines, revealing that they fail to extract optimal procedural graphs well because of their heavy reliance on hand-written rules and limited available data. We further involve three advanced LLMs in PAGED and enhance them with a novel self-refine strategy. The results point out the advantages of LLMs in identifying textual elements and their gaps in building logical structures. We hope PAGED can serve as a major landmark for automatic procedural graph extraction and the investigations in PAGED can offer insights into the research on logic reasoning among non-sequential elements.
title PAGED: A Benchmark for Procedural Graphs Extraction from Documents
topic Computation and Language
url https://arxiv.org/abs/2408.03630