Complicated Table Structure Recognition
This addresses a key bottleneck in making machines understand tables in PDFs, particularly for scientific papers, though it is an incremental improvement over existing methods.
The paper tackles the problem of accurately recognizing the structure of complicated tables in PDF files, which contain spanning cells, and proposes GraphTSR, a graph neural network that predicts relations among cells, achieving state-of-the-art performance on benchmark and new datasets.
The task of table structure recognition aims to recognize the internal structure of a table, which is a key step to make machines understand tables. Currently, there are lots of studies on this task for different file formats such as ASCII text and HTML. It also attracts lots of attention to recognize the table structures in PDF files. However, it is hard for the existing methods to accurately recognize the structure of complicated tables in PDF files. The complicated tables contain spanning cells which occupy at least two columns or rows. To address the issue, we propose a novel graph neural network for recognizing the table structure in PDF files, named GraphTSR. Specifically, it takes table cells as input, and then recognizes the table structures by predicting relations among cells. Moreover, to evaluate the task better, we construct a large-scale table structure recognition dataset from scientific papers, named SciTSR, which contains 15,000 tables from PDF files and their corresponding structure labels. Extensive experiments demonstrate that our proposed model is highly effective for complicated tables and outperforms state-of-the-art baselines over a benchmark dataset and our new constructed dataset.