QG-net: a data-driven question generation model for educational content

Zichao Wang, Andrew S. Lan, Weili Nie, Andrew E. Waters, Phillip J. Grimaldi, Richard Baraniuk
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引用次数: 57

Abstract

The ever growing amount of educational content renders it increasingly difficult to manually generate sufficient practice or quiz questions to accompany it. This paper introduces QG-Net, a recurrent neural network-based model specifically designed for automatically generating quiz questions from educational content such as textbooks. QG-Net, when trained on a publicly available, general-purpose question/answer dataset and without further fine-tuning, is capable of generating high quality questions from textbooks, where the content is significantly different from the training data. Indeed, QG-Net outperforms state-of-the-art neural network-based and rules-based systems for question generation, both when evaluated using standard benchmark datasets and when using human evaluators. QG-Net also scales favorably to applications with large amounts of educational content, since its performance improves with the amount of training data.
QG-net:一个数据驱动的教育内容问题生成模型
不断增长的教育内容使得人工生成足够的练习或测验问题变得越来越困难。本文介绍了QG-Net,这是一个基于递归神经网络的模型,专门用于从教科书等教育内容中自动生成测验问题。当QG-Net在公开可用的通用问题/答案数据集上进行训练并且没有进一步的微调时,能够从教科书中生成高质量的问题,其中内容与训练数据有很大不同。事实上,QG-Net在使用标准基准数据集进行评估和使用人工评估时,在问题生成方面都优于最先进的基于神经网络和基于规则的系统。QG-Net还可以很好地扩展到具有大量教育内容的应用程序,因为它的性能随着训练数据量的增加而提高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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