Automated Essay Scoring Using Transformer Models
This work addresses the problem of reducing manual scoring burden and providing feedback in education, but it is incremental as it applies existing transformer methods to a specific AES task.
The paper tackled automated essay scoring for politeness classification by comparing transformer models to a bag-of-words logistic regression approach, finding that transformer models outperformed the regression model without hyper-parameter tuning on a dataset of 2,088 email responses.
Automated essay scoring (AES) is gaining increasing attention in the education sector as it significantly reduces the burden of manual scoring and allows ad hoc feedback for learners. Natural language processing based on machine learning has been shown to be particularly suitable for text classification and AES. While many machine-learning approaches for AES still rely on a bag-of-words (BOW) approach, we consider a transformer-based approach in this paper, compare its performance to a logistic regression model based on the BOW approach and discuss their differences. The analysis is based on 2,088 email responses to a problem-solving task, that were manually labeled in terms of politeness. Both transformer models considered in that analysis outperformed without any hyper-parameter tuning the regression-based model. We argue that for AES tasks such as politeness classification, the transformer-based approach has significant advantages, while a BOW approach suffers from not taking word order into account and reducing the words to their stem. Further, we show how such models can help increase the accuracy of human raters, and we provide a detailed instruction on how to implement transformer-based models for one's own purpose.