Deep (Un)learning: Using neural networks to model retention and forgetting in an adaptive learning system

Abstract

ALEKS, which stands for “Assessment and LEarning in Knowledge Spaces”, is a web-based, artificially intelligent, adaptive learning and assessment system. Previous work has shown that student knowledge retention within the ALEKS system exhibits the characteristics of the classic Ebbinghaus forgetting curve. In this study, we analyze in detail the factors affecting the retention and forgetting of knowledge within ALEKS. From a dataset composed of over 3.3 million ALEKS assessment questions, we first identify several informative variables for predicting the knowledge retention of ALEKS problem types (where each problem type covers a discrete unit of an academic course). Based on these variables, we use an artificial neural network to build a comprehensive model of the retention of knowledge within ALEKS. In order to interpret the results of this neural network model, we apply a technique called permutation feature importance to measure the relative importance of each feature to the model. We find that while the details of a student’s learning activity are as important as the time that has passed from the initial learning event, the most important information for our model resides in the specific problem type under consideration.