Deep reinforcement learning for extractive document summarization

We present a novel extractive document summarization approach based on a Deep Q-Network (DQN), which can model salience and redundancy of sentences in the Q-value approximation and learn a policy that maximize the Rouge score with respect to gold summaries. We design two hierarchical network architectures to not only generate informative features from the document to represent the states of DQN, but also create a list of potential actions from sentences in the document for the DQN. At training time, our model is directly trained on reference summaries generated by human, eliminating the need for sentence-level extractive labels. For testing, we evaluate this model on the CNN/Daily corpus, the DUC 2002 dataset and the DUC 2004 dataset using Rouge metric. Our experiments show that our approach achieves performance which is better than or comparable to state-of-the-art models on these corpora without any access to linguistic annotation. This is the first time DQN has been applied to extractive summarization tasks. (C) 2018 Elsevier B.V. All rights reserved.