Generating Summaries with Controllable Readability Levels

Leonardo F. R. Ribeiro; Mohit Bansal; Markus Dreyer

2023 EMNLP EMNLP 2023

Generating Summaries with Controllable Readability Levels

Abstract

AbstractReadability refers to how easily a reader can understand a written text. Several factors affect the readability level, such as the complexity of the text, its subject matter, and the reader’s background knowledge. Generating summaries based on different readability levels is critical for enabling knowledge consumption by diverse audiences. However, current text generation approaches lack refined control, resulting in texts that are not customized to readers’ proficiency levels. In this work, we bridge this gap and study techniques to generate summaries at specified readability levels. Unlike previous methods that focus on a specific readability level (e.g., lay summarization), we generate summaries with fine-grained control over their readability. We develop three text generation techniques for controlling readability: (1) instruction-based readability control, (2) reinforcement learning to minimize the gap between requested and observed readability and (3) a decoding approach that uses lookahead to estimate the readability of upcoming decoding steps. We show that our generation methods significantly improve readability control on news summarization (CNN/DM dataset), as measured by various readability metrics and human judgement, establishing strong baselines for controllable readability in summarization.

🌉 Interdisciplinary Bridge — Artificial Intelligence and Reinforcement Learning

🧭 Keyword Pioneer — decoding approach

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Leonardo F. R. Ribeiro , Mohit Bansal , Markus Dreyer

Topics

Artificial Intelligence > Core AI > Foundation Models Reinforcement Learning > Methods > Policy Learning

Keywords

reinforcement learning text summarization controllable generation readability control decoding approach

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