Large-Scale Visual Speech Recognition
This addresses the problem of lipreading for applications like accessibility or surveillance, representing a major advance over existing approaches.
This work tackled open-vocabulary visual speech recognition by constructing the largest dataset of 3,886 hours of video and training an integrated lipreading system, achieving a word error rate of 40.9% on a held-out set, which significantly outperforms prior methods and professional lipreaders.
This work presents a scalable solution to open-vocabulary visual speech recognition. To achieve this, we constructed the largest existing visual speech recognition dataset, consisting of pairs of text and video clips of faces speaking (3,886 hours of video). In tandem, we designed and trained an integrated lipreading system, consisting of a video processing pipeline that maps raw video to stable videos of lips and sequences of phonemes, a scalable deep neural network that maps the lip videos to sequences of phoneme distributions, and a production-level speech decoder that outputs sequences of words. The proposed system achieves a word error rate (WER) of 40.9% as measured on a held-out set. In comparison, professional lipreaders achieve either 86.4% or 92.9% WER on the same dataset when having access to additional types of contextual information. Our approach significantly improves on other lipreading approaches, including variants of LipNet and of Watch, Attend, and Spell (WAS), which are only capable of 89.8% and 76.8% WER respectively.