Your search keyword '"Child, Rewon"' showing total 2 results

1. Convolutional Recurrent Neural Networks for Small-Footprint Keyword Spotting

Author

Arik, Sercan O., Kliegl, Markus, Child, Rewon, Hestness, Joel, Gibiansky, Andrew, Fougner, Chris, Prenger, Ryan, and Coates, Adam

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Learning

Abstract

Keyword spotting (KWS) constitutes a major component of human-technology interfaces. Maximizing the detection accuracy at a low false alarm (FA) rate, while minimizing the footprint size, latency and complexity are the goals for KWS. Towards achieving them, we study Convolutional Recurrent Neural Networks (CRNNs). Inspired by large-scale state-of-the-art speech recognition systems, we combine the strengths of convolutional layers and recurrent layers to exploit local structure and long-range context. We analyze the effect of architecture parameters, and propose training strategies to improve performance. With only ~230k parameters, our CRNN model yields acceptably low latency, and achieves 97.71% accuracy at 0.5 FA/hour for 5 dB signal-to-noise ratio., Comment: Accepted to Interspeech 2017

Published

2017

2. Active Learning for Speech Recognition: the Power of Gradients

Author

Huang, Jiaji, Child, Rewon, Rao, Vinay, Liu, Hairong, Satheesh, Sanjeev, and Coates, Adam

Subjects

Computer Science - Computation and Language, Computer Science - Learning, Statistics - Machine Learning

Abstract

In training speech recognition systems, labeling audio clips can be expensive, and not all data is equally valuable. Active learning aims to label only the most informative samples to reduce cost. For speech recognition, confidence scores and other likelihood-based active learning methods have been shown to be effective. Gradient-based active learning methods, however, are still not well-understood. This work investigates the Expected Gradient Length (EGL) approach in active learning for end-to-end speech recognition. We justify EGL from a variance reduction perspective, and observe that EGL's measure of informativeness picks novel samples uncorrelated with confidence scores. Experimentally, we show that EGL can reduce word errors by 11\%, or alternatively, reduce the number of samples to label by 50\%, when compared to random sampling., Comment: published as a workshop paper at NIPS 2016

Published

2016