Andrew Gibiansky scite author profile

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-ofthe-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.

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Deep Voice 3: Scaling Text-to-Speech with Convolutional Sequence Learning

Ping¹,

Peng²,

Gibiansky³

et al. 2017

Preprint

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We present Deep Voice 3, a fully-convolutional attention-based neural textto-speech (TTS) system. Deep Voice 3 matches state-of-the-art neural speech synthesis systems in naturalness while training an order of magnitude faster. We scale Deep Voice 3 to dataset sizes unprecedented for TTS, training on more than eight hundred hours of audio from over two thousand speakers. In addition, we identify common error modes of attention-based speech synthesis networks, demonstrate how to mitigate them, and compare several different waveform synthesis methods. We also describe how to scale inference to ten million queries per day on a single GPU server.

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Convolutional Recurrent Neural Networks for Small-Footprint Keyword Spotting

Arık¹,

Kliegl²,

Child³

et al. 2017

Preprint

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Improving Polyglot Speech Synthesis through Multi-task and Adversarial Learning

Fong¹,

Wu²,

Agrawal³

et al. 2021

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Vocbench: A Neural Vocoder Benchmark for Speech Synthesis

AlBadawy

Gibiansky

et al. 2022

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