Inchul Song scite author profile

Layer normalization is a recently introduced technique for normalizing the activities of neurons in deep neural networks to improve the training speed and stability. In this paper, we introduce a new layer normalization technique called Dynamic Layer Normalization (DLN) for adaptive neural acoustic modeling in speech recognition. By dynamically generating the scaling and shifting parameters in layer normalization, DLN adapts neural acoustic models to the acoustic variability arising from various factors such as speakers, channel noises, and environments. Unlike other adaptive acoustic models, our proposed approach does not require additional adaptation data or speaker information such as i-vectors. Moreover, the model size is fixed as it dynamically generates adaptation parameters. We apply our proposed DLN to deep bidirectional LSTM acoustic models and evaluate them on two benchmark datasets for large vocabulary ASR experiments: WSJ and TED-LIUM release 2. The experimental results show that our DLN improves neural acoustic models in terms of transcription accuracy by dynamically adapting to various speakers and environments.

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Deep learning for real-time robust facial expression recognition on a smartphone

Song

Kim

Jeon

2014

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A Highly Adaptive Acoustic Model for Accurate Multi-dialect Speech Recognition

Yoo

Song

Bengio

2019

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Energy-efficient two-dimensional skyline query processing in wireless sensor networks

Roh¹,

Song²,

Jeon³

et al. 2013

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Inchul Song

RNNDROP: A novel dropout for RNNS in ASR

Dynamic Layer Normalization for Adaptive Neural Acoustic Modeling in Speech Recognition

Deep learning for real-time robust facial expression recognition on a smartphone

A Highly Adaptive Acoustic Model for Accurate Multi-dialect Speech Recognition

Energy-efficient two-dimensional skyline query processing in wireless sensor networks

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