Vijayaditya Peddinti scite author profile

In this paper we describe a method to perform sequencediscriminative training of neural network acoustic models without the need for frame-level cross-entropy pre-training. We use the lattice-free version of the maximum mutual information (MMI) criterion: LF-MMI. To make its computation feasible we use a phone n-gram language model, in place of the word language model. To further reduce its space and time complexity we compute the objective function using neural network outputs at one third the standard frame rate. These changes enable us to perform the computation for the forward-backward algorithm on GPUs. Further the reduced output frame-rate also provides a significant speed-up during decoding. We present results on 5 different LVCSR tasks with training data ranging from 100 to 2100 hours. Models trained with LF-MMI provide a relative word error rate reduction of ∼11.5%, over those trained with cross-entropy objective function, and ∼8%, over those trained with cross-entropy and sMBR objective functions. A further reduction of ∼2.5%, relative, can be obtained by fine tuning these models with the word-lattice based sMBR objective function.

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Audio augmentation for speech recognition

Ko¹,

Peddinti²,

Povey

et al. 2015

831

379

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A study on data augmentation of reverberant speech for robust speech recognition

et al. 2017

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A time delay neural network architecture for efficient modeling of long temporal contexts

Peddinti

Povey

Khudanpur³

2015

692

278

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Low Latency Acoustic Modeling Using Temporal Convolution and LSTMs

Peddinti

Wang

Povey

et al. 2018

IEEE Signal Process. Lett.

164

146

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