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Personalized Speech recognition on mobile devices

We describe a large vocabulary speech recognition system that is accurate, has low latency, and yet has a small enough memory and computational footprint to run faster than real-time on a Nexus 5 Android smartphone. We employ a quantized Long Short-Term Memory (LSTM) acoustic model trained with connectionist temporal classification (CTC) to directly predict phoneme targets, and further reduce its memory footprint using an SVD-based compression scheme. Additionally, we minimize our memory footprint by using a single language model for both dictation and voice command domains, constructed using Bayesian interpolation. Finally, in order to properly handle device-specific information, such as proper names and other context-dependent information, we inject vocabulary items into the decoder graph and bias the language model on-the-fly. Our system achieves 13.5% word error rate on an open-ended dictation task, running with a median speed that is seven times faster than real-time.

preprint2016arXivOpen access
Ian McGrawRohit PrabhavalkarRaziel AlvarezMontse Gonzalez ArenasKanishka RaoDavid RybachOuais AlsharifHasim SakAlexander GruensteinFrancoise BeaufaysCarolina Parada
Computation and LanguageMachine LearningSound
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Open access11 authors3 topics
Imported metadata coverageMissing code, dataset, citation and institution fields are tracked without dominating the paper.Details
Citations: 0Reviews: 0Saves: 0Code: not linkedDataset: not linkedInstitutions: 0

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Ian McGrawRohit PrabhavalkarRaziel AlvarezMontse Gonzalez ArenasKanishka RaoDavid RybachOuais AlsharifHasim SakAlexander GruensteinFrancoise BeaufaysCarolina Parada

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