2014
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Towards Multilingual Conversations in the Medical Domain: Development of Multilingual Medical Data and A Network-based ASR System
Sakriani Sakti
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Keigo Kubo
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Sho Matsumiya
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Graham Neubig
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Tomoki Toda
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Satoshi Nakamura
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Fumihiro Adachi
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Ryosuke Isotani
Proceedings of the Ninth International Conference on Language Resources and Evaluation (LREC'14)
This paper outlines the recent development on multilingual medical data and multilingual speech recognition system for network-based speech-to-speech translation in the medical domain. The overall speech-to-speech translation (S2ST) system was designed to translate spoken utterances from a given source language into a target language in order to facilitate multilingual conversations and reduce the problems caused by language barriers in medical situations. Our final system utilizes a weighted finite-state transducers with n-gram language models. Currently, the system successfully covers three languages: Japanese, English, and Chinese. The difficulties involved in connecting Japanese, English and Chinese speech recognition systems through Web servers will be discussed, and the experimental results in simulated medical conversation will also be presented.
2013
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The NAIST English speech recognition system for IWSLT 2013
Sakriani Sakti
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Keigo Kubo
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Graham Neubig
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Tomoki Toda
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Satoshi Nakamura
Proceedings of the 10th International Workshop on Spoken Language Translation: Evaluation Campaign
This paper describes the NAIST English speech recognition system for the IWSLT 2013 Evaluation Campaign. In particular, we participated in the ASR track of the IWSLT TED task. Last year, we participated in collaboration with Karlsruhe Institute of Technology (KIT). This year is our first time to build a full-fledged ASR system for IWSLT solely developed by NAIST. Our final system utilizes weighted finitestate transducers with four-gram language models. The hypothesis selection is based on the principle of system combination. On the IWSLT official test set our system introduced in this work achieves a WER of 9.1% for tst2011, 10.0% for tst2012, and 16.2% for the new tst2013.
2012
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The 2012 KIT and KIT-NAIST English ASR systems for the IWSLT evaluation
Christian Saam
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Christian Mohr
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Kevin Kilgour
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Michael Heck
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Matthias Sperber
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Keigo Kubo
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Sebatian Stüker
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Sakriani Sakri
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Graham Neubig
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Tomoki Toda
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Satoshi Nakamura
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Alex Waibel
Proceedings of the 9th International Workshop on Spoken Language Translation: Evaluation Campaign
This paper describes our English Speech-to-Text (STT) systems for the 2012 IWSLT TED ASR track evaluation. The systems consist of 10 subsystems that are combinations of different front-ends, e.g. MVDR based and MFCC based ones, and two different phone sets. The outputs of the subsystems are combined via confusion network combination. Decoding is done in two stages, where the systems of the second stage are adapted in an unsupervised manner on the combination of the first stage outputs using VTLN, MLLR, and cM-LLR.
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The KIT-NAIST (contrastive) English ASR system for IWSLT 2012
Michael Heck
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Keigo Kubo
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Matthias Sperber
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Sakriani Sakti
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Sebastian Stüker
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Christian Saam
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Kevin Kilgour
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Christian Mohr
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Graham Neubig
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Tomoki Toda
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Satoshi Nakamura
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Alex Waibel
Proceedings of the 9th International Workshop on Spoken Language Translation: Evaluation Campaign
This paper describes the KIT-NAIST (Contrastive) English speech recognition system for the IWSLT 2012 Evaluation Campaign. In particular, we participated in the ASR track of the IWSLT TED task. The system was developed by Karlsruhe Institute of Technology (KIT) and Nara Institute of Science and Technology (NAIST) teams in collaboration within the interACT project. We employ single system decoding with fully continuous and semi-continuous models, as well as a three-stage, multipass system combination framework built with the Janus Recognition Toolkit. On the IWSLT 2010 test set our single system introduced in this work achieves a WER of 17.6%, and our final combination achieves a WER of 14.4%.