Project detail

DARPA Low Resource Languages for Emergent Incidents (LORELEI) - Exploiting Language Information for Situational Awareness (ELISA)

Duration: 01.09.2015 — 31.03.2020

Funding resources

Neveřejný sektor - Přímé kontrakty - smluvní výzkum, neveřejné zdroje
- whole funder (2015-09-01 - 2020-03-31)

On the project

Speech processing in our proposal will be addressed by low-resource or language-agnostic technologies. Rather than concentrating on mining the content (for which, obviously, standard resources such as acoustic model, language model or pronunciation dictionary will be lacking), speech data will be handled by a multitude of "speech miners" that make minimum use of resources of the target language. The processing will begin with a reliable voice activity detection (VAD) capable of segmenting the signal into useful and useless portions. Often regarded as "not a rocket science", a good VAD is crucial for correct functioning of the following blocks and for human processing of speech input. Our work will improve on existing DNN-based VAD that proved its efficiency in a difficult RATS setting [Ng2012]. A processing with several phone posterior estimators with either mono-lingual or multilingual phoneme sets [Schwarz2009] will follow to provide the "miners" with a coherent low-dimensional representation. The first real "miner" will be language identification (LID) with a significant set of target languages (>60). Even if it is not sure that the target language will be in this set, LID will allow to detect segments in English or possibly in other languages for which we have ASR technology. We will follow our recent development of LID base on features derived from phone posteriors [Plchot2013] as well as on DNNs. We will also work on enrollment of a new language with very little data (down to one utterance). Another "miner" will perform basic speaking style recognition allowing to separate read speech from spontaneous. Finally, speaker recognition (SRE) or clustering will allow to gather information about speakers (in case they were previously enrolled) or at least to perform coarse speaker clustering, as for the analyst, the information on who is speaking can be equally important as what is said. Here, we will build up on our significant track in iVector-based SRE and will mainly work on automatic adaptation and calibration on unlabeled data-sets [Brummer2014]

Description in Czech
Zpracování řeči v našem projektovém návrhu bude řešeno technologiemi, které jsou nízko-zdrojové nebo zkoumající jazyk. Spíše než na dolování obsahu (pro nějž jsou evidentně standardní zdroje jako např. akustický model, jazykový model nebo výslovnostní slovník nedostatečné), se budou zpracovávat data pomocí množství nástrojů na dolování řeči, které minimálně využívají zdrojů cílového jazyka.

Keywords
Speech processing, language, apeech mining

Key words in Czech
zpracování řeči,jazyk, dolování řeči

Default language

English

People responsible

Beneš Karel, Ing. - fellow researcher
Fér Radek, Ing. - fellow researcher
Glembek Ondřej, Ing., Ph.D. - fellow researcher
Kocour Martin, Ing. - fellow researcher
Ondel Lucas Antoine Francois, Mgr., Ph.D. - fellow researcher
Skácel Miroslav, Ing. - fellow researcher
Žmolíková Kateřina, Ing., Ph.D. - fellow researcher
Burget Lukáš, doc. Ing., Ph.D. - principal person responsible

Units

Department of Computer Graphics and Multimedia
- beneficiary (2014-12-16 - 2020-03-31)
University of Southern California
- client (2014-12-16 - 2020-03-31)

Results

HANNEMANN, M.; TRMAL, J.; ONDEL YANG, L.; KESIRAJU, S.; BURGET, L. Bayesian joint-sequence models for grapheme-to-phoneme conversion. In Proceedings of ICASSP 2017. New Orleans: IEEE Signal Processing Society, 2017. p. 2836-2840. ISBN: 978-1-5090-4117-6.
Detail

LIU, C.; YANG, J.; SUN, M.; KESIRAJU, S.; ROTT, A.; ONDEL YANG, L.; GHAHREMANI, P.; DEHAK, N.; BURGET, L.; KHUDANPUR, S. An Empirical evaluation of zero resource acoustic unit discovery. In Proceedings of ICASSP 2017. New Orleans: IEEE Signal Processing Society, 2017. p. 5305-5309. ISBN: 978-1-5090-4117-6.
Detail

GLEMBEK, O.; KESIRAJU, S.; ONDEL YANG, L. Summary report for project "ELISA" in Year 2015. Brno: University of Southern California, 2015. p. 0-0.
Detail

GLEMBEK, O. Summary report for project Exploiting Language Information for Situational Awareness (ELISA) For year 2017. Brno: University of Southern California, 2017. p. 1-2.
Detail

GLEMBEK, O. Summary report for project Exploiting Language Information for Situational Awareness (ELISA) For year 2016. Brno: University of Southern California, 2016. p. 1-2.
Detail