no code implementations • AACL (lifelongnlp) 2020 • Christian Huber, Juan Hussain, Tuan-Nam Nguyen, Kaihang Song, Sebastian Stüker, Alexander Waibel
This problem is even bigger for end-to-end speech recognition systems that only accept transcribed speech as training data, which is harder and more expensive to obtain than text data.
no code implementations • COLING (WANLP) 2020 • Juan Hussain, Mohammed Mediani, Moritz Behr, M. Amin Cheragui, Sebastian Stüker, Alexander Waibel
As this is a very specific domain, in addition to the linguistic challenges posed by translating between Arabic and German, we also focus in this paper on the methods we implemented for adapting our speech translation system to the domain of this psychiatric interview.
Automatic Speech Recognition Automatic Speech Recognition (ASR) +7
no code implementations • EMNLP (IWSLT) 2019 • Ngoc-Quan Pham, Thai-Son Nguyen, Thanh-Le Ha, Juan Hussain, Felix Schneider, Jan Niehues, Sebastian Stüker, Alexander Waibel
This paper describes KIT’s submission to the IWSLT 2019 Speech Translation task on two sub-tasks corresponding to two different datasets.
no code implementations • 17 Oct 2022 • Enes Yavuz Ugan, Christian Huber, Juan Hussain, Alexander Waibel
Code-Switching (CS) is referred to the phenomenon of alternately using words and phrases from different languages.
Automatic Speech Recognition Automatic Speech Recognition (ASR) +3
1 code implementation • 5 Jul 2021 • Christian Huber, Juan Hussain, Sebastian Stüker, Alexander Waibel
To alleviate this problem we supplement an end-to-end ASR system with a word/phrase memory and a mechanism to access this memory to recognize the words and phrases correctly.
Automatic Speech Recognition Automatic Speech Recognition (ASR) +2
no code implementations • LREC 2020 • Juan Hussain, Oussama Zenkri, Sebastian St{\"u}ker, Alex Waibel
Collecting domain-specific data for under-resourced languages, e. g., dialects of languages, can be very expensive, potentially financially prohibitive and taking long time.