The MLLP-UPV German-English Machine Translation System for WMT18

ACL materials are Copyright © 1963-2021 ACL; other materials are copyrighted by their respective copyright holders. Materials prior to 2016 here are licensed under the Creative Commons Attribution-NonCommercial-ShareAlike 3.0 International License. Permission is granted to make copies for the purposes of teaching and research. Materials published in or after 2016 are licensed on a Creative Commons Attribution 4.0 International License.[EN] This paper describes the statistical machine translation system built by the MLLP research group of Universitat Politècnica de València for the German¿English news translation shared task of the EMNLP 2018 Third Conference on Machine Translation (WMT18). We used an ensemble of Transformer architecture¿based neural machine translation systems. To train our system under ¿constrained¿ conditions, we filtered the provided parallel data with a scoring technique using character-based language models, and we added parallel data based on synthetic source sentences generated from the provided monolingual corpora.The research leading to these results has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement no. 761758 (X5gon); the Spanish government's TIN2015-68326-R (MINECO/FEDER) research project MORE, university collaboration grant programme 2017-2018, and faculty training scholarship FPU13/06241; the Generalitat Valenciana's predoctoral research scholarship ACIF/2017/055; as well as the Universitat Politecnica de València's PAID-01-17 R&D support programme.Iranzo-Sánchez, J.; Baquero-Arnal, P.; Garcés Díaz-Munío, G.; Martínez-Villaronga, A.; Civera Saiz, J.; Juan, A. (2018). The MLLP-UPV German-English Machine Translation System for WMT18. Association for Computational Linguistics (ACL). 418-424. https://doi.org/10.18653/v1/W18-6414S41842

Transformer Models for Machine Translation and Streaming Automatic Speech Recognition

[ES] El procesamiento del lenguaje natural (NLP) es un conjunto de problemas computacionales con aplicaciones de máxima relevancia, que junto con otras tecnologías informáticas se ha beneficiado de la revolución que ha significado el aprendizaje profundo. Esta tesis se centra en dos problemas fundamentales para el NLP: la traducción automática (MT) y el reconocimiento automático del habla o transcripción automática (ASR); así como en una arquitectura neuronal profunda, el Transformer, que pondremos en práctica para mejorar las soluciones de MT y ASR en algunas de sus aplicaciones. El ASR y MT pueden servir para obtener textos multilingües de alta calidad a un coste razonable para una diversidad de contenidos audiovisuales. Concre- tamente, esta tesis aborda problemas como el de traducción de noticias o el de subtitulación automática de televisión. El ASR y MT también se pueden com- binar entre sí, generando automáticamente subtítulos traducidos, o con otras soluciones de NLP: resumen de textos para producir resúmenes de discursos, o síntesis del habla para crear doblajes automáticos. Estas aplicaciones quedan fuera del alcance de esta tesis pero pueden aprovechar las contribuciones que contiene, en la meduda que ayudan a mejorar el rendimiento de los sistemas automáticos de los que dependen. Esta tesis contiene una aplicación de la arquitectura Transformer al MT tal y como fue concebida, mediante la que obtenemos resultados de primer nivel en traducción de lenguas semejantes. En capítulos subsecuentes, esta tesis aborda la adaptación del Transformer como modelo de lenguaje para sistemas híbri- dos de ASR en vivo. Posteriormente, describe la aplicación de este tipus de sistemas al caso de uso de subtitulación de televisión, participando en una com- petición pública de RTVE donde obtenemos la primera posición con un marge importante. También demostramos que la mejora se debe principalmenta a la tecnología desarrollada y no tanto a la parte de los datos.[CA] El processament del llenguage natural (NLP) és un conjunt de problemes com- putacionals amb aplicacions de màxima rellevància, que juntament amb al- tres tecnologies informàtiques s'ha beneficiat de la revolució que ha significat l'impacte de l'aprenentatge profund. Aquesta tesi se centra en dos problemes fonamentals per al NLP: la traducció automàtica (MT) i el reconeixement automàtic de la parla o transcripció automàtica (ASR); així com en una ar- quitectura neuronal profunda, el Transformer, que posarem en pràctica per a millorar les solucions de MT i ASR en algunes de les seues aplicacions. l'ASR i MT poden servir per obtindre textos multilingües d'alta qualitat a un cost raonable per a un gran ventall de continguts audiovisuals. Concretament, aquesta tesi aborda problemes com el de traducció de notícies o el de subtitu- lació automàtica de televisió. l'ASR i MT també es poden combinar entre ells, generant automàticament subtítols traduïts, o amb altres solucions de NLP: amb resum de textos per produir resums de discursos, o amb síntesi de la parla per crear doblatges automàtics. Aquestes altres aplicacions es troben fora de l'abast d'aquesta tesi però poden aprofitar les contribucions que conté, en la mesura que ajuden a millorar els resultats dels sistemes automàtics dels quals depenen. Aquesta tesi conté una aplicació de l'arquitectura Transformer al MT tal com va ser concebuda, mitjançant la qual obtenim resultats de primer nivell en traducció de llengües semblants. En capítols subseqüents, aquesta tesi aborda l'adaptació del Transformer com a model de llenguatge per a sistemes híbrids d'ASR en viu. Posteriorment, descriu l'aplicació d'aquest tipus de sistemes al cas d'ús de subtitulació de continguts televisius, participant en una competició pública de RTVE on obtenim la primera posició amb un marge significant. També demostrem que la millora es deu principalment a la tecnologia desen- volupada i no tant a la part de les dades[EN] Natural language processing (NLP) is a set of fundamental computing prob- lems with immense applicability, as language is the natural communication vehicle for people. NLP, along with many other computer technologies, has been revolutionized in recent years by the impact of deep learning. This thesis is centered around two keystone problems for NLP: machine translation (MT) and automatic speech recognition (ASR); and a common deep neural architec- ture, the Transformer, that is leveraged to improve the technical solutions for some MT and ASR applications. ASR and MT can be utilized to produce cost-effective, high-quality multilin- gual texts for a wide array of media. Particular applications pursued in this thesis are that of news translation or that of automatic live captioning of tele- vision broadcasts. ASR and MT can also be combined with each other, for instance generating automatic translated subtitles from audio, or augmented with other NLP solutions: text summarization to produce a summary of a speech, or speech synthesis to create an automatic translated dubbing, for in- stance. These other applications fall out of the scope of this thesis, but can profit from the contributions that it contains, as they help to improve the performance of the automatic systems on which they depend. This thesis contains an application of the Transformer architecture to MT as it was originally conceived, achieving state-of-the-art results in similar language translation. In successive chapters, this thesis covers the adaptation of the Transformer as a language model for streaming hybrid ASR systems. After- wards, it describes how we applied the developed technology for a specific use case in television captioning by participating in a competitive challenge and achieving the first position by a large margin. We also show that the gains came mostly from the improvement in technology capabilities over two years including that of the Transformer language model adapted for streaming, and the data component was minor.Baquero Arnal, P. (2023). Transformer Models for Machine Translation and Streaming Automatic Speech Recognition [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/19368

Findings of the 2019 Conference on Machine Translation (WMT19)

This paper presents the results of the premier shared task organized alongside the Conference on Machine Translation (WMT) 2019. Participants were asked to build machine translation systems for any of 18 language pairs, to be evaluated on a test set of news stories. The main metric for this task is human judgment of translation quality. The task was also opened up to additional test suites to probe specific aspects of translation

The MLLP-UPV Supervised Machine Translation Systems for WMT19 News Translation Task

ACL materials are Copyright © 1963¿2021 ACL; other materials are copyrighted by their respective copyright holders. Materials prior to 2016 here are licensed under the Creative Commons Attribution-NonCommercial-ShareAlike 3.0 International License. Permission is granted to make copies for the purposes of teaching and research. Materials published in or after 2016 are licensed on a Creative Commons Attribution 4.0 International License.[EN] This paper describes the participation of the MLLP research group of the Universitat Politècnica de València in the WMT 2019 News Translation Shared Task. In this edition, we have submitted systems for the German ¿ English and German ¿ French language pairs, participating in both directions of each pair. Our submitted systems, based on the Transformer architecture, make ample use of data filtering, synthetic data and domain adaptation through fine-tuning.The research leading to these results has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement no. 761758 (X5gon); the Government of Spain¿s research project Multisub, ref. RTI2018-094879-B-I00 (MCIU/AEI/FEDER, EU); and the Universitat Politecnica de València's PAID-01-17 R&D support programme.Iranzo-Sánchez, J.; Garcés Díaz-Munío, G.; Civera Saiz, J.; Juan, A. (2019). The MLLP-UPV Supervised Machine Translation Systems for WMT19 News Translation Task. The Association for Computational Linguistics. 218-224. https://doi.org/10.18653/v1/W19-5320S21822

Findings of the 2018 Conference on Machine Translation (WMT18)

This paper presents the results of the premier shared task organized alongside the Confer- ence on Machine Translation (WMT) 2018. Participants were asked to build machine translation systems for any of 7 language pairs in both directions, to be evaluated on a test set of news stories. The main metric for this task is human judgment of translation quality. This year, we also opened up the task to additional test suites to probe specific aspects of transla- tion

Evaluating conjunction disambiguation on English-to-German and French-to-German WMT 2019 translation hypotheses

We present a test set for evaluating an MT system’s capability to translate ambiguous conjunctions depending on the sentence structure. We concentrate on the English conjunction ”but” and its French equivalent ”mais” which can be translated into two different German conjunctions. We evaluate all English-to-German and French-to-German submissions to the WMT 2019 shared translation task. The evaluation is done mainly automatically, with additional fast manual inspection of unclear cases. All systems almost perfectly recognise the ta-get conjunction ”aber”, whereas accuracies fo rthe other target conjunction ”sondern” range from 78% to 97%, and the errors are mostly caused by replacing it with the alternative cojjunction ”aber”. The best performing system for both language pairs is a multilingual Transformer TartuNLP system trained on all WMT2019 language pairs which use the Latin script, indicating that the multilingual approach is beneficial for conjunction disambiguation. As for other system features, such as using synthetic back-translated data, context-aware, hybrid, etc., no particular (dis)advantages can be observed. Qualitative manual inspection of translation hypotheses shown that highly ranked systems generally produce translations with high adequacy and fluency, meaning that these systems are not only capable of capturing the right conjunction whereas the rest of the translation hypothesis is poor. On the other hand, the low ranked systems generally exhibit lower fluency and poor adequacy