Guided Alignment Training for Topic-Aware Neural Machine Translation

Association for Machine Translation in the Americas (AMTA), Oct. 2016
Guided Alignment Training for Topic-Aware Neural Machine Translation
Wenhu Chen, Evgeny Matusov, Shahram Khadivi, Jan-Thorsten Peter
Categories
eBay Authors
Abstract

In this paper, we propose an effective way for biasing the attention mechanism of a sequence-to-sequence neural machine translation (NMT) model towards the well-studied statistical word alignment models. We show that our novel guided alignment training approach improves translation quality on real-life e-commerce texts consisting of product titles and descriptions, overcoming the problems posed by many unknown words and a large type/token ratio. We also show that meta-data associated with input texts such as topic or category information can significantly improve translation quality when used as an additional signal to the decoder part of the network. With both novel features, the BLEU score of the NMT system on a product title set improves from 18.6 to 21.3%. Even larger MT quality gains are obtained through domain adaptation of a general domain NMT system to e-commerce data. The developed NMT system also performs well on the IWSLT speech translation task, where an ensemble of four variant systems outperforms the phrase-based baseline by 2.1% BLEU absolute.

Another publication from the same author: Evgeny Matusov

Proceedings of the 6th International Joint Conference on Natural Language Processing

Selective Combination of Pivot and Direct Statistical Machine Translation Models

In this paper, we propose a selective combination approach of pivot and direct statistical machine translation (SMT) models to improve translation quality. We work with Persian-Arabic SMT as a case study. We show positive results (from 0.4 to 3.1 BLEU on different direct training corpus sizes) in addition to a large reduction of pivot translation model size.

Another publication from the same category: Machine Translation

Proceedings of the 2014 Conference on Empirical Methods in Natural Language Processing (EMNLP)

Correcting Keyboard Layout Errors and Homoglyphs in Queries

Keyboard layout errors and homoglyphs in cross-language queries impact our ability to correctly interpret user information needs and offer relevant results. We present a machine learning approach to correcting these errors, based largely on character-level n-gram features. We demonstrate superior performance over rule-based methods, as well as a significant reduction in the number of queries that yield null search results.