English

Neural Lattice-to-Sequence Models for Uncertain Inputs

Computation and Language 2017-07-24 v2

Abstract

The input to a neural sequence-to-sequence model is often determined by an up-stream system, e.g. a word segmenter, part of speech tagger, or speech recognizer. These up-stream models are potentially error-prone. Representing inputs through word lattices allows making this uncertainty explicit by capturing alternative sequences and their posterior probabilities in a compact form. In this work, we extend the TreeLSTM (Tai et al., 2015) into a LatticeLSTM that is able to consume word lattices, and can be used as encoder in an attentional encoder-decoder model. We integrate lattice posterior scores into this architecture by extending the TreeLSTM's child-sum and forget gates and introducing a bias term into the attention mechanism. We experiment with speech translation lattices and report consistent improvements over baselines that translate either the 1-best hypothesis or the lattice without posterior scores.

Keywords

Cite

@article{arxiv.1704.00559,
  title  = {Neural Lattice-to-Sequence Models for Uncertain Inputs},
  author = {Matthias Sperber and Graham Neubig and Jan Niehues and Alex Waibel},
  journal= {arXiv preprint arXiv:1704.00559},
  year   = {2017}
}

Comments

EMNLP 2017

R2 v1 2026-06-22T19:05:42.919Z