Deep convolutional acoustic word embeddings using word-pair side information
This work addresses the need for accurate word discrimination in speech recognition applications, representing an incremental advance with strong specific gains.
The paper tackles the problem of mapping variable-length speech segments to fixed-dimensional acoustic word embeddings for whole-word speech recognition, achieving large improvements over previous results in word discrimination.
Recent studies have been revisiting whole words as the basic modelling unit in speech recognition and query applications, instead of phonetic units. Such whole-word segmental systems rely on a function that maps a variable-length speech segment to a vector in a fixed-dimensional space; the resulting acoustic word embeddings need to allow for accurate discrimination between different word types, directly in the embedding space. We compare several old and new approaches in a word discrimination task. Our best approach uses side information in the form of known word pairs to train a Siamese convolutional neural network (CNN): a pair of tied networks that take two speech segments as input and produce their embeddings, trained with a hinge loss that separates same-word pairs and different-word pairs by some margin. A word classifier CNN performs similarly, but requires much stronger supervision. Both types of CNNs yield large improvements over the best previously published results on the word discrimination task.