User Guide#

What is forced alignment?#

Forced alignment is a technique to take an orthographic transcription of an audio file and generate a time-aligned version using a pronunciation dictionary to look up phones for words.

Many languages have MFA acoustic models available for download and use.

Note

For a more detailed background on forced alignment, please see Eleanor Chodroff’s excellent Kaldi tutorial within her larger Corpus Phonetics Tutorial.

Montreal Forced Aligner#

Pipeline of training#

The Montreal Forced Aligner by default goes through four primary stages of training. The first pass of alignment uses monophone models, where each phone is modelled the same regardless of phonological context. The second pass uses triphone models, where context on either side of a phone is taken into account for acoustic models. The third pass performs LDA+MLLT to learn a transform of the features that makes each phone’s features maximally different. The final pass enhances the triphone model by taking into account speaker differences, and calculates a transformation of the mel frequency cepstrum coefficients (MFCC) features for each speaker. See the Kaldi page on feature transformations for more detail on these final passes.

For more technical information about the structure of the aligner, see MFA API.

If you run into any issues, please check the MFA mailing list for fixes/workarounds or to post a new issue on in the MFA GitHub Issues.

Use of speaker information#

A key feature of the Montreal Forced Aligner is the use of speaker adaptation in alignment. The command line interface provides multiple ways of grouping audio files by speaker, depending on the input file format (either Prosodylab-aligner format or TextGrid format). In addition to speaker-adaptation in the final pass of alignment, speaker information is used for grouping audio files together for multiprocessing and cepstral mean and variance normalization (CMVN). If speakers are not properly specified, then feature calculation might not succeed due to limits on the numbers of files open.

Underlying technology#

The Montreal Forced Aligner uses the Kaldi ASR toolkit to perform forced alignment. Kaldi is under active development and uses modern ASR and includes state-of-the-art algorithms for tasks in automatic speech recognition beyond forced alignment. For grapheme-to-phoneme capabilities, MFA 1.0 used Phonetisaurus, but MFA 2.0 has switched to using Pynini.

Other forced alignment tools#

Most tools for forced alignment used by linguists rely on the HMM Toolkit (HTK), including:

EasyAlign is a Praat plug-in for forced alignment as well.

Montreal Forced Aligner is most similar to the Prosodylab-aligner, and was developed at the same lab. Because the Montreal Forced Aligner uses a different toolkit to do alignment, trained models cannot be used with the Prosodylab-aligner, and vice versa.

Another Kaldi-based forced aligner is Gentle which uses Kaldi’s neural networks to align English data. The Montreal Forced Aligner allows for training on any data that you might have, and can be used with languages other than English.

Contributors#

Citation#

McAuliffe, Michael, Michaela Socolof, Sarah Mihuc, Michael Wagner, and Morgan Sonderegger (2017). Montreal Forced Aligner: trainable text-speech alignment using Kaldi. In Proceedings of the 18th Conference of the International Speech Communication Association. Paper PDF

@inproceedings{mcauliffe17_interspeech,
  author={McAuliffe, Michael and Socolof, Michaela and Mihuc, Sarah and Wagner, Michael and Sonderegger, Morgan},
  title={{Montreal Forced Aligner: Trainable Text-Speech Alignment Using Kaldi}},
  year=2017,
  booktitle={Proc. Interspeech 2017},
  pages={498--502},
  doi={10.21437/Interspeech.2017-1386}
}

Funding#

We acknowledge funding from Social Sciences and Humanities Research Council (SSHRC) #430-2014-00018, Fonds de Recherche du Québec – Société et Culture (FRQSC) #183356 and Canada Foundation for Innovation (CFI) #32451 to Morgan Sonderegger and funding from SSHRC #SSHRC 435-2014-150 and a SSHRC Canada Research Chair to Michael Wagner.