English

Target Speech Extraction: Independent Vector Extraction Guided by Supervised Speaker Identification

Audio and Speech Processing 2022-07-29 v2 Sound

Abstract

This manuscript proposes a novel robust procedure for the extraction of a speaker of interest (SOI) from a mixture of audio sources. The estimation of the SOI is performed via independent vector extraction (IVE). Since the blind IVE cannot distinguish the target source by itself, it is guided towards the SOI via frame-wise speaker identification based on deep learning. Still, an incorrect speaker can be extracted due to guidance failings, especially when processing challenging data. To identify such cases, we propose a criterion for non-intrusively assessing the estimated speaker. It utilizes the same model as the speaker identification, so no additional training is required. When incorrect extraction is detected, we propose a ``deflation'' step in which the incorrect source is subtracted from the mixture and, subsequently, another attempt to extract the SOI is performed. The process is repeated until successful extraction is achieved. The proposed procedure is experimentally tested on artificial and real-world datasets containing challenging phenomena: source movements, reverberation, transient noise, or microphone failures. The method is compared with state-of-the-art blind algorithms as well as with current fully supervised deep learning-based methods.

Keywords

Cite

@article{arxiv.2111.03482,
  title  = {Target Speech Extraction: Independent Vector Extraction Guided by Supervised Speaker Identification},
  author = {Jiri Malek and Jakub Jansky and Zbynek Koldovsky and Tomas Kounovsky and Jaroslav Cmejla and Jindrich Zdansky},
  journal= {arXiv preprint arXiv:2111.03482},
  year   = {2022}
}

Comments

Modified version of the article accepted for publication in IEEE/ACM Transactions on Audio Speech and Language Processing journal. Original results unchanged, additional experiments presented, refined discussion and conclusions

R2 v1 2026-06-24T07:27:46.797Z