English

Boosting Unknown-number Speaker Separation with Transformer Decoder-based Attractor

Audio and Speech Processing 2024-01-24 v1 Sound

Abstract

We propose a novel speech separation model designed to separate mixtures with an unknown number of speakers. The proposed model stacks 1) a dual-path processing block that can model spectro-temporal patterns, 2) a transformer decoder-based attractor (TDA) calculation module that can deal with an unknown number of speakers, and 3) triple-path processing blocks that can model inter-speaker relations. Given a fixed, small set of learned speaker queries and the mixture embedding produced by the dual-path blocks, TDA infers the relations of these queries and generates an attractor vector for each speaker. The estimated attractors are then combined with the mixture embedding by feature-wise linear modulation conditioning, creating a speaker dimension. The mixture embedding, conditioned with speaker information produced by TDA, is fed to the final triple-path blocks, which augment the dual-path blocks with an additional pathway dedicated to inter-speaker processing. The proposed approach outperforms the previous best reported in the literature, achieving 24.0 and 23.7 dB SI-SDR improvement (SI-SDRi) on WSJ0-2 and 3mix respectively, with a single model trained to separate 2- and 3-speaker mixtures. The proposed model also exhibits strong performance and generalizability at counting sources and separating mixtures with up to 5 speakers.

Keywords

Cite

@article{arxiv.2401.12473,
  title  = {Boosting Unknown-number Speaker Separation with Transformer Decoder-based Attractor},
  author = {Younglo Lee and Shukjae Choi and Byeong-Yeol Kim and Zhong-Qiu Wang and Shinji Watanabe},
  journal= {arXiv preprint arXiv:2401.12473},
  year   = {2024}
}

Comments

5 pages, 4 figures, accepted by ICASSP 2024

R2 v1 2026-06-28T14:24:17.672Z