English

CLAPSep: Leveraging Contrastive Pre-trained Model for Multi-Modal Query-Conditioned Target Sound Extraction

Audio and Speech Processing 2025-03-24 v5

Abstract

Universal sound separation (USS) aims to extract arbitrary types of sounds from real-world recordings. This can be achieved by language-queried target sound extraction (TSE), which typically consists of two components: a query network that converts user queries into conditional embeddings, and a separation network that extracts the target sound accordingly. Existing methods commonly train models from scratch. As a consequence, substantial data and computational resources are required to make the randomly initialized model comprehend sound events and perform separation accordingly. In this paper, we propose to integrate pre-trained models into TSE models to address the above issue. To be specific, we tailor and adapt the powerful contrastive language-audio pre-trained model (CLAP) for USS, denoted as CLAPSep. CLAPSep also accepts flexible user inputs, taking both positive and negative user prompts of uni- and/or multi-modalities for target sound extraction. These key features of CLAPSep can not only enhance the extraction performance but also improve the versatility of its application. We provide extensive experiments on 5 diverse datasets to demonstrate the superior performance and zero- and few-shot generalizability of our proposed CLAPSep with fast training convergence, surpassing previous methods by a significant margin. Full codes and some audio examples are released for reproduction and evaluation.

Keywords

Cite

@article{arxiv.2402.17455,
  title  = {CLAPSep: Leveraging Contrastive Pre-trained Model for Multi-Modal Query-Conditioned Target Sound Extraction},
  author = {Hao Ma and Zhiyuan Peng and Xu Li and Mingjie Shao and Xixin Wu and Ju Liu},
  journal= {arXiv preprint arXiv:2402.17455},
  year   = {2025}
}

Comments

Published in: IEEE/ACM Transactions on Audio, Speech, and Language Processing ( Volume: 32), DOI: 10.1109/TASLP.2024.3497586

R2 v1 2026-06-28T15:01:51.150Z