English

Breathing and Semantic Pause Detection and Exertion-Level Classification in Post-Exercise Speech

Audio and Speech Processing 2025-09-22 v1 Computation and Language Machine Learning Sound

Abstract

Post-exercise speech contains rich physiological and linguistic cues, often marked by semantic pauses, breathing pauses, and combined breathing-semantic pauses. Detecting these events enables assessment of recovery rate, lung function, and exertion-related abnormalities. However, existing works on identifying and distinguishing different types of pauses in this context are limited. In this work, building on a recently released dataset with synchronized audio and respiration signals, we provide systematic annotations of pause types. Using these annotations, we systematically conduct exploratory breathing and semantic pause detection and exertion-level classification across deep learning models (GRU, 1D CNN-LSTM, AlexNet, VGG16), acoustic features (MFCC, MFB), and layer-stratified Wav2Vec2 representations. We evaluate three setups-single feature, feature fusion, and a two-stage detection-classification cascade-under both classification and regression formulations. Results show per-type detection accuracy up to 89%\% for semantic, 55%\% for breathing, 86%\% for combined pauses, and 73%\%overall, while exertion-level classification achieves 90.5%\% accuracy, outperformin prior work.

Keywords

Cite

@article{arxiv.2509.15473,
  title  = {Breathing and Semantic Pause Detection and Exertion-Level Classification in Post-Exercise Speech},
  author = {Yuyu Wang and Wuyue Xia and Huaxiu Yao and Jingping Nie},
  journal= {arXiv preprint arXiv:2509.15473},
  year   = {2025}
}

Comments

6 pages, 3rd ACM International Workshop on Intelligent Acoustic Systems and Applications (IASA 25)

R2 v1 2026-07-01T05:44:54.420Z