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arxiv: 2406.16148 · v3 · pith:M2U3IQLP · submitted 2024-06-23 · cs.SD · cs.AI· cs.LG· eess.AS

Towards Open Respiratory Acoustic Foundation Models: Pretraining and Benchmarking

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classification cs.SD cs.AIcs.LGeess.AS
keywords respiratoryfoundationmodelsacousticaudioapplicationsmodelopen
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Respiratory audio, such as coughing and breathing sounds, has predictive power for a wide range of healthcare applications, yet is currently under-explored. The main problem for those applications arises from the difficulty in collecting large labeled task-specific data for model development. Generalizable respiratory acoustic foundation models pretrained with unlabeled data would offer appealing advantages and possibly unlock this impasse. However, given the safety-critical nature of healthcare applications, it is pivotal to also ensure openness and replicability for any proposed foundation model solution. To this end, we introduce OPERA, an OPEn Respiratory Acoustic foundation model pretraining and benchmarking system, as the first approach answering this need. We curate large-scale respiratory audio datasets (~136K samples, over 400 hours), pretrain three pioneering foundation models, and build a benchmark consisting of 19 downstream respiratory health tasks for evaluation. Our pretrained models demonstrate superior performance (against existing acoustic models pretrained with general audio on 16 out of 19 tasks) and generalizability (to unseen datasets and new respiratory audio modalities). This highlights the great promise of respiratory acoustic foundation models and encourages more studies using OPERA as an open resource to accelerate research on respiratory audio for health. The system is accessible from https://github.com/evelyn0414/OPERA.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. CoughPhase-CLR: Designing an acoustics-informed foundation model for coughing sound classification

    cs.SD 2026-06 unverdicted novelty 5.0

    CoughPhase-CLR uses cough physiological phases to build contrastive positive pairs, outperforming random cropping on downstream tasks including COVID-19 detection and COPD classification.

  2. RespiraMFM: A Multimodal Foundation Model with Contrastive Audio-Language Alignment for Respiratory Disease Identification

    cs.SD 2026-06 unverdicted novelty 5.0

    RespiraMFM reports 9.15% AUROC gain in supervised fine-tuning and 20.98% in zero-shot settings over baselines by aligning respiratory audio with clinical text across seven real-world datasets for five diseases.