What is the clinical evidence from this study?

Study design: Other. Population: Cardiovascular assessment. Intervention: CONVALV mobile AI pipeline. Primary outcome: Technical feasibility.

What does this research mean for the field?

The CONVALV application demonstrates the technical feasibility of automated heart sound analysis for clinical decision-making through AI on mobile platforms. Novelty: ClaimNovelty.METHODOLOGICAL. Consensus alignment: ConsensusAlignment.NEUTRAL.

What question did this study set out to answer?

To develop a mobile AI pipeline for the automatic analysis of heart sounds.

February 2, 2026Open Access

CONVALV: Development of a Mobile AI Pipeline for Non-Invasive Heart Sound Analysis

Key Result

The CONVALV mobile AI pipeline demonstrated technical feasibility for the automated analysis of non-invasive cardiac auscultation using public reference datasets.

Key Points

To develop a mobile AI pipeline for the automatic analysis of heart sounds.
Developed an application for heart sound analysis via consumer devices.
Implemented acoustic signal conditioning and feature extraction.
Used deep learning models for inference.
Demonstrated technical feasibility of automated heart sound analysis.
Provided rapid and reproducible screening results in limited environments.

Structured PICO

Does the CONVALV AI pipeline accurately classify normal and abnormal heart sounds from acoustic recordings?

Population

Acoustic recordings from the public PhysioNet/Computing in Cardiology Challenge 2016 dataset.

Intervention

CONVALV, a mobile-to-AI pipeline using a dual-branch deep learning model (EfficientCardiacNet) for automated analysis of heart sounds.

Outcome

Binary classification of heart sounds (normal vs abnormal)surrogate

The CONVALV mobile-to-AI pipeline demonstrates high accuracy and sensitivity for automated binary classification of heart sounds, showing technical feasibility for integration into digital telemedicine platforms.

Limitations

CONVALV is presented as a research prototype and not a medical device

Abstract

Cardiac auscultation is a widely used non-invasive tool in cardiovascular assessment, although its diagnostic reliability depends on the practitioner's experience and the conditions under which the auscultation is performed. Recent advances in artificial intelligence and mobile technologies allow for mitigating these limitations through automated, scalable, and accessible screening systems. This paper presents CONVALV, an application integrated into a functional web platform for the automatic analysis of heart sounds acquired via consumer devices. The system implements a mobile-to-AI pipeline. This architecture encompasses acoustic signal conditioning, hybrid extraction of physiologically interpretable features, and inference using deep learning models, providing rapid and reproducible screening results accessible through a digital interface. The proposed architecture is optimized for execution in computationally limited environments and geared towards future integration into telemedicine scenarios. Evaluation is performed using public reference datasets under rigorous subject-level validation protocols. Although CONVALV is presented as a research prototype and not a medical device, the results obtained demonstrate the technical feasibility of integrating automated analysis of non-invasive cardiac auscultation into digital platforms that support clinical decision-making.

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Cite This Study

Robert Martin (Thu,) conducted a other in Cardiovascular assessment. CONVALV mobile AI pipeline was evaluated on Technical feasibility. The CONVALV mobile AI pipeline demonstrated technical feasibility for the automated analysis of non-invasive cardiac auscultation using public reference datasets.

synapsesocial.com/papers/6980fd3cc1c9540dea80ef92 https://doi.org/https://doi.org/10.5281/zenodo.18419840

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