Related papers: Generating Realistic Multi-Beat ECG Signals

Generating Realistic Multi-Beat ECG Signals

URL: http://arxiv.org/abs/2505.18189v1
Date: Mon, 19 May 2025 13:50:58 GMT
Title: Generating Realistic Multi-Beat ECG Signals
Authors: Paul Pöhl, Viktor Schlegel, Hao Li, Anil Bharath,
Abstract summary: This paper proposes a novel three-layer synthesis framework for generating realistic long-form ECG signals.<n>We first generate high-fidelity single beats using a diffusion model, then synthesize inter-beat features preserving critical temporal dependencies, and finally assemble beats into coherent long sequences.<n>In arrhythmia classification tasks, our long-form synthetic ECGs significantly outperform end-to-end long-form ECG generation using the diffusion model.
Score: 9.817387015919023
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: Generating synthetic ECG data has numerous applications in healthcare, from educational purposes to simulating scenarios and forecasting trends. While recent diffusion models excel at generating short ECG segments, they struggle with longer sequences needed for many clinical applications. This paper proposes a novel three-layer synthesis framework for generating realistic long-form ECG signals. We first generate high-fidelity single beats using a diffusion model, then synthesize inter-beat features preserving critical temporal dependencies, and finally assemble beats into coherent long sequences using feature-guided matching. Our comprehensive evaluation demonstrates that the resulting synthetic ECGs maintain both beat-level morphological fidelity and clinically relevant inter-beat relationships. In arrhythmia classification tasks, our long-form synthetic ECGs significantly outperform end-to-end long-form ECG generation using the diffusion model, highlighting their potential for increasing utility for downstream applications. The approach enables generation of unprecedented multi-minute ECG sequences while preserving essential diagnostic characteristics.

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