ECG Unveiled: Analysis of Client Re-identification Risks in Real-World ECG Datasets

Ziyu Wang,Anil Kanduri,Seyed Amir Hossein Aqajari,Salar Jafarlou,Sanaz R. Mousavi,Pasi Liljeberg, Shaista Malik,Amir M. Rahmani

International Conference on Body Sensor Networks（2024）

Cited 0|Views4

Abstract

While ECG data is crucial for diagnosing and monitoring heart conditions, it also contains unique biometric information that poses significant privacy risks. Existing ECG re-identification studies rely on exhaustive analysis of numerous deep learning features, confining to ad-hoc explainability towards clinicians decision making. In this work, we delve into explainability of ECG re-identification risks using transparent machine learning models. We use SHapley Additive exPlanations (SHAP) analysis to identify and explain the key features contributing to re-identification risks. We conduct an empirical analysis of identity re-identification risks using ECG data from five diverse real-world datasets, encompassing 223 participants. By employing transparent machine learning models, we reveal the diversity among different ECG features in contributing towards re-identification of individuals with an accuracy of 0.76 for gender, 0.67 for age group, and 0.82 for participant ID re-identification. Our approach provides valuable insights for clinical experts and guides the development of effective privacy-preserving mechanisms. Further, our findings emphasize the necessity for robust privacy measures in real-world health applications and offer detailed, actionable insights for enhancing data anonymization techniques.

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Key words

Biometrics,Electronic healthcare,Health informatics,Machine learning,Privacy preserving,Electrocardiogram

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【要点】：本研究旨在通过新的电子散射实验（E12-21-003）探索和验证隐藏领域粒子的性质，特别是X17粒子，以解决多种实验和观测谜题。

【方法】：实验采用高分辨率电磁量能器和无需磁谱仪的PRad装置，通过电子对（或γγ衰减）的衰变来搜索或设定X17和其他隐藏领域粒子在3 - 60 MeV质量范围内的产生率新限制。

【实验】：实验将在Jefferson Lab进行，使用PRad装置探测隐藏领域粒子的可见衰变中所有三个最终态粒子，以有效控制背景，并覆盖提议的质量范围，数据集名称未在摘要中提及，但实验敏感度达到8.9×10^-8 - 5.8×10^-9至ε^2。

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