Securing the Internet of Medical Things with ECG-based PUF encryption

IF 1.7 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS IET Cyber-Physical Systems: Theory and Applications Pub Date : 2024-03-08 DOI:10.1049/cps2.12089
Biagio Boi, Christian Esposito
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Abstract

The Internet of Things (IoT) is revolutionizing the healthcare industry by enhancing personalized patient care. However, the transmission of sensitive health data in IoT systems presents significant security and privacy challenges, further exacerbated by the difficulty of exploiting traditional protection means due to poor battery equipment and limited storage and computational capabilities of IoT devices. The authors analyze techniques applied in the medical context to encrypt sensible data and deal with the unique challenges of resource-constrained devices. A technique that is facing increasing interest is the Physical Unclonable Function (PUF), where biometrics are implemented on integrated circuits' electric features. PUFs, however, demand special hardware, so in this work, instead of considering the physical device as a source of randomness, an ElectroCardioGram (ECG) can be taken into consideration to make a ‘virtual’ PUF. Such an mechanism leverages individual ECG signals to generate a cryptographic key for encrypting and decrypting data. Due to the poor stability of the ECG signal and the typical noise existing in the measurement process for such a signal, filtering and feature extraction techniques must be adopted. The proposed model considers the adoption of pre-processing techniques in conjunction with a fuzzy extractor to add stability to the signal. Experiments were performed on a dataset containing ECG records gathered over 6 months, yielding good results in the short term and valuable outcomes in the long term, paving the way for adaptive PUF techniques in this context.

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利用基于心电图的 PUF 加密技术确保医疗物联网的安全
物联网(IoT)通过加强对患者的个性化护理,正在彻底改变医疗保健行业。然而,在物联网系统中传输敏感健康数据带来了巨大的安全和隐私挑战,由于物联网设备的电池设备差、存储和计算能力有限,难以利用传统的保护手段,从而进一步加剧了这一挑战。作者分析了应用于医疗领域的技术,以加密敏感数据并应对资源受限设备的独特挑战。物理不可克隆函数(PUF)是一种越来越受关注的技术,生物识别技术是在集成电路的电气特性上实现的。然而,PUF 需要特殊的硬件,因此在这项工作中,我们不再将物理设备作为随机性的来源,而是将心电图(ECG)作为 "虚拟 "PUF 的考虑因素。这种机制利用单个心电信号生成加密密钥,用于加密和解密数据。由于心电信号的稳定性较差,而且在测量过程中存在典型的噪声,因此必须采用滤波和特征提取技术。建议的模型考虑采用预处理技术和模糊提取器,以增加信号的稳定性。实验是在一个包含 6 个月心电图记录的数据集上进行的,在短期内取得了良好的结果,并在长期内取得了有价值的成果,为自适应 PUF 技术在这种情况下的应用铺平了道路。
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来源期刊
IET Cyber-Physical Systems: Theory and Applications
IET Cyber-Physical Systems: Theory and Applications Computer Science-Computer Networks and Communications
CiteScore
5.40
自引率
6.70%
发文量
17
审稿时长
19 weeks
期刊最新文献
Guest Editorial: IoT-based secure health monitoring and tracking through estimated computing SEIR-driven semantic integration framework: Internet of Things-enhanced epidemiological surveillance in COVID-19 outbreaks using recurrent neural networks A machine learning model for Alzheimer's disease prediction Securing the Internet of Medical Things with ECG-based PUF encryption Status, challenges, and promises of data-driven battery lifetime prediction under cyber-physical system context
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