Highly Secured Implantable Medical Devices

2018 International Conference on Innovations in Information Technology (IIT) Pub Date : 2018-11-01 DOI:10.1109/INNOVATIONS.2018.8605968

Emad Hamadaqa, A. Abadleh, Ayoub Mars, W. Adi

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引用次数: 14

Abstract

This work is targeting a solid security improvement in the wireless communication between existing and possibly future implantable medical devices (IMDs) and Programmer Monitor Device (PMD). A public medical server acting as a trusted Authority is introduced. A dedicated Pacemaker Proxy Device (PPD) is proposed to serve as a security mediator between PMD and IMD taking care of all medical security, liability and responsibility issues. The key idea is based on embedding low-complexity and resilient digital physical identities based on a new concept in the system devices to prohibit physical substitution/cloning attacks. A biometric identity extracted from the patient's ECG (electrocardiogram) is supporting the security system by adding rather hard-to-clone patient personal health profile. A machine learning algorithm is deployed to extract such biometric identity (key). The initial results of the proposed approach showed practical accuracy in extracting the biometric identity approaching 95%. The whole resulting system ensures solid, resilient and high level of protection for future smart medical environment.

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高度安全的植入式医疗设备

这项工作的目标是在现有的和可能未来的植入式医疗设备(imd)和程序员监控设备(PMD)之间的无线通信中进行坚实的安全改进。引入一个公共医疗服务器作为受信任的权威机构。建议使用专用的心脏起搏器代理设备(PPD)作为PMD和IMD之间的安全调解人，处理所有医疗安全、责任和责任问题。其核心思想是基于新概念在系统设备中嵌入低复杂度和弹性的数字物理身份，以防止物理替代/克隆攻击。从患者的心电图中提取的生物识别身份通过添加相当难以克隆的患者个人健康档案来支持安全系统。利用机器学习算法提取生物特征身份(密钥)。初步结果表明，该方法提取生物特征身份的实际精度接近95%。整个系统确保了未来智能医疗环境的坚固、弹性和高水平的保护。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 International Conference on Innovations in Information Technology (IIT)

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