Patient and wearable device authentication utilizing attribute-based credentials and permissioned blockchains in smart homes

Solomon Hopewell Kembo, Patience Mpofu, Saulo Jacques, Nevil Chitiyo, B. Mukorera
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Abstract

PurposeCoronavirus Disease 2019 (COVID-19) necessitated the need for “Hospital-at-home” improvisations that involve wearable technology to classify patients within households before visiting health institutions. Do-It-Yourself wearable devices allow for the collection of health data leading to the detection and/or prediction of the prevalence of the disease. The sensitive nature of health data requires safeguards to ensure patients’ privacy is not violated. The previous work utilized Hyperledger Fabric to verify transmitted data within Smart Homes, allowing for the possible implementation of legal restrictions through smart contracts in the future. This study aims to explore privacy-enhancing authentication schemes that are operated by multiple credential issuers and capable of integration into the Hyperledger ecosystem.Design/methodology/approachDesign Science Research is the methodology that was used in this study. An architecture for ABC-privacy was developed and evaluated.FindingsWhile the privacy-by-design architecture enhances data privacy through edge and fog computing architecture, there is a need to provide an additional privacy layer that limits the amount of data that patients disclose. Selective disclosure of credentials limits the number of information patients or devices divulge.Originality/valueThe evaluation of this study identified Coconut as the most suitable attribute-based credentials scheme for the Smart Homes Patients and Health Wearables use case Coconut user-centric architecture Hyperledger integration multi-party threshold authorities public and private attributes re-randomization and unlinkable revelation of selective attribute revelations.
在智能家居中使用基于属性的凭据和允许的区块链进行患者和可穿戴设备身份验证
2019冠状病毒病(COVID-19)需要“居家医院”的即兴表演,其中涉及可穿戴技术,在前往医疗机构之前对家庭内的患者进行分类。自助式可穿戴设备允许收集健康数据,从而检测和/或预测疾病的流行。健康数据的敏感性要求采取保障措施,以确保患者的隐私不受侵犯。之前的工作利用超级账本结构来验证智能家居中的传输数据,从而允许未来通过智能合约实施法律限制。本研究旨在探索由多个证书颁发者操作并能够集成到超级账本生态系统中的增强隐私的身份验证方案。设计科学研究是本研究中使用的方法论。开发并评估了abc -隐私的体系结构。虽然设计隐私架构通过边缘和雾计算架构增强了数据隐私,但需要提供额外的隐私层,以限制患者披露的数据量。选择性地披露凭证限制了患者或设备泄露的信息数量。独创性/价值本研究的评估确定了Coconut是智能家居患者和健康可穿戴设备用例中最合适的基于属性的证书方案,Coconut以用户为中心的架构超级账本集成了多方阈值权威公共和私有属性的重新随机化和不可链接的选择性属性披露。
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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