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The current healthcare ecosystem often faces challenges such as data breaches, unauthorized access, data silos, and difficulties in tracking and verifying medical device supply chains. These issues pose a threat to patient confidentiality, trust in healthcare data, and the efficiency of healthcare operations. To address these challenges, a proposed model introduces a unique approach to bolstering the security and efficiency of Internet of Things (IoT) devices in healthcare through the use of advanced cryptographic techniques. Specifically, the model utilizes a heavy computation algorithm known as Elliptic Curve Cryptography (ECC) for packet verification in IoT devices. In addition to ECC, the model incorporates Zero Knowledge Proof (ZKP) for verification, providing a lighter alternative to ECC. ZKP works by signing the input messages and subsequently verifying the data, offering a robust security measure. The implementation strategy involves simulating IoT sensors, each equipped with ECC and Zero Knowledge proof capabilities for enhanced security.
Aluri et al. (Fri,) studied this question.