Designing a reliable and cost-effective Internet of Medical Things (IoMT) topology to minimize the maintenance and deployment cost

Abstract

The Internet of Things (IoT) can now be used to automate healthcare facilities and make patient data available for use at any time and from any location via the Internet. Healthcare-related data is now shared and accessed via the host-based Internet paradigm. Latency, mobility, and security issues are all exacerbated by its location-dependent nature. For the present host-based Internet paradigm, which is already in place, NDN has been promoted as the next Internet paradigm. The new species, unfortunately, lacks a stable healthcare system. A lightweight certificate less (CLC) signature is used to build an NDN-IoMT framework in this paper. We employ the Hyper elliptic Curve Cryptosystem (HCC) since it is cheaper than the Elliptic Curve Cryptosystem, which provides higher security with a smaller key (ECC). In addition, we use AVISPA to verify the proposed scheme's safety. In order to determine the most cost-effective solution, we look at existing certificate less signature methods. Results reveal that our proposed method utilizes very little network resources. Finally, we put the architecture into action on NDN-IoMT.