Internet of Things (IoT), cloud computing and wireless medical sensor networks have significantly improved remote healthcare monitoring. In a healthcare monitoring system, many resource-limited sensors are deployed to sense, process and communicate the information. However, continuous and accurate operations of these devices are very important, especially in the infant incubator monitoring system. Because important decisions are made on the received information. Therefore, it is necessary to ensure the authenticity between the incubator monitoring system and doctors. In this work, a public key encryption based computationally efficient mutual authentication protocol is proposed for secure data transmission between incubator monitoring systems and doctors or administrators. The proposed protocol improves performance and reduces the computational cost without compromising the security. The security analysis part shows the strength of the proposed protocol against various attacks, performance analysis part shows that the proposed protocol performs better than other existing protocol based on Rivest-Shamir-Adleman and elliptic-curve cryptography schemes.
Keywords: Internet of Things; accurate operations; authenticity; cloud computing; computational cost; computationally efficient mutual authentication protocol; continuous operations; cryptographic protocols; cryptography; doctors; existing protocol; health care; healthcare monitoring system; incubator monitoring systems; message authentication; patient monitoring; protocols; public key cryptography; received information; remote healthcare monitoring; remote infant incubator monitoring system; resource-limited sensors; telecommunication security; wireless medical sensor networks; wireless sensor networks.