Abstract
Health 4.0 is an approach to healthcare innovation using IoT and other sensors and devices. The result is an array of intelligent health applications that are more equipped to improve people's health and well-being in practical ways while also being more reliable, scalable, and economical. However, IoT based healthcare systems may pose problems without proper oversight, especially regarding security concerns like exposed application interfaces. Primary challenge is to learn about the architecture and security needs of IoT based multi-sensor systems and healthcare infrastructures. In addition, it has to propose lightweight, easily implementable, and efficient designs. This research introduces the Internet of Things (IoT) in healthcare and a thorough analysis of practical, novel health frameworks that use a wide range of resources and limited-power sensors and devices. Additionally, this paper also focuses on the safety of these vital Internet of Things components and their wireless connections. The result is the introduction of a lightweight-based security system that uses the Lightweight Encryption Algorithm by IoT (LEAIoT). Essential creation with the proposed hardware-based method is 97% faster than with a software-based approach, and encryption/decryption is faster by 96.2%. Finally, it is competitive with other typical hardware-based cryptography designs, achieving reduced hardware usage of up to 77% with the lowest frequency with its lightweight, flexible implementation and configuration of high-speed keys.
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Kanulla, L.K., Gokulkumari, G., Krishna, M.V., Rajamani, S.K. (2023). IoT Based Smart Medical Data Security System. In: Balas, V.E., Semwal, V.B., Khandare, A. (eds) Intelligent Computing and Networking. IC-ICN 2023. Lecture Notes in Networks and Systems, vol 699. Springer, Singapore. https://doi.org/10.1007/978-981-99-3177-4_10
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DOI: https://doi.org/10.1007/978-981-99-3177-4_10
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