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FPGA Based Light Weight Encryption of Medical Data for IoMT Devices using ASCON Cipher

Kamal Raj, B. Srinivasu

20222022 IEEE International Symposium on Smart Electronic Systems (iSES)36 citationsDOI

Abstract

Internet of Things applications with various sensors in public network are vulnerable to cyber physical attacks. The technology of IoT in smart health monitoring systems popularly known as Internet of Medical Things (IoMT) devices. The rapid growth of remote telemedicine has witnessed in the post COVID era. Data collected over IoMT devices is sensitive and needs security, hence provided by enhancing a light weight encryption module on IoMT device. An authenticated Encryption with Associated Data is employed on the IoMT device to enhance the security to the medical wellness of patient. This paper presents FPGA-based implementation of ASCON-128, a light weight cipher for data encryption. A LUT6 based substitution box (SBOX) is implemented on FPGA as part of cipher permutation block. The proposed architecture takes 1330 number of LUTs, which is 35% less compared to the best existing design. Moreover, the proposed ASCON architecture has improved the throughput by 45% compared to the best existing design. This paper presents the results pertaining to encryption and decryption of medical data as well as normal images.

Topics & Concepts

EncryptionComputer scienceBlock cipherField-programmable gate arrayCryptographyTriple DESEmbedded systemThe InternetComputer networkBlock (permutation group theory)Advanced Encryption StandardComputer securityComputer hardwareOperating systemMathematicsGeometryIoT and Edge/Fog ComputingChaos-based Image/Signal EncryptionCryptography and Data Security
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