SISA En-Decryption Algorithm for Multilingual Data Privacy and Security in IoT

SISA En-Decryption Algorithm for Multilingual Data Privacy and Security in IoT

Sivasakthi Kannan, Manju C. Thayammal, Sherly Alphonse, Priyanga, S. Abinaya
Copyright: © 2024 |Pages: 25
DOI: 10.4018/979-8-3693-0766-3.ch012
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Abstract

Because of worldwide integration, multilingual databases and document transfers are quite widespread, which raises the requirement for data security against hackers. Without regard to Unicode, the suggested SISA En-De-Cryption (SEDC) method is capable of encrypting any language. The multilingual data and documents in the devices are secured using the proposed SEDC method in this work. Because the proposed SEDC technique has no size or language restrictions on the key, it is substantially more secure than current encryption algorithms in the literature. The brute force attack is also decreased by this SEDC trait. The SEDC algorithm's design is so straightforward that it may be created in any computer language. The suggested SEDC algorithm may also be fused with several other technologies like cloud-based web applications, IoT, block chain etc. and can be utilized for data security in multiple areas like healthcare, smart agriculture and mobile communication etc. When compared to other existing algorithms, the suggested SEDC method performs better.
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Motivation For The Proposed Work

UNICODE is used to represent the multilingual data in various countries (Bhoge & Chatur, 2014). The characters should be represented using some standard approaches before using for computing. In 1963, IBM have uniform EBCDIC for mainframes. Concurrently, the ASCII is represented as a 7-bit of character. The 8th bit is used for registered resolves. The computers are used in many countries with this standard character encoding. The deviation in these adapted characters sets created some problems in due time. So, there was the need for modified character encoding and the International Organization for Standardization (ISO) created the ISO-8859-character set in the initial 1980s. It has supported various languages, but not the symbols such as ligatures. Therefore, UNICODE came into existence. The plan of UNICODE was initiated in 1980. Concurrently, ISO had in progress the Universal Character Set (UCS) or ISO 10646. UNICODE 1.0 was out in 1991. Then UNICODE has functioned closely with ISO and UCS to safeguard parallel purposes. The existing algorithms mostly support monolingual data and documents. The proposed SISA En-De-Cryption (SEDC) algorithm secures multilingual data and documents.

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