NISSC: A New Information Security System Using Cryptography
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Abstract
When we talk one to one that is called human language that is called plain text or normal text. When we talk in normal text or plain text, then all human can understand this text or language easily. That is why we create a cryptography security system to convert this plain text to cipher text. In this security system, we use both number and English alphabet for encryption and decryption the text to hide the plain text. In this security system encryption is mainly depend upon the key generation. The main goal of this security system is to convert simple message or text to non-readable text to secure the messages from hackers; this is called decryption. In this project, at first we find the ASCII value and binary value of the number and alphabet then after all calculation of this value we find the encrypted value and using this value we find decrypted value. In this project, we use RSA and DES and Cryptography for doing encryption and decryption. Moreover, use the ASCII number. In improvement, we complete the whole key generation and encryption and decryption process, which will take linear time.
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References
Liddell, Henry George; Scott, Robert; Jones, Henry Stuart; McKenzie, Roderick (1984). A Greek-English Lexicon.Oxford University Press.
David Naccache, “Cryptography and Security: From Theory to Applications”, Springer, 2012.
H.B. Pethe, Dr S. R. Pande, “An overview of Cryptographic Hash Function M-5 and SHA”, IOSR-JCE, 2016.
Ius Mentis: Law and technology explained, "The MD5 cryptographic hash function", October 1, 2005.
Alok Kumar Kasgar, Mukesh Kumar Dhariwal, NeerajnTantubay, HinaMalviya, “A Review Paper of Message Digest 5 (MD5)”, IJMEMR, Volume1, Issue 4, December 2013, ISSN: 2320- 9984 (Online).
EvgenyMilanov, “The RSA Algorithm”, June, 2009.
AviKak, “Public-Key Cryptography and the RSA Algorithm”, Lecture Notes on “Computer and Network Security”, February 16, 2017.
William Stallings, “Cryptography and Network Security: Principles and Practices”, Publisher: Prentice Hall, November 16, 2005, Pages-592.
Nath, Ira. "NHSKCA: A New Heuristic for Symmetric Key Cryptographic Algorithm." Ira Nath, Deepashree Bhattacharyya AgnisuddhaMandal, NandiniKundu and Oindrila De (2017). NHSKCA: A NEW HEURISTIC FOR SYMMETRIC KEY CRYPTOGRAPHIC ALGORITHM. International Journal of Computer Engineering in Research Trends 4, no. 12 (2017): 547-553.