We introduce a novel approach to cryptography by amalgamating two cryptic concepts: molecular genetics and image patterning. The genetic code for an organism is unique and yet to be cracked. Formed on the basis of just four nucleotide bases, numerous variations of characteristics are produced. At the same time, encoding using images gives rise to millions of patterns. We draw a parallel between a combination of these and cryptography, thereby attempting to achieve a high level of data security. The first phase of our encryption process deals with concepts from molecular genetics involving meiosis, fertilization, translation and mutation. Our next phase involves the encryption of data in the form of images. We have tested the algorithm to encode data and image files. Results are presented in the form of sample images.
[1]
Charles Cresson Wood,et al.
Security for computer networks : D.W. Davies and W.L. Price New York: John Wiley and Sons, 1984. 386 + xix pages, $19.50
,
1985,
Computers & security.
[2]
Henry Beker,et al.
Cipher Systems: The Protection of Communications
,
1982
.
[3]
David Marr,et al.
Visual information processing: artificial intelligence and the sensorium of sight
,
1987
.
[4]
H. Feistel.
Cryptography and Computer Privacy
,
1973
.
[5]
I. Herskowitz.
Basic principles of molecular genetics
,
1967
.
[6]
Anil K. Jain.
Fundamentals of Digital Image Processing
,
2018,
Control of Color Imaging Systems.