Random Generating Biological Encryption Keys Make Security Strong

A very big growing problem in the upgrading technological lifestyle are hostage malware, Data breaches and hacked systems which are frequent problems that a person go through including problem of security of hospital, government, department store and especially bank data leak in the dangerous hands, recently to safeguard it, a team of engineers has developed the encryption key system that will be unclonable and not a reverse engineerable, which will help in protecting information even if your computers systems become more faster and much nimbler.

Saptarshi Das, currently working as assistant professor of engineering science and mechanics, in Penn State, stated that "Currently, encryption is normally done with just mathematical algorithms that were called the one-way functions, these algorithms are easy to develop in one direction, but on the other hand it is very difficult to do the same in opposite direction." It can be explained by an example, by multiplying two prime numbers. Assume the original numbers are very big, so reverse engineering from this result becomes very lengthy and makes computer resource heavy. Further Mr. Das said, "However, now computer system is becoming more powerful and the quantum computing on the horizon, on developing encryption which relies on the effectiveness because it tends to be efficiently time consuming so as to decrypt". While the random encryption keys are basically unclonable and are unabled for being alike reverse engineered because it does not include pattern or formula in the process. Even the given random number generators are commonly pseudo random number generators. The researchers, also includes Akhil Dodda, who is a graduate student in engineering science and mechanics and Akshay Wali, who is a graduate student in electrical engineering along with Yang Wu, the post-doctoral fellow in engineering science and mechanics, who looked at the human T cells. They captured a photograph of a random, a two dimensional array of the T cells in the solution and thereafter digitized the image by creating pixels and making the T cell pixels "ones" and the one with empty spaces "zeros." Living cells, weather of any type, can be kept around for a long time and because it moves in a constant, so can be photographed again and again to develop the new encryption keys. Further Mr. Das said "We may need a huge number of keys because the population of the globe is 7 billion, Each person has to generate a megabyte of every data each second by 2020."

By: Anuja Arora

Content: https://www.sciencedaily.com/releases/2018/12/181219142537.htm