So, need for new encryption schemes are on demand that is harder, even much harder to break. By keeping this in mind, scientists have come up with the new encryption scheme which is nearly uncrackable to make life tough for cyber criminals and government spying agencies.
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A team of physicists at Lancaster University in the UK have built up almost unbreakable encryption scheme inspired by the time-varying nature of the cardiorespiratory coupling in humans, like the way our heart and lungs interact, which results in an “endless number of secret encryption key possibilities” shared between the sender and receiver.
This very new method of unbreakable encryption came from the interdisciplinary research carried out by the scientists, Dr Tomislav Stankovski, Professor Peter McClintock, and Professor Aneta Stefanovska, and the patent includes Dr Robert Young, from the department of physics.
One of the scientists Dr Stankovski said, "Here we offer a novel encryption scheme derived from biology, radically different from any earlier procedure. Inspired by the time-varying nature of the cardio-respiratory coupling functions recently discovered in humans, we propose a new encryption scheme that is highly resistant to conventional methods of attack."
Despite handling separate jobs to keep us alive, the way our heart and lungs interact with each other is a paradigm of “coupling functions”. Since the two ends of encryption are the sender and the receiver, just like our heart and lungs.
To coordinate their rhythms, they need to communicate back and forth with each other various times, which the researchers called cardio-respiratory interactions. So, the information is encrypted on both the ends and to decrypt using the coupling functions.
Using same biological logic, Scientists have illustrated their new communication framework. "A number of information signals coming from different channels or communications devices (e.g., mobile phone, sensor networks, or wireless broadband) are to be transmitted simultaneously. "
“The number of coupling functions in use will always be finite, depending on the specific number of information channels that are needed; the choice of forms available for the coupling functions (forming the private key) is, however, unbounded.”
The coupling functions send and receive multiple encrypted signals at the same time, generating a limitless number of possibilities for the shared encryption key and making it indeed hard to decrypt using conventional methods.
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The scientists have also published a paper pdf, “
Coupling Functions Enable Secure Communications,” in Physical Review X and also filed a patent application for
"Encoding Data Using Dynamic System Coupling." The pdf will help you understand the working of the cryptosystem in the schematic of the new communications scheme. You can
download the PDF from here.
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