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"Nearly Unbreakable" Encryption Scheme Inspired By Human Biology

Posted by timothy on from the just-ask-the-creator dept.

rjmarvin (3001897) writes "Researchers at the U.K.'s Lancaster University have reimagined the fundamental logic behind encryption, stumbling across a radically new way to encrypt data while creating software models to simulate how the human heart and lungs coordinate rhythms. The encryption method published in the American Physical Society journal and filed as a patent entitled 'Encoding Data Using Dynamic System Coupling,' transmits and receive multiple encrypted signals simultaneously, creating an unlimited number of possibilities for the shared encryption key and making it virtually impossible to decrypt using traditional methods. One of the researchers, Peter McClintock, called the encryption scheme 'nearly unbreakable.'

9 of 179 comments (clear)

  1. Crypto hype by Anonymous Coward · · Score: 5, Insightful

    Every intelligence everywhere can invent an encryption scheme it can't break.
    Don't ever use any crypto algorithm the experts haven't been attacking and publishing about for a while.

  2. HEY SLASHDOT, THE FIRST LINK IS BROKEN by rjmarvin · · Score: 4, Informative

    It should link here:http://www.sdtimes.com/content/article.aspx?ArticleID=69025&page=1 Yeah, if you could fix it, that would be greaaaat.

    1. Re:HEY SLASHDOT, THE FIRST LINK IS BROKEN by ratnerstar · · Score: 5, Funny

      But the link is nearly unbreakable!

      --
      Just because you sold your soul to the devil that needn't make you a teetotaler. --The Devil and Daniel Webster
  3. Meh by swillden · · Score: 4, Insightful

    I don't know whether or not this idea actually works, or what level of security it may or may not provide, but it's addressing an already thoroughly-solved problem. It appears to provide a symmetric key cipher, which means -- regardless of how radical the approach may or may not be -- it's in direct competition with algorithms like AES and the multitude of other well-respected and heavily-researched block and stream ciphers. The abstract and summary mention "an unlimited number of possibilities for a shared encryption key", but existing algorithms already provide enormous key spaces.

    Of course, some cryptanalytic breakthrough could provide a way to break all existing ciphers, but who's to say the same breakthrough wouldn't impact systems based on this idea. And, actually, we already have another approach which uses special hardware at each end, Quantum Cryptography, which can absolutely guarantee security, unless our understanding of the Uncertainty Principle is wrong. Or unless there are bugs in the physical implementation, which there have been, and I see no reason that this "Dynamic Systems Coupling" approach wouldn't be subject to the same kinds of problems.

    So... meh.

    --
    Note to ACs: I usually delete AC replies without reading them. If you want to talk to me, log in.
  4. Anyone... by FuzzNugget · · Score: 4, Insightful

    Anyone can invent an encryption scheme so clever that he or she can't think of a way to break it.

  5. anyone can devise encryption they can't break by raymorris · · Score: 4, Insightful

    The author's claim that it's very hard to break only means that THEY don't know how to break it. That's meaningless, because anyone and everyone can come up with a puzzle they don't know how to solve. That doesn't mean it's hard, just that they don't know how it's done.

    A trivial example would be a kindergartener who might observe that if you encode a message by writing it with letters, they don't kow how to read that message. That's only because the kid doesn't know how to read. It in no way suggests that reading is impossible. For many Slashdot readers, compiling a message into a Windows resource file makes unreadable _to_them. Windows resource files are of course quite easy to read, if you know how. These researchers don't know how to read their own encoding. So what? That doesn't mean _I_ don't know how to read their stuff.

    Their scheme does have one attribute that's good - it can generate long keys. So can a random number generator. They MAY have a good idea, but we won't know until alot of other people try to break their encryption and fail.

  6. geez, guys, give it a rest by stenvar · · Score: 4, Insightful

    The paper contains none of the cryptographic analysis necessary to show that this is a secure cryptographic system. It's just another one of these "let's take a chaotic dynamical system and use it for cryptography" papers.

    The paper doesn't tell you much about cryptography, but it does illustrate the failures of peer review.

  7. Hm. by Animats · · Score: 4, Informative

    OK, first bypass the click troll and get to the actual paper.

    The general idea seems to be to transmit a large amount of noisy data per plaintext bit. Historically, crypto schemes which make the input much bigger are disfavored, but communications bandwidth is cheaper now and that might be OK.

    The author of the paper seems to have fallen into the old trap of thinking that that analog signals have infinite amounts of data in them. He writes things like ''The encrypting key space is unbounded." and "The choice of the form of coupling functions comes from a set of functions that is not bounded." ("High-end" audio people also fall for this.) In reality, at some point you hit a noise threshold, and, anyway, down at the bottom, electrons and photons are discrite. Also, to be usable, whatever is used for the key has to be of finite size, and preferably not too big.

    "No new cypher is worth looking at unless it comes from someone who has already broken a very hard one. - Friedman.

  8. Re:Nearly Unbreakable by DMUTPeregrine · · Score: 4, Funny

    Aaah, I see you've used Oracle.

    --
    Not a sentence!