Sequenced DNA comparison, |
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without DNA sequence disclosure. |
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Patents: GRANTED |
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| robots |
Offering: Licences with know-how, training & reference code. |
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If you have no contact details,
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| Some may jump straight to DNA
But some may object "even once you’ve found them, how can you double check that they really are family?" But that kinda misses the question, how do you find them in the first place? Some may say, simply publish your DNA, job done. The problem is that your DNA is your most confidential of your private information. And do you really want to publish that to all-comers. And even if you did publish it, it could take a lifetime to match everyone up – seven billion by seven billion. |
So does that mean we’re stuck?
No – this is where a key discovery we have made really really matters. So how do you find your wider family in the first place? The answer is you extract your genetic address from a sequence of your DNA. Your genetic address is very much like a postcode of a zip code or a dialling code even, except in terms of relatedness instead of physical address. It also is not your DNA sequence and can not be reverse engineered to discover your DNA. But some may still object, what if there is a false positive? By coincidence or mischief. |
This is where another key part of our great discovery comes in, the concept of genetic cryptography. When you send an email to family using your genetic address, include an attachment, such as a selfie, encrypted using genetic keys extracted from your own DNA, that is signed in your own DNA. As a result, the degree to which recipients can decrypt the selfie, using keys derived from their own DNA, will be directly related to how closely related to you they are. |
