The idea is to "fortify" the asymmetric cryptography, and I'm calling it "Teikhos" from the Greek for "wall" or "fortification". It's built on one-time keys, where the next public-private key pair is hidden with the cipher
proof-of-public-key = f(nextPublicKey) xor sha512(nextPublicKey)
When used as a standard signature on a public ledger, you just sign your transaction with the next key pair that you had uploaded a proof for, and if the public key from that signature solves the cipher, then the transaction gets authenticated.
Transaction format:
transactionSignature // Asymmetric signature for the transaction, similar to in Ethereum
// and Bitcoin, signed using the current public-private key pair
proof-of-public-key // Sets a new public-private key pair for the next transaction
The Teikhos cipher protects the asymmetric cryptography from attacks except for the time-window between when a transaction has been broadcasted to the miners, to when it has been included in the state.
The new bounty: https://etherscan.io/address/0xfce151195f62ab55c117960216466f6d22dfa2a1#code
Update: smart contract for a new bounty with a commit/reveal scheme instead,
wow very excellent post Thanks for sharing i will done upvote..
looks like you have been hard at work :) working all day long
I see it as art, and if it's art, we do everything we can to do more of it :) Impacting the lives of a billion people with these new "social technologies" that re-wire society, that's exciting and so I enjoy doing that. I've also been skiing in the alps of Sweden while ideating, which was a good setting for being creative and letting ideas flow freely.
wow you are an interesting person always loved to see your epic stuffs :D
great work and nice key concept that is great thanks for sharing
Thanks for sharing the keys and the format
Thanks for sharing this @johan-nygren keep the good work up : )
great post,,
i liked........thanks for sharing
thank you so much for share with us............./////////////