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MuReQua Chain: Multiscale Relativistic Quantum Blockchain

Gerardo Iovane

2021IEEE Access23 citationsDOIOpen Access PDF

Abstract

In this paper, we introduce a new approach to fix the validation of a block and the assignment of a new block in a blockchain infrastructure by using a novel negotiation procedure. The block validation and assignment are reached thanks to negotiation procedures based on an extended probability environment. Also, by using a multiscale approach (typical of Complexity Theory) and Quantum and Relativistic Mechanics, the result appears to solve some of the most relevant questions in the Blockchain context, which are the democracy and the randomness of the validator of a block and the assignment of the new one. The selection of actors to mine is invariant concerning the number of addresses, i.e., the coins of owners, which have more chance to be selected generally. This work is the companion of CQKD (Computational Quantum Key Distribution), as we will see in the introduction, where we considered the infrastructural question of the key distribution; also, it is a very effective application of the decision and reasoning in incompleteness or uncertainty conditions as described in the previous and prodromic paper as described in the introduction too.

Topics & Concepts

Computer scienceRandomnessTheoretical computer scienceBlock (permutation group theory)Computational complexity theoryContext (archaeology)Key (lock)MathematicsAlgorithmComputer securityGeometryStatisticsBiologyPaleontologyQuantum Computing Algorithms and ArchitectureComputability, Logic, AI AlgorithmsQuantum Mechanics and Applications
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