GAS Distribution Protocol for Permissioned-Public Ethereum-Based Blockchain Networks

This paper presents a protocol to manage decentralized access and use of Permissioned Public Blockchain Networks using Ethereum technology as the underlying protocol. It proposes a solution to avoid DDOS and enforce accountability while eliminating transaction fees. The protocol has been tested and implemented in the LACChain Blockchain Networks.

Protocol for the Rotation of Validator Nodes for Permissioned Public Networks

This paper presents a protocol to rotate validator nodes in a permissioned network based in an algorithm that takes into account performance and decentralization metrics.

Quantum-Resistance in Blockchain Networks

This paper describes the work carried out by the Inter-American Development Bank, the IDB Lab, LACChain, Cambridge Quantum Computing (CQC), and Tecnológico de Monterrey to identify and eliminate quantum threats in blockchain networks. The advent of quantum computing threatens internet protocols and blockchain networks because they utilize non-quantum resistant cryptographic algorithms. When quantum computers become robust enough to run Shor’s algorithm on a large scale, the most used asymmetric algorithms, utilized for digital signatures and message encryption, such as RSA, (EC)DSA, and (EC)DH, will be no longer secure.

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GAS Distribution Protocol for Permissioned-Public Ethereum-Based Blockchain Networks

Protocol for the Rotation of Validator Nodes for Permissioned Public Networks

Quantum-Resistance in Blockchain Networks

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