Salt-based autopeering for DLT-networks
Sebastian M\"uller, Angelo Capossele, Bartosz Ku\'smierz, Vivian Lin,, Hans Moog, Andreas Penzkofer, Olivia Saa, William Sanders, Wolfgang Welz
TL;DR
This paper introduces a salt-based autopeering protocol for DLT networks that enables systematic analysis of network design tradeoffs and supports future research through simulation results.
Contribution
It proposes a novel salt-based neighbor selection method that clarifies tradeoffs in network design for DLTs and offers a framework for quantitative analysis.
Findings
Simulation results illustrate key tradeoffs in network topology design.
The protocol demonstrates how design choices impact network security and efficiency.
Provides a foundation for systematic network layer analysis in DLTs.
Abstract
The security of any Distributed Ledger Technology (DLT) depends on the safety of the network layer. Much effort has been put into understanding the consensus layer of DLTs. However, many network layer designs seem ad-hoc and lack a careful analysis of the influence of the design decisions on the whole DLT system. We propose a salt-based automated neighbor selection protocol that shows the inherent tradeoffs of certain design decisions and allows a quantitative treatment of some network topology requirements. This example may serve as a design framework and facilitate future research. We provide a selection of results from simulations to highlight some tradeoffs in the design decisions.
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