Go to DBLP homepageTowards Secure and Efficient Practical Consensus Protocols in Quantum Internet
Abstract: While the quantum Internet leverages quantum mechanics to achieve unprecedented security against security threats such as eavesdropping, challenges remain, particularly in trust establishment. Traditional methods using a trusted third party in the conventional Internet system may be inadequate in decentralized or ad-hoc networks. Whereas, blockchain technology offers a decentralized solution, making it a promising solution. However, no studies have been conducted to evaluate the blockchain consensus protocols in diverse quantum Internet scenarios. This study assesses the-state-of-art Byzantine Fault Tolerance consensus protocol, ParBFT, with regard to the scal-ability and resilience through the quantum Internet simulation. Moreover, this study explores the potential enhancement to better meet the unique demands of high-latency or unstable networks.
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