Sisi Duan scite author profile

We present hBFT, a hybrid, Byzantine fault-tolerant, replicated state machine protocol with optimal resilience. Under normal circumstances, hBFT uses speculation, i.e., replicas directly adopt the order from the primary and send replies to the clients. As in prior work such as Zyzzyva, when replicas are out of order, clients can detect the inconsistency and help replicas converge on the total ordering. However, we take a different approach than previous work that has four distinct benefits: it requires many fewer cryptographic operations, it moves critical jobs to the clients with no additional costs, faulty clients can be detected and identified, and performance in the presence of client participation will not degrade as long as the primary is correct. The correctness is guaranteed by a three-phase checkpoint subprotocol similar to PBFT, which is tailored to our needs. The protocol is triggered by the primary when a certain number of requests are executed or by clients when they detect an inconsistency.

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Secure Causal Atomic Broadcast, Revisited

Duan

Reiter

Zhang

2017

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Blockchains for Government

Clavin

Duan

Zhang

et al. 2020

Digit. Gov.: Res. Pract.

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Blockchain is the technology used by developers of cryptocurrencies, like Bitcoin, to enable exchange of financial “coins” between participants in the absence of a trusted third party to ensure the transaction, such as is typically done by governments. Blockchain has evolved to become a generic approach to store and process data in a highly decentralized and secure way. In this article, we review blockchain concepts and use cases, and discuss the challenges in using them from a governmental viewpoint. We begin with reviewing the categories of blockchains, the underlying mechanisms, and why blockchains can achieve their security goals. We then review existing known governmental use cases by regions. To show both technical and deployment details of blockchain adoption, we study a few representative use cases in the domains of healthcare and energy infrastructures. Finally, the review of both technical details and use cases helps us summarize the adoption and technical challenges of blockchains.

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Poligraph: Intrusion-Tolerant and Distributed Fake News Detection System

Shan

Zhao

Clavin

et al. 2022

IEEE Trans.Inform.Forensic Secur.

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Sisi Duan

BChain: Byzantine Replication with High Throughput and Embedded Reconfiguration

hBFT: Speculative Byzantine Fault Tolerance with Minimum Cost

Secure Causal Atomic Broadcast, Revisited

Blockchains for Government

Poligraph: Intrusion-Tolerant and Distributed Fake News Detection System

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