Lisa Eckey scite author profile

Lisa Eckey

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5Publications

262Citation Statements Received

63Citation Statements Given

How they've been cited

How they cite others

Affiliations

Deutsche Telekom (Germany), Technical University of Darmstadt

Publications

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Perun: Virtual Payment Hubs over Cryptocurrencies

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et al. 2019

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Payment channels emerged recently as an efficient method for performing cheap micropayments in cryptocurrencies. In contrast to traditional on-chain transactions, payment channels have the advantage that they allow for nearly unlimited number of transactions between parties without involving the blockchain. In this work, we introduce Perun, an off-chain channel system that offers a new method for connecting channels that is more efficient than the existing technique of "routing transactions" over multiple channels. To this end, Perun introduces a technique called "virtual payment channels" that avoids involvement of the intermediary for each individual payment. In this paper we formally model and prove security of this technique in the case of one intermediary, who can be viewed as a "payment hub" that has direct channels with several parties. Our scheme works over any cryptocurrency that provides Turing-complete smart contracts. As a proof of concept, we implemented Perun's smart contracts in Ethereum.

FairSwap

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2018

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Multi-party Virtual State Channels

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et al. 2019

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OptiSwap: Fast Optimistic Fair Exchange

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2020

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Selling digital commodities securely over the Internet is a challenging task when Seller and Buyer do not trust each other. With the advent of cryptocurrencies, one prominent solution for digital exchange is to rely on a smart contract as a trusted arbiter that fairly resolves disputes when Seller and Buyer disagree. Such protocols have an optimistic mode, where the digital exchange between the parties can be completed with only minimal interaction with the smart contract. In this work we present OptiSwap, a new smart contract based fair exchange protocol that significantly improves the optimistic case of smart contract based fair exchange protocols. In particular, OptiSwap has almost no overhead in communication complexity, and improves on the computational overheads of the parties compared to prior solutions. An additional feature of OptiSwap is a protection mechanism against so-called grieving attacks, where an adversary attempts to violate the financial fairness of the protocol by forcing the honest party to pay fees. We analyze OptiSwap's security in the UC model and provide benchmark results over Ethereum. CCS CONCEPTS • Security and privacy → Cryptography.

DeFi-ning DeFi: Challenges & Pathway

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et al. 2021

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