Avarikioti, G., Pietrzak, K., Salem, I., Schmid, S., Tiwari, S., & Yeo, M. (2022). Hide & Seek: Privacy-Preserving Rebalancing on Payment Channel Networks. In I. Eyal & J. Garay (Eds.), Financial Cryptography and Data Security (pp. 358–373). Springer-Verlag. https://doi.org/10.1007/978-3-031-18283-9_17
26th International Conference Financial Cryptography and Data Security (FC ´22)2022
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Event date:
2-May-2022 - 6-May-2022
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Event place:
Grenada, Grenada
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Number of Pages:
16
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Publisher:
Springer-Verlag, Berlin, Heidelberg
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Peer reviewed:
Yes
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Keywords:
Payment channel networks; Privacy; Rebalancing
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Abstract:
Payment channels effectively move the transaction load off-chain thereby successfully addressing the inherent scalability problem most cryptocurrencies face. A major drawback of payment channels is the need to “top up” funds on-chain when a channel is depleted. Rebalancing was proposed to alleviate this issue, where parties with depleting channels move their funds along a cycle to replenish their channels off-chain. Protocols for rebalancing so far either introduce local solutions or compromise privacy. In this work, we present an opt-in rebalancing protocol that is both private and globally optimal, meaning our protocol maximizes the total amount of rebalanced funds. We study rebalancing from the framework of linear programming. To obtain full privacy guarantees, we leverage multi-party computation in solving the linear program, which is executed by selected participants to maintain efficiency. Finally, we efficiently decompose the rebalancing solution into incentive-compatible cycles which conserve user balances when executed atomically.
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Project title:
Ein zusammensetzbarer rationaler Rahmen für Blockchains: ESP 68-N (Fonds zur Förderung der wissenschaftlichen Forschung (FWF)) Forschungszentrum für Cybersicherheit und Datenschutz in Wien: ViSP (Wirtschaftsagentur Wien)
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Project (external):
Austrian Science Fund (FWF) project “Design Framework for Self- Driving Networks” (ADVISE) ERC Starting Grant Harmony through the Research DAO