Ouroboros Crypsinous: Privacy-Preserving Proof-of-Stake
| Title | Ouroboros Crypsinous: Privacy-Preserving Proof-of-Stake |
| Publication Type | Conference Paper |
| Year of Publication | 2019 |
| Authors | Kerber, Thomas, Kiayias, Aggelos, Kohlweiss, Markulf, Zikas, Vassilis |
| Conference Name | 2019 IEEE Symposium on Security and Privacy (SP) |
| ISBN Number | 978-1-5386-6660-9 |
| Keywords | adaptive-security, bitcoin, blockchain, coin evolution technique, composability, cryptocurrencies, cryptographic protocols, data privacy, distributed ledger, distributed-ledger, key-private forward secure encryption, Leadership, Ouroboros Crypsinous, privacy, privacy-preserving proof-of-stake blockchain protocol, private blockchain, private ledgers, proof-of-stake, proof-of-work-based Zerocash, Protocols, pubcrawl, SNARKs, universal-composability, zero-knowledge |
| Abstract | We present Ouroboros Crypsinous, the first formally analyzed privacy-preserving proof-of-stake blockchain protocol. To model its security we give a thorough treatment of private ledgers in the (G)UC setting that might be of independent interest. To prove our protocol secure against adaptive attacks, we introduce a new coin evolution technique relying on SNARKs and key-private forward secure encryption. The latter primitive-and the associated construction-can be of independent interest. We stress that existing approaches to private blockchain, such as the proof-of-work-based Zerocash are analyzed only against static corruptions. |
| URL | https://ieeexplore.ieee.org/document/8835272 |
| DOI | 10.1109/SP.2019.00063 |
| Citation Key | kerber_ouroboros_2019 |
- Ouroboros Crypsinous
- zero-knowledge
- universal-composability
- SNARKs
- pubcrawl
- Protocols
- proof-of-work-based Zerocash
- proof-of-stake
- private ledgers
- private blockchain
- privacy-preserving proof-of-stake blockchain protocol
- privacy
- adaptive-security
- Leadership
- key-private forward secure encryption
- distributed-ledger
- distributed ledger
- data privacy
- Cryptographic Protocols
- cryptocurrencies
- composability
- coin evolution technique
- blockchain
- bitcoin