On communication-efficient asynchronous MPC with adaptive security
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Publication:2697849
DOI10.1007/978-3-030-90453-1_2OpenAlexW3212260970MaRDI QIDQ2697849
Chen-Da Liu-Zhang, Martin Hirt, Annick Chopard
Publication date: 13 April 2023
Full work available at URL: https://doi.org/10.1007/978-3-030-90453-1_2
Cryptography (94A60) Data encryption (aspects in computer science) (68P25) Computer system organization (68Mxx)
Related Items (4)
\textsf{Bingo}: adaptivity and asynchrony in verifiable secret sharing and distributed key generation ⋮ Network-agnostic security comes (almost) for free in DKG and MPC ⋮ On the communication efficiency of statistically secure asynchronous MPC with optimal resilience ⋮ On communication-efficient asynchronous MPC with adaptive security
Cites Work
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- Security and composition of multiparty cryptographic protocols
- Efficient asynchronous verifiable secret sharing and multiparty computation
- Guaranteed output delivery comes free in honest majority MPC
- Communication-efficient unconditional MPC with guaranteed output delivery
- On communication-efficient asynchronous MPC with adaptive security
- Asynchronous Secure Multiparty Computation in Constant Time
- Near-Linear Unconditionally-Secure Multiparty Computation with a Dishonest Minority
- Constant-Round Asynchronous Multi-Party Computation Based on One-Way Functions
- Magic Functions
- Asynchronous Multi-Party Computation with Quadratic Communication
- Scalable and Unconditionally Secure Multiparty Computation
- Efficient Statistical Asynchronous Verifiable Secret Sharing with Optimal Resilience
- Asynchronous secure computations with optimal resilience (extended abstract)
- Cryptographic Asynchronous Multi-party Computation with Optimal Resilience
- Advances in Cryptology - CRYPTO 2003
- Perfectly-Secure MPC with Linear Communication Complexity
- Robust Multiparty Computation with Linear Communication Complexity
- Scalable Secure Multiparty Computation
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