Beacon Protocols

Beacon Protocols

  • RandPiper – Reconfiguration-Friendly Random Beacons with Quadratic Communication. Adithya Bhat, Nibesh Shrestha, Zhongtang Luo, Aniket Kate, and Kartik Nayak. 2021
  • RandPiper – Reconfiguration-Friendly Random Beacons with Quadratic Communication. Adithya Bhat, Nibesh Shrestha, Zhongtang Luo, Aniket Kate, and Kartik Nayak. 2021
  • HydRand: Efficient Continuous Distributed Randomness. Philipp Schindler, Aljosha Judmayer, Nicholas Stifter, and Edgar Weippl. 2020
  • Spurt: Scalable Distributed Randomness Beacon with Transparent Setup. Sourav Das, Vinith Krishnan, Irene Miriam Isaac, and Ling Ren. 2022
  • RandRunner: Distributed Randomness from Trapdoor VDFs with Strong Uniqueness. Philipp Schindler, Aljosha Judmayer, Markus Hittmeir, Nicholas Stifter, and Edgar Weippl. 2021
  • OptRand: Optimistically responsive distributed random beacons. Adithya Bhat, Nibesh Shrestha, Aniket Kate, and Kartik Nayak. 2022
  • Homomorphic Encryption Random Beacon. Alisa Cherniaeva. 2019
  • Distributed Random Beacon for Blockchain Based on Share Recovery Threshold Signature. Yan Zhu, Bingyu Li, Yang Yang, Zhenyang Ding, Haibing Zheng, Guangyu He, and Shengjie Hou. 2022
  • Unread [0/15]
    • [ ] cite:@mengRondoScalableReconfigurationFriendly2024 Meng, X., Sui, X., Yang, Z., Rong, K., Xu, W., Chen, S., Yan, Y., … (2024). Rondo: Scalable and Reconfiguration-Friendly Randomness Beacon.
    • [ ] cite:@hanFairDeliveryDecentralised2023 Han, R., & Yu, J. (2023). Fair Delivery of Decentralised Randomness Beacon.
    • [ ] cite:@computersecuritydivisionInteroperableRandomnessBeacons2021 Computer Security Division, I. T. L. (2021). Interoperable Randomness Beacons: CSRC.
    • [ ] cite:@christCornucopiaDistributedRandomness2023 Christ, M., Choi, K., & Bonneau, J. (2023). Cornucopia: Distributed randomness beacons at scale.
    • [ ] cite:@choiSoKDistributedRandomness2023 Choi, K., Manoj, A., & Bonneau, J. (2023). SoK: Distributed Randomness Beacons.
    • [ ] cite:@choiBicornOptimisticallyEfficient2023 Choi, K., Arun, A., Tyagi, N., & Bonneau, J. (2023). Bicorn: An optimistically efficient distributed randomness beacon.
    • [ ] cite:@cascudoMtRandomMultiTiered2021 Cascudo, I., David, B., Shlomovits, O., Varlakov, D., Zengo, X., Aviv, T., Zengo, X., … (2021). Mt . Random : Multi-Tiered Randomness Beacons. , (), .
    • [ ] cite:@bunzProofsofdelayRandomnessBeacons2017 Bunz, B., Goldfeder, S., & Bonneau, J. (2017). Proofs-of-delay and randomness beacons in Ethereum. IEEE Security and Privacy on the Blockchain, (), 1–11.
    • [ ] cite:@beaverSTROBEStreamingThreshold2023 Beaver, D., Kelkar, M., Lewi, K., Nikolaenko, V., Sonnino, A., Chalkias, K., Kokoris-Kogias, Lefteris, … (2023). STROBE: Streaming Threshold Random Beacons. , (), .
    • [ ] cite:@beaverSTROBEStakebasedThreshold2021 Beaver, D., Chalkias, K., Kelkar, M., Kogias, L. K., Lewi, K., de Naurois, L., Nicolaenko, V., … (2021). STROBE: Stake-based Threshold Random Beacons.
    • [ ] cite:@bachoGRandLineAdaptivelySecure2023 Bacho, R., Lenzen, C., Loss, J., Ochsenreither, S., & Papachristoudis, D. (2023). GRandLine: Adaptively Secure DKG and Randomness Beacon with (Almost) Quadratic Communication Complexity.
    • [ ] cite:@bachoAdaptivelySecureAggregatable2023 Bacho, R., & Loss, J. (2023). Adaptively Secure (Aggregatable) PVSS and Application to Distributed Randomness Beacons.
    • [ ] cite:@zhuDistributedRandomBeacon2022 Zhu, Y., Li, B., Yang, Y., Ding, Z., Zheng, H., He, G., & Hou, S. (2022). Distributed Random Beacon for Blockchain Based on Share Recovery Threshold Signature. Sensors, 22(16), 6004.
    • [ ] cite:@raikwarSoKDecentralizedRandomness2022 Raikwar, M., & Gligoroski, D. (2022). SoK: Decentralized Randomness Beacon Protocols.
    • [ ] cite:@raikwarCompetitiveDecentralizedRandomness2022 Raikwar, M. (2022). Competitive Decentralized Randomness Beacon Protocols. In , Proceedings of the Fourth ACM International Symposium on Blockchain and Secure Critical Infrastructure (pp. 83–94). New York, NY, USA: Association for Computing Machinery.