| ACK-J, A.-J. 2022. LORD OF THE RINGS: AN EMPIRICAL ANALYSIS OF MONERO’S RING SIGNATURE RESILIENCE TO ARTIFICIALLY INTELLIGENT ATTACKS. Multidisciplinary Academic Grants in Cryptocurrencies. |
 
|
| Added by: Jack Last edited by: Jack 1/20/23, 4:16 AM |
|
| Akcora, C. G., Gel, Y. R., & Kantarcioglu, M. (2022). Blockchain networks: Data structures of Bitcoin, Monero, Zcash, Ethereum, Ripple, and Iota, WIREs Data Mining and Knowledge Discovery, 12(1), e1436. |
|
| Added by: Rucknium 2/23/22, 10:27 PM |
|
| Alupotha, J., & Boyen, X. 2022. Practical UC-Secure Zero-Knowledge Smart Contracts. [Cryptology ePrint Archive, Paper 2022/670]. |
|
| Added by: Rucknium Last edited by: Rucknium 7/1/22, 4:11 PM |
|
| Amarasinghe, N. (2022). Systematic Modelling of Anonymity with Application to Cryptocurrencies. Unpublished PhD thesis, Queensland University of Technology. |
|
| Added by: Jack Last edited by: Jack 2/21/23, 4:34 AM |
|
| Budish, E. (2022). The Economic Limits of Bitcoin and Anonymous, Decentralized Trust on the Blockchain. Unpublished manuscript. |
|
| Added by: Rucknium 7/1/22, 4:19 PM |
|
| Campanelli, M., Hall-Andersen, M., & Kamp, S. H. 2022. Curve Trees: Practical and Transparent Zero-Knowledge Accumulators. [Cryptology ePrint Archive, Paper 2022/756]. |
|
| Added by: Rucknium Last edited by: Rucknium 8/9/24, 5:59 PM |
|
| Chung, H., Han, K., Ju, C., Kim, M., & Seo, J. H. (2022). Bulletproofs+: Shorter Proofs for a Privacy-Enhanced Distributed Ledger, IEEE Access, 10, 42067–42082. |
|
| Added by: Jack Last edited by: Jack 3/29/23, 6:12 PM |
|
| Deng, C., You, L., Tang, X., Hu, G., & Gao, S. (2022). Cuproof: Range proof with constant size, Entropy, 24(3), 334. |
|
| Added by: Jack Last edited by: Jack 3/28/23, 9:58 PM |
|
| Deuber, D., Ronge, V., & Rueckert, C. (2022). SoK: Assumptions Underlying Cryptocurrency Deanonymizations, Proceedings on Privacy Enhancing Technologies, 2022(3). |
|
| Added by: Rucknium Last edited by: Rucknium 7/5/22, 5:01 PM |
|
| Eagen, L. Li. E. 2022. Bulletproofs++. [Cryptology ePrint Archive, Report 2022/510]. |
|
| Added by: Plowsof Last edited by: Rucknium 4/5/24, 10:13 PM |
|
| Egger, C., Lai, R. W. F., Ronge, V., Woo, I. K. Y., & Yin, H. H. F. (2022). On Defeating Graph Analysis of Anonymous Transactions, Proceedings on Privacy Enhancing Technologies, 2022(3). |
|
| Added by: Rucknium Last edited by: Rucknium 7/5/22, 5:03 PM |
|
| Franzoni, F., & Daza, V. (2022). Clover: An anonymous transaction relay protocol for the bitcoin P2P network, Peer-to-Peer Networking and Applications, 15(1), 290–303. |
|
| Added by: Rucknium 7/10/24, 4:09 PM |
|
| Franzoni, F., & Daza, V. (2022). SoK: Network-Level Attacks on the Bitcoin P2P Network, IEEE Access, 10, 94924–94962. |
|
| Added by: Rucknium 8/9/24, 7:50 PM |
|
| Franzoni, F., Salleras, X., & Daza, V. (2022). AToM: Active topology monitoring for the bitcoin peer-to-peer network, Peer-to-Peer Networking and Applications, 15(1), 408–425. |
|
| Added by: Rucknium 8/9/24, 6:32 PM |
|
| Ghesmati, S., Fdhila, W., & Weippl, E. 2022. User-Perceived Privacy in Blockchain. [Cryptology ePrint Archive, Report 2022/287]. |
|
| Added by: endor 4/17/22, 8:59 PM |
|
| Gomzin, S. (2022). How Monero Works. In Crypto Basics: A Nontechnical Introduction to Creating Your Own Money for Investors and Inventors (pp. 119–137). Berkeley, CA: Apress. |
|
| Added by: Rucknium 10/22/22, 4:48 PM |
|
| Grunspan, C., & Perez-Marco, R. (2022). On Profitability of Nakamoto Double Spend, Probability in the Engineering and Informational Sciences, 36(3), 732–746. |
|
| Added by: Rucknium Last edited by: Rucknium 9/14/24, 2:08 PM |
|
| Grunspan, C., & Perez-Marco, R. 2022. Ping-Pong Swaps. arXiv. |
|
| Added by: Rucknium 12/2/22, 4:36 PM |
|
| Hoenisch, P., Mazumdar, S., Moreno-Sánchez, P., & Ruj, S. 2022. LightSwap: An Atomic Swap Does Not Require Timeouts At Both Blockchains. [Cryptology ePrint Archive, Paper 2022/1650]. |
|
| Added by: Rucknium Last edited by: Rucknium 12/13/22, 7:02 PM |
|
| Järvinen, S. (2022). Tax evasion with untraceable cryptocurrencies in OECD countries as a target of regulation. Unpublished masters thesis, Aalto University. School of Business. |
|
| Added by: Rucknium 10/22/22, 5:17 PM |
|
| Kappos, G. (2022). An Empirical Analysis of Privacy in Cryptocurrencies. Unpublished PhD thesis, UCL (University College London). |
|
| Added by: Jack Last edited by: Jack 2/21/23, 4:36 AM |
|
| Kovalchuk, L., Oliynykov, R., Bespalov, Y., & Rodinko, M. (2022). Methods of Ensuring Privacy in a Decentralized Environment. In R. Oliynykov, O. Kuznetsov, O. Lemeshko & T. Radivilova (Eds), Information Security Technologies in the Decentralized Distributed Networks (pp. 1–32). Cham: Springer International Publishing. |
|
| Added by: Rucknium 5/5/22, 10:29 PM |
|
| Li, J. (2022). Extending Succinct Zero Knowledge Proofs for Set Membership to Ring Signatures. Unpublished masters thesis, EECS Department, University of California, Berkeley. |
|
| Added by: Rucknium Last edited by: Rucknium 7/1/22, 6:05 PM |
|
| Li, W., Lin, Z., & Chen, Q. (2022). A Hybrid Design of Linkable Ring Signature Scheme with Stealth Addresses, Security and Communication Networks, 2022. |
|
| Added by: Rucknium 2/24/22, 3:44 PM |
|
| Li, Y., Weng, J., Li, M., Wu, W., Weng, J., & Liu, J.-N., et al. (2022). ZeroCross: A sidechain-based privacy-preserving Cross-chain solution for Monero, Journal of Parallel and Distributed Computing, 169, 301–316. |
|
| Added by: Rucknium 9/10/22, 7:54 PM |
|
| Liang, M., Karantaidou, I., Baldimtsi, F., Gordon, D. S., & Varia, M. (2022). (∈, δ)-Indistinguishable Mixing for Cryptocurrencies, Proceedings on Privacy Enhancing Technologies, 2022(1), 49–74. |
|
| Added by: Rucknium Last edited by: Rucknium 5/5/22, 10:24 PM |
|
| Lin, H., & Wang, M. (2022). Repudiable ring signature: Stronger security and logarithmic-size, Computer Standards & Interfaces, 80, 103562. |
|
| Added by: Rucknium 2/24/22, 6:04 PM |
|
| Lin, D., Yan, J., Ba, N., Fu, Z., & Jiang, H. (2022). Survey of anonymity and tracking technology in Monero, Journal of Computer Applications, 42(1). |
|
| Added by: Rucknium 2/23/22, 5:01 PM |
|
| Liu, L., Liu, L., Li, B., Zhong, Y., Liao, S., & Zhang, L. (2022). MSCCS: A Monero-based security-enhanced covert communication system, Computer Networks, 205, 108759. |
|
| Added by: Rucknium 2/23/22, 10:46 PM |
|
| Meier, J. (2022). Diophantine Satisfiability Arguments for Private Blockchains. Unpublished masters thesis, ETH Zurich, Zurich. |
|
| Added by: Rucknium 10/22/22, 7:40 PM |
|
| Möser, M. (2022). Cryptocurrency Privacy in Practice. Unpublished Ph.D. Dissertation, Princeton University. |
|
| Added by: Rucknium 1/8/23, 3:54 AM |
|
| Nikzad, A., & Mehregan, M. (2022). Techno-economic, and environmental evaluations of a novel cogeneration system based on solar energy and cryptocurrency mining, Solar Energy, 232, 409–420. |
|
| Added by: endor 4/17/22, 7:34 PM |
|
| Perera, M. N. S., Nakamura, T., Hashimoto, M., Yokoyama, H., Cheng, C.-M., & Sakurai, K. (2022). A Survey on Group Signatures and Ring Signatures: Traceability vs. Anonymity, Cryptography, 6(1). |
|
| Added by: Rucknium 2/26/22, 10:36 PM |
|
| Rinberg, R., & Agarwal, N. 2022. Privacy when Everyone is Watching: An SOK on Anonymity on the Blockchain. [Cryptology ePrint Archive, Paper 2022/985]. |
|
| Added by: Rucknium 10/22/22, 5:21 PM |
|
| Sarier, N. D. (2022). Privacy Preserving Biometric Authentication on the blockchain for smart healthcare, Pervasive and Mobile Computing, 86, 101683. |
|
| Added by: Rucknium 9/10/22, 7:55 PM |
|
| Sharma, P. K., Gosain, D., & Diaz, C. 2022. On the Anonymity of Peer-To-Peer Network Anonymity Schemes Used by Cryptocurrencies. arXiv. |
|
| Added by: Rucknium 12/13/22, 7:00 PM |
|
| Sui, Z., Liu, J. K., Yu, J., Au, M. H., & Liu, J. 2022. AuxChannel: Enabling Efficient Bi-Directional Channel for Scriptless Blockchains. [Cryptology ePrint Archive, Report 2022/117]. |
|
| Added by: Rucknium 2/23/22, 11:28 PM |
|
| Sui, Z., Liu, J. K., Yu, J., & Qin, X. (2022). MoNet: A Fast Payment Channel Network for Scriptless Cryptocurrency Monero, Cryptology ePrint Archive. |
|
| Added by: Jack 6/23/22, 4:11 AM |
|
| Syracuse, D., Boehm, J., & Lundgren, N. (2022). Anti-Money Laundering Regulation of Privacy Enabling Cryptocurrencies. |
|
| Added by: Jack Last edited by: Jack 1/8/23, 4:44 PM |
|
| Taneska, M., Dobreva, J., & Dimitrova, V. (2022). Forensics investigation comparison of privacy-oriented cryptocurrencies, Security & Future, 6(1). |
|
| Added by: Rucknium Last edited by: Rucknium 9/10/22, 8:04 PM |
|
| USA v. LICHTENSTEIN et al. February 7 2022. US Dept. of Justice. |
|
| Added by: Jack Last edited by: Jack 1/20/23, 3:41 AM |
|
| Wang, K., Liu, M., Wang, J., Wu, M., & Zhao, F. (2022). BBARHS: Blockchain-Based Anonymous Ride-Hailing Scheme for Autonomous Taxi Network, Security and Communication Networks, 2022, 1–13. |
|
| Added by: Rucknium 9/10/22, 7:57 PM |
|
| Xu, M., Zhang, Y., & Zhong, S. 2022. Towards Fair Multiparty Computation in Scriptless Distributed Ledger Systems. [Cryptology ePrint Archive, Report 2022/176]. |
|
| Added by: Rucknium Last edited by: Rucknium 5/5/22, 10:11 PM |
|
| Zhang, Y., & Xu, H. (2022). Accountable Monero System with Privacy Protection, Security and Communication Networks, 2022, 7746341. |
|
| Added by: Rucknium 5/5/22, 10:33 PM |
|
| Zhaolu, T., Wan, Z., & Wang, H. 2022. Division of Regulatory Power: Collaborative Regulation for Privacy-Preserving Blockchains. [Cryptology ePrint Archive, Paper 2022/1634]. |
|
| Added by: Rucknium 12/2/22, 4:10 PM |
|
