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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
Aslam, S., Tošić, A., & Mrissa, M. (2021). Secure and privacy-aware blockchain design: Requirements, challenges and solutions. Journal of Cybersecurity and Privacy, 1(1), 164–194.  
Added by: Rucknium 2/23/22, 3:58 PM
Aziz, A. B. A., Ngah, S. B., Dun, Y. T., & Bee, T. F. (2020). Coinhive’s monero drive-by crypto-jacking. IOP Conference Series: Materials Science and Engineering, 769(1), 12065.  
Last edited by: Jack 1/18/23, 12:05 AM
Biryukov, A., & Tikhomirov, S. (2019). Security and privacy of mobile wallet users in bitcoin, dash, monero, and zcash. Pervasive and Mobile Computing, 59, 101030.  
Last edited by: Jack 1/8/23, 3:27 AM
Borggren, N., & Yao, L. (2020). Correlations of multi-input monero transactions. arXiv preprint arXiv:2001.04827,  
Last edited by: Rucknium 4/20/22, 3:36 PM
Borggren, N., Kim, H.-Y., Yao, L., & Koplik, G. (2020). Simulated blockchains for machine learning traceability and transaction values in the monero network. arXiv preprint arXiv:2001.03937,  
Last edited by: Jack 4/1/22, 6:46 PM
Broniatowski, M. (2021). Minimum divergence estimators, maximum likelihood and the generalized bootstrap. Entropy, 23(2), 185.  
Last edited by: Rucknium 3/12/22, 4:40 AM
Deuber, D., Ronge, V., & Rueckert, C. (2022). Sok: assumptions underlying cryptocurrency deanonymizations. Proceedings on Privacy Enhancing Technologies, 2022(3).  
Last edited by: Rucknium 7/5/22, 5:01 PM
Dutta, A., Bagad, S., & Vijayakumaran, S. (2021). Mprove+: Privacy enhancing proof of reserves protocol for monero. IEEE Transactions on Information Forensics and Security, 16, 3900–3915.  
Last edited by: Rucknium 2/24/22, 7:18 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).  
Last edited by: Rucknium 7/5/22, 5:03 PM
Erg"un, Z. C., & KARABIYIK, B. K. Forecasting monero prices with a machine learning algorithm. Eskic{s}ehir Osmangazi "Universitesi .Iktisadi ve .Idari Bilimler Dergisi, 16(3), 651–663.  
Last edited by: Jack 1/20/23, 5:38 PM
Fantazzini, D., & Kolodin, N. (2020). Does the hashrate affect the bitcoin price?. Journal of Risk and Financial Management, 13(11).  
Added by: endor 4/17/22, 9:15 PM
Fanti, G., Venkatakrishnan, S. B., Bakshi, S., Denby, B., Bhargava, S., & Miller, A., et al. (2018). Dandelion++ lightweight cryptocurrency networking with formal anonymity guarantees. Proceedings of the ACM on Measurement and Analysis of Computing Systems, 2(2), 1–35.  
Last edited by: Jack 1/20/23, 5:44 PM
Fanti, G., Venkatakrishnan, S. B., Bakshi, S., Denby, B., Bhargava, S., & Miller, A., et al. (2018). Dandelion++: Lightweight cryptocurrency networking with formal anonymity guarantees. Proc. ACM Meas. Anal. Comput. Syst. 2(2).  
Added by: Rucknium 10/22/22, 8:53 PM
Gligoroski, D. (2023). A transformation for lifting discrete logarithm based cryptography to post-quantum cryptography. Cryptology ePrint Archive,  
Last edited by: Jack 3/6/23, 10:32 PM
Goodell, B., Noether, S., & Blue, A. (2019). Concise linkable ring signatures and forgery against adversarial keys. Cryptology ePrint Archive, Paper 2019/654,  
Last edited by: Jack 1/20/23, 5:53 PM
Goorha, P. Principles of natural resource economics for bitcoin. The Journal of The British Blockchain Association, 4(August).  
Last edited by: endor 4/14/22, 8:14 PM
Guo, Z., Shi, L., Xu, M., & Yin, H. (2021). Mrcc: A practical covert channel over monero with provable security. IEEE Access, 9, 31816–31825.  
Last edited by: Rucknium 8/6/22, 9:24 PM
Hoenisch, P., & Pino, L. S. D. (2021). Atomic swaps between bitcoin and monero. CoRR, abs/2101.12332,  
Last edited by: Rucknium 2/24/22, 6:54 PM
Huberman, G., Leshno, J. D., & Moallemi, C. (2021). Monopoly without a Monopolist: An Economic Analysis of the Bitcoin Payment System. The Review of Economic Studies, 88(6), 3011–3040.  
Last edited by: endor 4/19/22, 11:07 PM
Karame, G. O., Androulaki, E., Roeschlin, M., Gervais, A., & vCapkun, S. (2015). Misbehavior in bitcoin: A study of double-spending and accountability. ACM Trans. Inf. Syst. Secur. 18(1).  
Last edited by: endor 4/17/22, 7:51 PM
Kearney, J. J., & Perez-Delgado, C. A. (2021). Vulnerability of blockchain technologies to quantum attacks. Array, 10, 100065.  
Added by: Rucknium 5/3/22, 3:13 AM
Koerhuis, W., Kechadi, T., & Le-Khac, N.-A. (2020). Forensic analysis of privacy-oriented cryptocurrencies. Forensic Science International: Digital Investigation, 33, 200891.  
Added by: Rucknium 9/10/22, 7:55 PM
Li, J., Li, N., Peng, J., Cui, H., & Wu, Z. (2019). Energy consumption of cryptocurrency mining: A study of electricity consumption in mining cryptocurrencies. Energy, 168, 160–168.  
Added by: endor 4/17/22, 7:30 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., Yang, G., Susilo, W., Yu, Y., Au, M. H., & Liu, D. (2021). Traceable monero: Anonymous cryptocurrency with enhanced accountability. IEEE Transactions on Dependable and Secure Computing, 18(2), 679–691.  
Added by: Rucknium 6/30/22, 10:22 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.  
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
Mondschein, C. F. (2020). Browser-based crypto mining and eu data protection and privacy law: A critical assessment and possible opportunities for the monetisation of web services. The Journal of The British Blockchain Association,  
Last edited by: Rucknium 5/3/22, 12:53 PM
Möser, M., Soska, K., Heilman, E., Lee, K., Heffan, H., & Srivastava, S., et al. (2018). An empirical analysis of traceability in the monero blockchain. Proceedings on Privacy Enhancing Technologies, 2018(3), 143–163.  
Added by: Rucknium 2/23/22, 4:14 PM
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
Purkovic, S., Mekic, E., Kuk, K., & Gostimirovic, L. (2021). Empirical analysis of silent mining operation in the monero system. Studies in Informatics and Control, 30(4), 99–108.  
Last edited by: Jack 1/20/23, 6:21 PM
Renwick, R., & Gleasure, R. (2021). Those who control the code control the rules: How different perspectives of privacy are being written into the code of blockchain systems. Journal of Information Technology, 36(1), 16–38.  
Added by: Rucknium 3/9/22, 7:45 PM
Ronge, V., Egger, C., Lai, R. W. F., Schröder, D., & Yin, H. H. F. (2021). Foundations of ring sampling. Proceedings on Privacy Enhancing Technologies, 2021(3), 265–288.  
Added by: Rucknium 2/23/22, 4:13 PM
Rueckert, C. (2019). Cryptocurrencies and fundamental rights. Journal of Cybersecurity, 5(1).  
Added by: Rucknium 5/3/22, 12:49 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
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
Taneska, M., Dobreva, J., & Dimitrova, V. (2022). Forensics investigation comparison of privacy-oriented cryptocurrencies. Security & Future, 6(1).  
Last edited by: Rucknium 9/10/22, 8:04 PM
Tang, W., Wang, W., Fanti, G., & Oh, S. (2020). Privacy-utility tradeoffs in routing cryptocurrency over payment channel networks. Proc. ACM Meas. Anal. Comput. Syst. 4(2).  
Last edited by: Rucknium 10/22/22, 8:37 PM
Vranken, H. (2017). Sustainability of bitcoin and blockchains. Current Opinion in Environmental Sustainability, 28, 1–9.  
Added by: endor 4/17/22, 7:32 PM
Vries, A. D. (2020). Bitcoin’s energy consumption is underestimated: A market dynamics approach. Energy Research & Social Science, 70, 101721.  
Added by: endor 4/17/22, 7:32 PM
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
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
WIKINDX 6.5.0 | Total resources: 171 | Username: -- | Bibliography: WIKINDX Master Bibliography | Style: American Psychological Association (APA)