Abstract
RCANE platform was proposed in our previous work which is a semi-centralized network of parallel blockchain and authorized proof of stakes (APoS). In that paper, the proposed RCANE platform was presented to solve the challenges of previous platforms and comply with our preconceived perspectives of the current political, social, and economic systems to build up an ecosystem for economy, society and politics. In addition, RCANE platform aims to pioneer the ‘content market’, where the cryptographic currency has an intrinsic value and can cover the blind spots of existing currencies, create new profitability by organizing system to give value to contents without monetary value, and establish cryptocurrency ecosystem to create a sustainable business model based on social and economic value to lead the future huge content market. However, the network security and the performance of RCANE platform are still open issues which must be improved. In this paper, an alternative development of the security network and performance of RCANE platform is presented to show its’ advantages in comparison with previous platforms more clearly. The performance of RCANE platform in terms of transaction confirmation time, the number of transaction per second and latency is emphasized.
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References
Van Toan, N., Park, U., & Ryu, G. (2018). RCANE: Semi-centralized network of parallel Blockchain and APoS. In The 24th International Conference on Parallel and Distributed Systems (IEEE ICPADS 2018), Singapore. December 11–13, 2018.
Abramowicz, M. (2016). Autonocoin: A proof-of-belief cryptocurrency. LEDGER, 1, 119–133.
Sward, A., Vecna, I., & Stonedahl, F. (2018). Data insertion in Bitcoin’s Blockchain. LEDGER, 3, 1–23.
Muftic, S. (2016). BIX certificates: Cryptographic tokens for anonymous transactions based on certificates public Ledger. LEDGER, 1, 19–37.
Muftic, S., bin Abbdullah, N., & Kounelis, I. (2016). Business information exchange system with security, privacy, and anonymity. Journal of Electrical and Computer Engineering, 1–10. https://doi.org/10.1155/2016/7093642.
Origami Network Team. (2018). A protocol for Bulding decentralized marketplaces using the Ethereum Blockchain. In White Paper. http://ori.network, February 26, 2018.
WaBi Team. (2018). WaBi—Crypto token for safe consumer products. In White Paper. www.wacoin.io.
Buterin, V. (2014). Secret sharing and erasure coding: A guide for the aspiring dropbox decentralizer. In Ethereum Blog. https://blog.ethereum.org/2014/08/16/secretsharing-erasure-coding-guide-aspiring-dropbox-decentralizer/, August 16, 2014.
Lehner, E., Hunzeker, D., & Ziegler, J. R. (2017). Funding science with science: Cryptocurrency and independent academic research funding. LEDGER, 2, 65–76.
Kraft, D. (2016). Game channels for trustless off-chain interactions in decentralized virtual worlds. LEDGER, 1, 84–98.
Piasecki, P. J. (2016). Gaming self-contained provably fair smart contract Casios. LEDGER, 1, 99–110.
Biryukov, A., & Khovratovich, D. (2017). Equihash: Asymmetric proof-of-work based on the generalized birthday problem. LEDGER, 2, 1–30.
Rizun, P. R. (2016). Subchains: A technique to Scale Bitcoin and improve the user experience. LEDGER, 1, 38–52.
ICON Foundation. (2017). ICON hyperconnect the world. In White Paper. www.icon.foundation, August 15, 2017.
Bitdegree Project. (2017). Revolutionizing global education with Blockchain. In White Paper. www.bitdgree.org, October 9, 2017.
Ian Grigg. (2017). EOS—An introduction. www.eos.io, July 05 2017.
SwissBorg Project. (2017). The Blockchain era of Swiss wealth management. In Technical White Paper. www.swissborg.com, November 16, 2017.
Open Source University Project. (2018). The world’s academic & career development Ledger. In White Paper. www.os.university, April 16, 2018.
The Gamy Tech Team. (2018). Game protocol: A decentralized economy for great games. In White Paper. www.gameprotocol.io.
Yantis, J., Quigley, W., & CasSelle, M. (2018). Global decentralized marketplace for video game virtual assets. In Worldwide Asset eXchange (WAX) Project. March 29, 2018.
The ZilliQa Team. (2017). The Zilliqa technical whitepaper. www.zilliqa.com, August 10, 2017.
Buterin, V. (2016). A next-generation smart contract and decentralized application platform. In White paper.
Buterin, V. (2015). On slow and fast block times. In Ethereum Block. https://blog.ethereum.org/2015/09/14/on-slow-and-fast-block-times, September 13, 2015.
Scalability. (2015). Bitcoin Wiki. https://en.bitcoin.it/wiki/Scalability, December 13, 2015.
Ethereum Frontier. (2015). https://www.ethereum.org/, Accessed November 30, 2015.
Schwartz, D., Youngs, N., & Britto, A. (2014). The ripple protocol consensus algorithm. In White Paper. Ripple Labs Inc.
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This research was supported by the RCANE Project, supervised by the RCANE LAB.
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Nguyen, T.V., Ryu, G. (2020). An Alternative Development for RCANE Platform. In: Lee, R. (eds) Software Engineering Research, Management and Applications. SERA 2019. Studies in Computational Intelligence, vol 845. Springer, Cham. https://doi.org/10.1007/978-3-030-24344-9_13
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DOI: https://doi.org/10.1007/978-3-030-24344-9_13
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