Blockchain technology and the possibilities of its use

Автор: Zakharov V.V., Rybak V.L.

Журнал: Вестник Южно-Уральского государственного университета. Серия: Компьютерные технологии, управление, радиоэлектроника @vestnik-susu-ctcr

Рубрика: Краткие сообщения

Статья в выпуске: 3 т.20, 2020 года.

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Introduction. With the development of digital technology, most familiar processes are changing. Without information technology, it is already impossible to imagine either medicine or the field of education. Big data and artificial intelligence come to almost every area of society, everything around is becoming “smart”. According to the forecasts of the participants of the St. Petersburg International Economic Forum, held in 2019, the global market for products using artificial intelligence and advanced information technologies can grow by almost 17 times by 2024. A national strategy for the development of technologies in the field of artificial intelligence and information technologies has been prepared in the Russian Federation, and a detailed action plan has been integrated into the national program “Digital Economy”. Digitalization today covers almost all aspects of the interaction of the citizen and business with authorities. Digitalization of business processes takes place, technologies are introduced into the activities of industrial enterprises, in the organization of public services and financial institutions. Aim. Consider the technology of blockchain, its origin, advantages and disadvantages, as well as the possibilities and prospects of using this technology. Materials and methods. As part of the materials and methods, one should point to an analysis of the theoretical foundations of the blockchain technology, the practical results of its implementation and use in various fields of activity: from public life to business. Since it is blockchain technology that occupies a special place among the promising information technologies and is increasingly used in business, as well as government, and will undoubtedly affect the familiar picture of the world, how the Internet has changed the world of information exchange in its time. Results. The article makes an attempt to assess the origin, current state, the possibilities of using blockchain technology, as well as its impact on traditional business processes and socio-economic transformation as a result of the digitalization process. Conclusion. It is believed that blockchain technology can be a real breakthrough in the field of finance, secure databases and the reliability of certain facts. For the largest foreign and domestic companies, this is not just a concept from an approximate future, but now it is part of the business, and the future life of society as a whole depends on how well it is to use and manage blockchain technology.

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Blockchain technology, digitalization, digital economy, технология blockchain

Короткий адрес: https://sciup.org/147233765

IDR: 147233765 | DOI: 10.14529/ctcr200315

Список литературы Blockchain technology and the possibilities of its use

Kosba A. Hawk: The Blockchain Model of Cryptography and Privacy-Preserving Smart Contracts. 2016 IEEE symposium on security and privacy (SP), 2016, 839-858 pp.
Farmer J.A. The Spector of Crypto-anarchy: Regulating Anonymity-Protecting Peer-To-Peer Networks. L. Rev, 2003, vol. 72, pp. 725-725.
Zyskind G., Nathan O., Pentland A. Enigma: Decentralized Computation Platform with Guaranteed Privacy. arXivpreprint arXiv, 2015, 1506.03471.
Wood G. Ethereum: A Secure Decentralised Generalised Transaction Ledger. Ethereum project yellow paper, 2014, no. 151, 1-32 pp.
Dannen C. Introducing Ethereum and Solidity. Berkeley, Apress, 2017. 206 p.
Van Saberhagen N. CryptoNote v 2.0, 2013 [CryptoNote v 2.0, 2013]. Fvailiable at: https://cryp-tonote.org/whitepaper.pdf (accessed 02.03.2020)
Sun S.F. RingCT 2.0: a Compact Aaccumulator-Based (Linkable Ring Signature) Protocol for Blockchain Cryptocurrency Monero. European Symposium on Research in Computer Security, 2017, pp. 456-474.
Noether S. Ring Signature Confidential Transactions for Monero. IACR Cryptology ePrint Archive, 2015.1098 p.
Miller A. An Empirical Analysis of Linkability in the Monero Blockchain. arXiv preprint, 2017, no.1704.
Sasson E. B. Zerocash: Decentralized Anonymous Payments from Bitcoin. 2014 IEEE Symposium on Security and Privacy (SP), 2014, pp. 459-474.
Miers I. Zerocoin: Anonymous Distributed E-Cash from Bitcoin. 2013 IEEE Symposium on Security and Privacy (SP), 2013, pp. 397-411.
Hopwood D. Zcash Protocol Specification. Vol. 1.10. Zerocoin Electric Coin Company. Technical report, 2016.
Nakamoto S. Bitcoin: A Peer-to-Peer Electronic Cash System, 2008.
Eyal I., Sirer E.G. Majority is not Enough: Bitcoin Mining is Vulnerable. Communications of the ACM, 2018, vol. 61, no. 7, pp. 95-102.
Reid F., Harrigan M. An Analysis of Anonymity in the Bitcoin System. Security and Privacy in Social Networks, 2013, pp. 197-223.
Buterin V. Next-Generation Smart Contract and Decentralized Application Platform [A Smartkontrakt sleduyushchego pokoleniya i detsentralizovannaya prikladnaya platforma], Ethereum White Paper, 2014, pp. 1-36.
Clack C.D., Bakshi V.A., Braine L. Smart Contract Templates: Foundations, Design Landscape and Research Directions, arXiv: 1608.00771v3, 2016, pp. 1-15.
Bartoletti M., Pompianu L. An Empirical Analysis of Smart Contracts: Platforms, Applications and Design Patterns. International Conference on Financial Cryptography and Data Security, 2017, pp. 494-509.
Bartoletti M., Pompianu L. An Empirical Analysis of Smart Contracts: Platforms, Applications and Design Patterns. International Conference on Financial Cryptography and Data Security, 2017, pp. 494-509.
Duffield E., Hagan K. Darkcoin: PeertoPeer CryptoCurrency with Anonymous Blockchain Transactions and an Improved ProofofWork System [Darkcoin: kriptovalyuta PeertoPeer s anonimnymi tranzaktsiyami blokcheyna i uluchshennoy sistemoy ProofofWork], 2014.
Duffield E., Diaz D. Dash: A PrivacyCentric CryptoCurrency, 2015.
Raskin M. The Law and Legality of Smart Contracts [Zakon i zakonnost' smart-kontraktov], 2016.
Yuan R. ShadowEth: Private Smart Contract on Public Blockchain. Journal of Computer Science and Technology, 2018, vol. 33, no. 3, pp. 542-556.
Ruj S. BlockStore: A Secure Decentralized Storage Framework on Blockchain. 2018 IEEE 32nd International Conference on Advanced Information Networking and Applications (AINA), 2018, pp.1096-1103.
Sánchez D.C. Raziel: Private and Verifiable Smart Contracts on Blockchains [Raziel': chastnyye iproveryayemyye smart-kontrakty na blokcheynakh], 2018.
Cheng R. Ekiden: A Platform for Confidentiality-Preserving, Trustworthy, and Performant Smart Contract Execution [Platforma dlya sokhraneniya konfidentsial'nosti, nadezhnosti i effektivnosti ispolneniya smart-kontraktov], 2018.
Swan M. Blockchain: Blueprint for a new economy [Blokcheyn: proyekt novoy ekonomiki], 2015.
Zyskind G. Decentralizing Privacy: Using Blockchain to Protect Personal Data. Security and Privacy Workshops (SPW), 2015, pp. 180-184.
Cachin C. Architecture of the Hyperledger Blockchain Fabric. Workshop on Distributed Cryptocurrencies and Consensus Ledgers, 2016, vol. 310.
Guo Y., Liang C. Blockchain Application and Outlook in the Banking Industry. Financial Innovation, 2016, vol. 2, no. 1, pp. 24-24.

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