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Books on the topic 'The blockchain ledger'

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Author: Grafiati
Published: 10 December 2022
Last updated: 29 January 2023

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1

Treiblmaier, Horst, and Trevor Clohessy, eds. Blockchain and Distributed Ledger Technology Use Cases. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-44337-5.

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2

Lanskov, P., M. Murashov, and D. Lanskov. Digital financial assets, their origin, development and prospects in the Russian financial market. ru: INFRA-M Academic Publishing LLC., 2022. http://dx.doi.org/10.12737/1859925.

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The article discusses the economic, legal and technological foundations of the emergence of digital financial assets (CFAs) in the Russian financial market. The interrelation of the CFA and blockchain technology, which is a special case of the implementation of distributed ledger technology, is analyzed. From these positions, a vision of the role and place of cryptocurrencies in the future global economy is proposed. It is emphasized that the spread of cryptocurrencies has largely contributed to the popularization of the underlying blockchain technology, the declared advantages of this technology have been investigated. The practical aspects of the application of distributed registry technology in the context of Russian legislation are analyzed. As promising and alternative forms of CFA, the issue and placement of which is possible with the participation of securities market registrars, CFA certifying the possibility of exercising rights under equity securities, the right to demand the transfer of equity securities (tokens) and CFA directly certifying the rights to participate in the capital of a joint-stock company (digital shares) are considered. It is suggested that the global trend towards digitalization and the public need to improve the protection of investors' rights may lead to the transformation of undocumented shares into digital ones. The authors believe that digital shares in the form of CFA retain the advantages of non-documentary securities, but at the same time return the uniqueness of each individual share, as in the case of documentary securities, which much more reliably records their belonging to a specific owner.
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3

The Age of Blockchain: A Collection of Articles. New York, USA: IndraStra Global, 2018.

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4

Oliver, Peter, and Concise Reads. Blockchain 101: Distributed Ledger Technology. Independently Published, 2018.

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5

Natarajan, Harish, Solvej Krause, and Helen Gradstein. Distributed Ledger Technology and Blockchain. World Bank, Washington, DC, 2017. http://dx.doi.org/10.1596/29053.

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6

Wattenhofer, Roger. Blockchain Science: Distributed Ledger Technology. Independently Published, 2019.

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7

BlockChain: An Incorruptible Digital Ledger. Independently Published, 2019.

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8

Bolfing, Andreas. Cryptographic Primitives in Blockchain Technology. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198862840.001.0001.

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Many online applications, especially in the financial industries, are running on blockchain technologies in a decentralized manner, without the use of an authoritative entity or a trusted third party. Such systems are only secured by cryptographic protocols and a consensus mechanism. As blockchain-based solutions will continue to revolutionize online applications in a growing digital market in the future, one needs to identify the principal opportunities and potential risks. Hence, it is unavoidable to learn the mathematical and cryptographic procedures behind blockchain technology in order to understand how such systems work and where the weak points are. The book provides an introduction to the mathematical and cryptographic concepts behind blockchain technologies and shows how they are applied in blockchain-based systems. This includes an introduction to the general blockchain technology approaches that are used to build the so-called immutable ledgers, which are based on cryptographic signature schemes. As future quantum computers will break some of the current cryptographic primitive approaches, the book considers their security and presents the current research results that estimate the impact on blockchain-based systems if some of the cryptographic primitive break. Based on the example of Bitcoin, it shows that weak cryptographic primitives pose a possible danger for the ledger, which can be overcome through the use of the so-called post-quantum cryptographic approaches which are introduced as well.
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9

Lianos, Ioannis, Philipp Hacker, Stefan Eich, and Georgios Dimitropoulos, eds. Regulating Blockchain. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780198842187.001.0001.

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This collection provides an in-depth analysis of the intersection between blockchain technology and the law. Covering EU, US, and Asian jurisdictions, it assesses the necessities of and opportunities for the regulation of blockchain technology in a range of key legal fields, such as competition law, securities regulation, corporate, insurance, contract, and data protection law. Instead of postulating the disruptive superiority of distributed ledger technology across potential areas of application, however, the volume offers a nuanced treatment of use cases ranging from early applications in finance to ICOs, alternative dispute resolution platforms, and smart contracts. It takes a distinct techno-social perspective in understanding the legal implications of blockchain technology as a possible new general-purpose technology. The interaction of blockchain technology with the legal system raises key questions concerning governance and government, private order and state authority, and the relationship between different ‘calculative’ spaces for assessing and allocating value. These questions do not only have a long pedigree, they are also acutely relevant to our immediate future. By drawing on technological, political, economic, and legal points of view, the volume shows why blockchain matters for societies, and why the law matters for blockchain.
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10

Blockchain and Distributed Ledger Technology (DLT) [Working Title]. IntechOpen, 2019. http://dx.doi.org/10.5772/intechopen.82803.

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11

Omode, Jokpeme. Blockchain Distributed Ledger Technology and Cryptocurrency Investment: Cryptocurrencies Use Blockchain Technology to Record Transactions. Independently Published, 2022.

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12

DeCapua, Todd, and Matthew David. Blockchain for the Enterprise: A Visual Guide to Blockchain and Distributed Ledger Technologies for Business Leaders. Independently Published, 2018.

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13

Parkin, Jack. Money Code Space. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780197515075.001.0001.

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Newly emerging cryptocurrencies and blockchain technology present a challenging research problem in the field of digital politics and economics. Bitcoin—the first widely implemented cryptocurrency and blockchain architecture—seemingly separates itself from the existing territorial boundedness of nation-state money via a process of algorithmic decentralisation. Proponents declare that the utilisation of cryptography to advance financial transactions will disrupt the modern centralised structures by which capitalist economies are currently organised: corporations, governments, commercial banks, and central banks. Allegedly, software can create a more stable and democratic global economy; a world free from hierarchy and control. In Money Code Space, Jack Parkin debunks these utopian claims by approaching distributed ledger technologies as a spatial and social problem where power forms unevenly across their networks. First-hand accounts of online communities, open-source software governance, infrastructural hardware operations, and Silicon Valley start-up culture are used to ground understandings of cryptocurrencies in the “real world.” Consequently, Parkin demonstrates how Bitcoin and other blockchains are produced across a multitude of tessellated spaces from which certain stakeholders exercise considerable amounts of power over their networks. While money, code, and space are certainly transformed by distributed ledgers, algorithmic decentralisation is rendered inherently paradoxical because it is predicated upon centralised actors, practices, and forces.
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14

Huchzermeier, Arnd, Daniel Hellwig, and Goran Karlic. Build Your Own Blockchain: A Practical Guide to Distributed Ledger Technology. Springer, 2020.

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15

Huchzermeier, Arnd, Daniel Hellwig, and Goran Karlic. Build Your Own Blockchain: A Practical Guide to Distributed Ledger Technology. Springer International Publishing AG, 2021.

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16

Treiblmaier, Horst, and Trevor Clohessy. Blockchain and Distributed Ledger Technology Use Cases: Applications and Lessons Learned. Springer International Publishing AG, 2021.

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17

Treiblmaier, Horst, and Trevor Clohessy. Blockchain and Distributed Ledger Technology Use Cases: Applications and Lessons Learned. Springer, 2020.

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18

Mastering Blockchain: Distributed ledger technology, decentralization, and smart contracts explained, 2nd Edition. Packt Publishing, 2018.

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19

Hahn, Christopher, Mike Friedrichsen, and Adrian Wons. Blockchain: Distributed Ledger Systeme und ihre Applikation in Ökonomie, Recht und Industrie. Springer Gabler, 2021.

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20

Hellwig, Daniel. Entwickeln Sie Ihre Eigene Blockchain: Ein Praktischer Leitfaden Zur Distributed-Ledger-Technologie. Springer Berlin / Heidelberg, 2021.

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21

Handbook of Blockchain, Digital Finance, and Inclusion: Cryptocurrency, FinTech, InsurTech, Regulation - ChinaTech, Mobile Security, and Distributed Ledger. Elsevier Science & Technology Books, 2017.

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22

Lee, David, and Robert H. Deng. Handbook of Blockchain, Digital Finance, and Inclusion: Cryptocurrency, FinTech, InsurTech, Regulation, ChinaTech, Mobile Security, and Distributed Ledger. Elsevier Science & Technology Books, 2017.

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23

Vestergaard, Cindy. Blockchain for International Security: The Potential of Distributed Ledger Technology for Nonproliferation and Export Controls. Springer International Publishing AG, 2021.

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24

Vestergaard, Cindy. Blockchain for International Security: The Potential of Distributed Ledger Technology for Nonproliferation and Export Controls. Springer International Publishing AG, 2022.

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25

Schacht, Sigurd, and Carsten Lanquillon. Blockchain und maschinelles Lernen: Wie das maschinelle Lernen und die Distributed-Ledger-Technologie voneinander profitieren. Springer Vieweg, 2020.

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26

Deshpande, Advait, Katherine Stewart, Louise Lepetit, and Salil Gunashekar. Understanding the landscape of Distributed Ledger Technologies/Blockchain: Challenges, opportunities, and the prospects for standards. RAND Corporation, 2017. http://dx.doi.org/10.7249/rr2223.

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27

Lee, David, and Robert H. Deng. Handbook of Blockchain, Digital Finance, and Inclusion, Volume 2: ChinaTech, Mobile Security, and Distributed Ledger. Elsevier Science & Technology Books, 2017.

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28

Parikh, Dr Kalpesh, and Amit Johri. Blockchain QuickStart Guide: Explore Cryptography, Cryptocurrency, Distributed Ledger, Hyperledger Fabric, Ethereum, Smart Contracts and dApps. Bpb Publications, 2022.

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29

Omode, Jokpeme. Cryptocurrency Is the Future of Finance: Payments in Digital Wallets Recorded in a Public Ledger of Blockchain. Independently Published, 2022.

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30

Scherer, Peter. Blockchain Im Wertpapierbereich: Rechtsfragen der Nutzung Von Distributed Ledger Technology Bei Wertpapieren, Ihrem Handel, Ihrer Abwicklung und Ihrer Verwahrung. Mohr Siebeck GmbH & Company KG, 2020.

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31

Kay, Firth-Butterfield, Brent Richard, and Grant Tom. Part VIII The Future of the International Law of Tainted Money, 24 Virtual Currencies, Artificial Intelligence, and Emerging Legal Questions. Oxford University Press, 2017. http://dx.doi.org/10.1093/law/9780198716587.003.0024.

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This chapter provides a background to technologies such as the distributed ledger (e.g., blockchain) that underlie virtual currencies such as Bitcoin. It also considers the concept-or range of concepts-that the expression ‘Artificial Intelligence’ (AI) denotes. The chapter then presents an overview of legislation and regulation adopted to date as relevant to virtual currencies in the UK, EU, and U.S. and of policy statements suggesting the near-term course that legislation might take. Turning to private law, the chapter considers issues that Bitcoin raises in relation to private law claims. Finally, it finishes by considering wider legal and societal issues entailed by the interplay of virtual currencies, AI, and financial crime.
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32

Lipton, Alexander, and Adrien Treccani. Blockchain and Distributed Ledgers. WORLD SCIENTIFIC, 2021. http://dx.doi.org/10.1142/11857.

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33

Muchena, Heath. Blockchain Applied : Solving Legacy System Problems Across Multiple Industries with Distributed Ledger Technology: Solutions for Healthcare, Supply Chain, Insurance, Banking, Real Estate, Media & More. Independently Published, 2019.

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34

Allende, Marcos. LACChain Framework for Permissioned Public Blockchain Networks: From Blockchain Technology to Blockchain Networks. Edited by Alejandro Pardo and Marcelo Da Silva. Inter-American Development Bank, 2021. http://dx.doi.org/10.18235/0003747.

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Over the past decade, different blockchain technologies have contributed to the creation of thousands of blockchain networks which have hosted thousands of proofs of concepts and pilots, with generally satisfactory results for stakeholders. However, scalability has been a big roadblock for most of these projects. We believe that the reasons why most blockchain-based solutions do not scale well are that they are built on ledgers that are not properly designed as the instrumental piece of architecture needed by these projects and that it is not clear who is liable for what. There is rarely an upfront discussion about governance, data management and privacy, technical support, operational fees (e.g., tx fees), maintenance, regulatory risks, or sustainability in these decentralized networks. This framework is a set of recommendations that enables the creation of multipurpose network of networks that are robust, reliable, sustainable, compliant, scalable, and have clear definition of accountabilities. The framework can also be applied to both permissionless public and permissioned private blockchain networks, but can only be fully realized in a permissioned public infrastructure. The framework builds on the idea that in order to develop scalable blockchain projects and solutions, it is necessary to switch the conversation from blockchain technologies to blockchain networks.
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35

Swan, Melanie, Jason Potts, Soichiro Takagi, Frank Witte, and Paolo Tasca. Blockchain Economics: Implications of Distributed Ledgers. WORLD SCIENTIFIC (EUROPE), 2019. http://dx.doi.org/10.1142/q0190.

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36

Damodaran, A. Managing Arts in Times of Pandemics and Beyond. Oxford University Press, 2022. http://dx.doi.org/10.1093/oso/9780192856449.001.0001.

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The work seeks to provide a management perspective about museums, theatres, and related organizations (like auction houses) from the angles of philosophy, policy, organizational design, economics, and technology. The work seeks to examine the unprecedented crisis engendered by the COVID-19 pandemic on arts organizations across the world and the management strategies adopted to handle the pandemic. The work delves into the immense significance of digital technologies such as streaming technologies, algorithm-driven sales, and information storing digital ledgers like blockchains in guiding the fortunes of the arts organization both during and beyond the phase of pandemics. The key message of the book is that art organizations will not be the same even after the COVID-19 pandemic. Arts organizations that have for long relied on the real world of exhibitions and performances will be tempted to straddle in both the real and virtual models. Their revenue earnings models will also be more diversified than at present, so would their reach to their customers. Further the advent of Non-Fungible Tokens (NFTs) based on blockchain platform Ethereum, it is argued, will turn democratize the world of creation, collection, and consumption thus nudging extant institutions to change their prevalent methods of doing business in arts works.
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37

Lipton, Alexander, and Adrien Treccani. Blockchain and Distributed Ledgers: Mathematics, Technology, and Economics. World Scientific Publishing Co Pte Ltd, 2021.

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38

Lipton, Alexander, and Adrien Treccani. Blockchain and Distributed Ledgers: Mathematics, Technology, and Economics. World Scientific Publishing Co Pte Ltd, 2021.

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39

Maldonado, Fatima Castiglione. Introduction to Blockchain and Ethereum: Use distributed ledgers to validate digital transactions in a decentralized and trustless manner. Packt Publishing, 2018.

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40

Mastering Blockchain: Distributed ledgers, decentralization and smart contracts explained. Packt Publishing, 2017.

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41

Aries, Anthony. Blockchain and Distributed Ledgers: Technology and Real-World Applications. Independently Published, 2022.

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42

Swan, Melanie. Blockchain Economics: Implications of Distributed Ledgers--Markets, Communications Networks, and Algorithmic Reality. World Scientific Publishing Co Pte Ltd, 2019.

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43

Dekker, Erwin, and Pavel Kuchař, eds. Governing Markets as Knowledge Commons. Cambridge University Press, 2021. http://dx.doi.org/10.1017/9781108692915.

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Knowledge commons facilitate voluntary private interactions in markets and societies. These shared pools of knowledge consist of intellectual and legal infrastructures that both enable and constrain private initiatives. This volume brings together theoretical and empirical approaches that develop and apply the Governing Knowledge Commons framework to the evolution of various kinds of shared knowledge structures that underpin exchanges of goods, services, and ideas. Chapters offer vivid and illuminating case studies that illustrate this conceptual framework. How did pooling scientific knowledge enable the Industrial Revolution? How do social networks underpin the credit system enabling the Agra footwear market? How did the market category Scotch whisky emerge and who has access to it? What is the potential of blockchain-ledgers as shared knowledge repositories? This volume demonstrates the importance of shared knowledge in modern society.
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44

Chourou, Lamia. Virtual Currencies as Commodities. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780190656010.003.0026.

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The rapid advancement in encryption and network computing gave birth to new tools and products that have influenced the local and global economy alike. One recent and notable example is the emergence of virtual currencies, also known as cryptocurrencies or digital currencies. Virtual currencies, such as Bitcoin, introduced a fundamental transformation that affected the way goods, services, and assets are exchanged. As a result of their distributed ledgers based on blockchains, cryptocurrencies not only offer some unique advantages to the economy, investors, and consumers, but also pose considerable risks to users and challenges for regulators when fitting the new technology into the old legal framework. This chapter offers a nontechnical discussion of several aspects and features of virtual currencies and a glimpse at what the future may hold for these decentralized currencies.
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45

Witte, Frank, Melanie Swan, and Renato P. Dos Santos. Blockchain Physics: Quantum Computing, Distributed Ledgers, Machine Learning, and Other Smart Network Technologies. World Scientific Publishing UK Limited, 2020.

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46

Feng, Chen, and Victoria Lemieux. Building Decentralized Trust: Multidisciplinary Perspectives on the Design of Blockchains and Distributed Ledgers. Springer International Publishing AG, 2021.

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47

Feng, Chen, and Victoria L. Lemieux. Building Decentralized Trust: Multidisciplinary Perspectives on the Design of Blockchains and Distributed Ledgers. Springer International Publishing AG, 2022.

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48

DOTY, John. Bitcoin Blockchain Technology. Decentralized Security of Information, Investments, Digital Property. Ledgers, Databases, Internet Revolution: Defining the Bitcoin Blockchain from the Beginning , Understanding the Technology for the Next Generation Trade. Independently Published, 2021.

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49

Seymour, Robert. Blockchain Future: Bitcoin, Cryptocurrency, Blockchain Technology, de-Centralised Ledgers, Smart Contracts, Crypto Wallets, NFTS and Web 3. 0. What It Can Do in the Real World Now and in the Future! Independently Published, 2021.

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50

Mastering Blockchain: A Deep Dive into Distributed Ledgers, Consensus Protocols, Smart Contracts, DApps, Cryptocurrencies, Ethereum, and More, 3rd Edition. Packt Publishing, Limited, 2020.

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