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Blockchain for real world applications /

"Distributed Ledger Technology (DLT) is a technical infrastructure and protocol that allows simultaneous access, verification and updating of records in an irreversible manner over a network spanning multiple entities or locations. It can be a Blockchain, Directed Acylic Graph, Hashgraph, Holoc...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Garg, Rishabh (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken, New Jersey : John Wiley & Sons, Inc., 2023.
Temas:
Acceso en línea:Texto completo (Requiere registro previo con correo institucional)

MARC

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100 1 |a Garg, Rishabh,  |e author. 
245 1 0 |a Blockchain for real world applications /  |c Rishabh Garg. 
264 1 |a Hoboken, New Jersey :  |b John Wiley & Sons, Inc.,  |c 2023. 
264 4 |c ©2023 
300 |a 1 online resource (xxviii, 385 pages) :  |b illustrations (some color) 
336 |a text  |b txt  |2 rdacontent 
337 |a computer  |b c  |2 rdamedia 
338 |a online resource  |b cr  |2 rdacarrier 
504 |a Includes bibliographical references and index. 
520 |a "Distributed Ledger Technology (DLT) is a technical infrastructure and protocol that allows simultaneous access, verification and updating of records in an irreversible manner over a network spanning multiple entities or locations. It can be a Blockchain, Directed Acylic Graph, Hashgraph, Holochain or Tempo (radix). The blockchain ecosystem includes blocks - the data structure used to keep records of transactions, which are distributed among all nodes in the network, and nodes - users or computers that hold a complete copy of the record or ledger. Blockchain uses an asymmetric cryptography mechanism to validate the authenticity of transactions. The hash function used here is a mathematical algorithm that converts any information into a string of alphanumeric values by a process called encryption. There are mainly two types of encryption - asymmetric encryption and symmetric encryption depending on whether same or different keys are used for encryption and decryption. Decentralized identifiers (DID) allow unique, private and secure peer-to-peer connections between two parties on a blockchain. DIDs are independent of centralized registries, authorities or identity providers, which enable identity-owner control and sovereignty over identities. There have been several innovations around blockchain consensus mechanisms, constitutional design, development of smart contracts, and tokens. Earlier, applications were mainly restricted to digital currencies, which were used in commercial transactions. The extension of Blockchain 2.0 applications enabled smart-contracts, Decentralized Applications (dApps), and Decentralized Autonomous Organizations (DAOs). Blockchain 3.0 was able to register its presence in areas such as education, health, science, transportation and logistics, and now Blockchain 4.0 is evolving as a business-friendly ecosystem for the world of commons."--  |c Provided by publisher. 
588 |a Description based on online resource; title from digital title page (viewed on April 17, 2023). 
505 0 |a Illustrations xix -- Foreword xxv -- Preface xxvii -- 1 Introduction 1 -- 2 Distributed Ledger Technology 11 -- 2.1 Different Types of Distributed Ledger Technology 11 -- 2.2 Chronological Evolution 13 -- 2.3 Blockchain Architecture 15 -- 3 Blockchain Ecosystem 23 -- 3.1 Working of Blockchain 24 -- 3.2 Key Characteristics 29 -- 3.3 Unspent Transaction Output 30 -- 3.4 Classification of Blockchain on Access Management 30 -- 3.5 Consensus 32 -- 3.6 Payment Verification in Blockchain 37 -- 3.7 Hashgraph 39 -- 3.8 Scalability 40 -- 4 Transactions in Bitcoin Blockchain 43 -- 4.1 Coinbase Transactions 43 -- 4.2 Transactions Involving Fiat Currency 47 -- 4.3 Top Fiat Currencies for Bitcoin Transactions 50 -- 4.4 Price Determination for Bitcoin in Transactions 51 -- 4.5 Controlling Transaction Costs in Bitcoin 57 -- 5 Ethereum and Hyperledger Fabric 67 -- 5.1 Early Attempts to Program Cryptocurrencies 68 -- 5.2 Smart Contracts 69 -- 5.3 Working of Ethereum 72 -- 5.4 Hyperledger 74 -- 5.5 Working of Hyperledger 74 -- 5.6 Ethereum Versus Hyperledger 79 -- 5.7 Decentralized Applications 81 -- 5.8 Tokens 84 -- 6 Identity as a Panacea for the Real World 87 -- 6.1 Identity Systems 87 -- 6.2 Centralized Model 92 -- 6.3 Cost and Benefits 100 -- 6.4 Quest for One World – One Identity 108 -- 7 Decentralized Identities 115 -- 7.1 Identity Models 115 -- 7.2 Block chain-based Solutions 117 -- 7.3 Identity Management 119 -- 7.4 Identity Storage Interplanetary File System 121 -- 7.5 Biometric Solutions 130 -- 7.6 Identity Access 139 -- 7.7 Merits of a Proposed System 141 -- 7.8 Disadvantages of the Proposed System 144 -- 7.9 Challenges 145 -- 7.10 Solutions with Hyperledger Fabric 146 -- 8 Encryption and Cybersecurity 151 -- 8.1 Cryptography 151 -- 8.2 Playfair Cipher 153 -- 8.3 Hill Cipher 167 -- 8.4 RSA Algorithm in Cryptography 171 -- 8.5 Multiple Precision Arithmetic Library 175 -- 8.6 SHA-512 Hash in Java 180 -- 8.7 Cybersecurity 183 -- 9 Data Management 193 -- 9.1 Data Science 193 -- 9.2 Education and Employment Verification 194 -- 9.3 Health Care 204 -- 9.4 Genomics 210 -- 9.5 Food Supply Chain 211 -- 9.6 Real Estate 213 -- 9.7 Crowd Operations 216 -- 10 Banking and Finance 227 -- 10.1 Banking and Investment 227 -- 10.2 Trade Finance 236 -- 10.3 Auction Process 248 -- 10.4 Decentralized Finance 263 -- 10.5 Prediction Markets 286 -- 11 Growing Landscape of Blockchain 297 -- 11.1 Blockchain Applications in Real World: An Overview 297 -- 11.2 e-Governance 297 -- 11.3 Supply Chain Management 305 -- 11.4 e-Commerce 310 -- 11.5 Distributed Resources and Internet of Things 317 -- 11.6 Decentralized Streaming 320 -- 12 Functional Mechanism 329 -- 12.1 Software Requirements 329 -- 12.2 Installing a Mobile Application 330 -- 12.3 Fetching or Uploading the Documents 331 -- 12.4 Government or Third-party Access 335 -- 12.5 Credibility Through Smart Contracts 336 -- 12.6 User-Optimized Features 337 -- Appendices 339 -- Glossary 347 -- Index 371. 
590 |a O'Reilly  |b O'Reilly Online Learning: Academic/Public Library Edition 
650 0 |a Blockchains (Databases) 
650 0 |a Electronic funds transfers. 
650 6 |a Chaînes de blocs. 
650 6 |a Transferts électroniques de fonds. 
650 7 |a Blockchains (Databases)  |2 fast 
650 7 |a Electronic funds transfers  |2 fast 
776 0 8 |i Print version:  |a Garg, Rishabh.  |t Blockchain for real world applications  |d Hoboken, New Jersey : John Wiley & Sons, 2023  |z 9781119903734  |w (DLC) 2022041346 
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