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Record Nr. |
UNISA996464438403316 |
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Titolo |
Blockchain technology for IoT applications / / Seok-Won Lee, Irish Singh, Masoud Mohammadian, editors |
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Pubbl/distr/stampa |
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Gateway East, Singapore : , : Springer, , [2021] |
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©2021 |
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ISBN |
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Descrizione fisica |
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1 online resource (x, 205 pages) : illustrations |
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Formato |
Materiale a stampa |
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Livello bibliografico |
Monografia |
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Nota di contenuto |
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Intro -- Preface -- Summary -- Contents -- Requirement Engineering and Its Role in a Blockchain-Enabled Internet of Things -- 1 Introduction -- 1.1 Motivation for the Proposed Model -- 2 Requirements Engineering Process for IoT and Challenges -- 2.1 Requirements Engineering Process for IoT -- 2.2 Major Internet of Things and Requirements Challenges -- 3 Proposed RE Model for Blockchain-Enabled IoT -- 3.1 Pros of the Proposed Model -- 3.2 Smart Contract -- 4 Related Works -- 5 Final Remarks -- References -- AutomataDAO: A Blockchain-Based Data Marketplace for Interactive Robot and IoT Data Exchanges Using Ethermint and State Channels -- 1 Introduction -- 2 Background Work -- 2.1 On Centralized and Decentralized Data Marketplaces -- 2.2 IoT and Blockchain Technology -- 2.3 Decentralized IoT Data Marketplaces -- 2.4 Robots and Blockchain Technology -- 2.5 State Channels and Micropayments -- 2.6 Decentralized Autonomous Organizations (DAO) -- 3 Marketplace DAOs and Collective Robot Ownership -- 4 Pricing Model -- 5 Interaction Use Cases -- 5.1 Offloading Data Collection Capacity -- 5.2 Proxied Data Collection Using Master-Slave Control Model -- 5.3 Collaborative Data Collection by Independent Agents -- 6 System Preliminaries -- 6.1 Robot Constraints -- 6.2 Data Schemas, Evolution and Compatability -- 7 Architecture -- 7.1 Data Marketplace Smart Contracts and State Channels -- 7.2 Data Streaming -- 8 System Implementation -- 8.1 Smart Contracts and State Channels -- 8.2 |
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Robot and Smart Contract Communication -- 8.3 Data Streaming and Processing -- 9 Limitations and Future Work -- 10 Conclusion -- References -- Hyperledger Architecture for Internet of Things and Supply Chain Management Services -- 1 Introduction -- 2 Literature Review -- 3 Blockchain Architecture and Characteristics -- 3.1 Characteristics of Blockchain. |
4 IoT Architecture and Characteristics -- 4.1 Blockchain-Based IoT Components -- 5 Blockchain-Based Supply Chain Management -- 5.1 Major Term of Blockchain-Based Supply Chain Management -- 6 Hyperledger-Based Blockchain Architecture -- 6.1 Hyperledger Design Philosophy -- 6.2 Hyperledger Sawtooth Framework -- 7 Proposed Architecture for IoT and Supply Chain Management -- 8 Final Remarks -- References -- Can We Predict Tropical Storms? Evidence from Artificial Intelligence -- 1 Introduction -- 2 Tropical Storms in Hong Kong -- 2.1 Overview -- 2.2 Incentive for Predicting Tropical Cyclones -- 2.3 Precision of the Hong Kong Observatory's Predictions -- 3 Data and Preparation -- 3.1 Typhoon Track Data -- 3.2 Typhoon Signal Data -- 3.3 Preparation of Test Datasets -- 4 The Recurrent Neural Network Model -- 4.1 Model 1: Binary Categorization -- 4.2 Model 2: Multiple Categorization -- 4.3 Model 3: Multiple Categorization with Non-linear Costs -- 5 Artificial Intelligence, The Internet of Things, and Blockchain -- 6 Conclusion -- References -- A Critical Review on Using Blockchain Technology in Education Domain -- 1 Introduction -- 1.1 Data Ledger Layer -- 1.2 Consensus Layer -- 1.3 P2P Network Layer -- 1.4 Application Layer -- 2 Suitability of Consortium Blockchains for E-Governance -- 3 Consensus -- 3.1 Proof Approaches -- 3.2 Vote-Based Approaches -- 3.3 DAG Based Approaches -- 4 Attacks on Blockchain -- 4.1 Blockchain Structure Vulnerabilities -- 4.2 Double Spending Attacks -- 4.3 Smart Contract-Based Attacks -- 4.4 Mining Pool Threats -- 4.5 Wallet Threats -- 4.6 Peer-to-Peer Network-Based Attacks -- 4.7 Quantum Attacks -- 5 Usecase of Blockchain in Education -- 6 Features of the Proposed Design -- 7 Challenges in the Proposed Design -- 8 Conclusion -- References -- A Decentralized and Autonomous Model to Administer University Examinations. |
1 Introduction -- 2 University Examinations System in India -- 3 Challenges in Administering University Examinations -- 4 Functional Requirements for University Examinations -- 5 Information Security Requirement Analysis for University Examinations -- 6 Architectural Elements in Blockchain -- 6.1 Distributed Ledgers -- 6.2 Cryptography -- 6.3 Consensus Protocols -- 6.4 Smart Contracts -- 7 A Prescriptive Architecture for University Examinations -- 7.1 IoT for Monitoring and Asset Management -- 7.2 Blockchain Technology for Decentralization and Autonomous Functioning -- 8 Conclusion -- References -- FaceHub: Facial Recognition Data Management in Blockchain -- 1 Introduction -- 2 Background Study -- 3 Security Challenges -- 4 Blockchain Overview and Role of Blockchain in FaceHub -- 4.1 Basic Components of Blockchain Technology -- 4.2 Processes of Blockchain Technology -- 4.3 Benefits -- 4.4 Blockchain in COVID-19 -- 4.5 Blockchain in FaceHub -- 5 FaceHub Requirements Modelling -- 5.1 Software Requirements -- 5.2 User Requirements -- 5.3 System Requirements -- 5.4 Functional Requirements -- 5.5 Non-functional Requirements -- 6 FaceHub Implementation Method -- 6.1 Recognition Level -- 6.2 Sequence Diagram -- 6.3 Pseudocode -- 6.4 Processing Level -- 6.5 User Interface -- 7 Implementation and Results -- 8 Conclusion -- References -- Incorporating Transaction Lifecycle Information in Blockchain Process Discovery -- 1 Introduction -- 2 Related Work -- 2.1 Process Mining in the Blockchain -- 2.2 Blockchain |
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Transaction Inclusion Time -- 3 Proposed Method -- 3.1 Extraction Workflow -- 3.2 Decoding Workflow -- 3.3 Process Mining -- 4 Result -- 4.1 Blockchain Application: CryptoKitties -- 4.2 Blockchain Event Log -- 4.3 Process Mining Result -- 5 Blockchain, Business Process Management, and IoT -- 5.1 Business Process Management in Blockchain-Enabled IoT. |
5.2 Process Oriented Analysis Toward Blockchain-Enabled IoT -- 6 Conclusion -- References -- BIoT-Based Smart Agriculture: Food and Crops Efficiency and Improvement in Supply Chain Cycle -- 1 Introduction -- 2 Related Work -- 2.1 IoT -- 2.2 Blockchain -- 3 Technology Embedding Toward SMART Agriculture from State-of-the-Art System -- 3.1 IoT and Blockchain -- 3.2 IoT and Agriculture -- 3.3 Blockchain and Agriculture -- 4 Technology Improving in Supply Chain Cycle from State of-the-Art System -- 4.1 IoT Enabled Supply Chain -- 4.2 Blockchain-Based Supply Chain -- 5 Architecture of a Blockchain and Internet of Thing-Based SMART Agriculture System -- 6 Conclusion and Future Work -- References -- Hitching Medical IoT Devices to Blockchain for Personal Health Information Management -- 1 Introduction -- 2 Related Work -- 3 Considerations and Requirements for a Blockchain-Based Personal Health Information Management System -- 4 Architecture of a BlockChain-Based Personal Health Information Management System -- 4.1 Blockchain Layer -- 4.2 Device Layer -- 4.3 Application Layer -- 4.4 Adapter Layer -- 4.5 Access of Blockchain-Enabled Personal Health Information Management System (PHIMS) -- 5 Hyperledger Fabric Based Architecture of a BlockChain-Based Personal Health Information Management System -- 5.1 Key Concepts of Hyperledger Fabric -- 5.2 Employing Hyperledger Fabric Channel for Sharing Personal Health Data -- 5.3 Approach for Creating a Personal Health Data Blockchain Using Hyperledger -- 6 Conclusion and Future Work -- References. |
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