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200 00$aQuantum and blockchain for modern computing systems, vision and advancements $equantum and blockchain technologies : current trends and challenges /$fedited by Adarsh Kumar, Sukhpal Singh Gill, and Ajith Abraham
210  1$aCham, Switzerland :$cSpringer,$d[2022]
210  4$dİ2022
215   $a1 online resource (371 pages)
225 1 $aLecture Notes on Data Engineering and Communications Technologies ;$vv.133
311 08$aPrint version: Kumar, Adarsh Quantum and Blockchain for Modern Computing Systems: Vision and Advancements Cham : Springer International Publishing AG,c2022 9783031046124 
320   $aIncludes bibliographical references and index.
327   $aIntro -- Preface -- Contents -- Quantum Technologies I: Information, Communication, and Computation -- 1 Quantum Information -- 1.1 Postulates of Quantum Mechanics -- 1.2 Classical and Quantum Information -- 1.3 Quantum Information Science-Applications -- 1.4 Quantum Block Chains -- 2 Multiple Controlled Toffoli -- 2.1 Background -- 2.2 Notation -- 2.3 Definitions -- 2.4 Sleator-Weinfurter Construction -- 2.5 Optimal CNOT Toffoli Circuit -- 2.6 Recursive Relative Phase Toffoli -- 2.7 V-Chain Decomposition -- 2.8 Quadratic Decomposition -- 2.9 Summary -- 3 Quantum Error Correction -- 3.1 Noise Origin -- 3.2 Error Types -- 3.3 Classical Error Correction -- 3.4 From Classical to Quantum -- 3.5 Detecting Bit Flip Errors -- 3.6 Correcting Bit Flip Errors -- 3.7 Three-Qubit Code for Phase Errors -- 3.8 General Error Correcting Codes -- 4 Conclusions and Notes on Blockchain -- References -- Quantum Technologies II: Cryptography, Blockchains, and Sensing -- 1 Quantum Communication -- 1.1 Introduction -- 1.2 Quantum Cryptography -- 1.3 Quantum Blockchain -- 1.4 Quantum Algorithms for Quantum Blockchain -- 1.5 Quantum Advantage -- 1.6 Conclusion -- 2 Quantum Sensing -- 2.1 Introduction -- 2.2 Need for Quantum Sensing -- 2.3 Implementation -- 2.4 Challenges and Limitations -- 2.5 Applications -- 2.6 Outlook -- References -- Empirical Analysis of Security Enabled Quantum Computing for Cloud Environment -- 1 Introduction -- 2 Introduction to Quantum Computing and Quantum Mechanics -- 2.1 Classification of Quantum Computing -- 2.2 Advantages of QC -- 2.3 Disadvantages of QC -- 3 Introduction to Cloud Infrastructure -- 3.1 Cloud Security Issues -- 3.2 Recent Advancements and Trends in Cloud Infrastructure -- 3.3 Timeline of Cloud Computing Paradigms -- 4 Recent Advancements and Trends in Quantum Computing, Mechanics, and Information Processing.
327   $a4.1 Processing and Quantum Cryptography Used for Security Issues -- 4.2 Research Directions in Quantum Cryptography -- 5 Quantum Computing in Cloud Infrastructure -- 6 Research Challenges and Directions in QC-Based Cloud Infrastructure -- 7 Future Prospects: Certain and Uncertain -- 8 Conclusion -- References -- Photonic Quantum Computing -- 1 Introduction -- 1.1 DiVincenzo Criteria -- 2 Facets of Photonic Quantum Computers -- 2.1 Scalability of Photonic Quantum Computing -- 2.2 Fault-Tolerance of Photonic Quantum Computer -- 2.3 Room Temperature Operation for Photonic Quantum Computing -- 2.4 Drawbacks -- 3 Photonic Device Component -- 3.1 Squeezers -- 3.2 Interferometers -- 3.3 Waveguides -- 3.4 Photodetectors -- 4 Applications -- 4.1 Quantum Random Number Generators -- 4.2 Quantum Optical Neural Network -- 4.3 Quantum Cryptography -- 4.4 Quantum Key Distribution -- 5 Future Challenges and Solutions-Blockchain -- References -- A Conceptual Framework for Scaling and Security in Serverless Environments Using Blockchain and Quantum Key Distribution -- 1 Introduction -- 2 Serverless Computing -- 2.1 Going Serverless -- 2.2 Shared Responsibility Model -- 3 Blockchain -- 3.1 Blockchain Architecture -- 3.2 Smart Contracts -- 4 Quantum Computing -- 4.1 Quantum Key Distribution -- 5 Blockchain in Serverless Computing -- 6 Quantum Key Distribution in Serverless Computing -- 6.1 Security in Serverless Domain -- 6.2 Using QKD as a Security Mechanism -- 7 Integrating QKD and Blockchain into Serverless Domain -- 7.1 Deployment of Server Code -- 7.2 Blockchain and Consensus Algorithm -- 7.3 Execution of Smart Contract -- 8 Discussion -- 9 Conclusion -- References -- Implications of Quantum Science on Industry 4.0: Challenges and Opportunities -- 1 Introduction -- 2 Quantum Overview -- 3 Applications of Quantum Based Technologies.
327   $a3.1 Quantum in AI Based Technologies -- 3.2 Quantum Computing in Online Security -- 3.3 Quantum Computing in Drug Development -- 3.4 Quantum in Weather Forecasting and Climate Change -- 4 Industrial Developments in Quantum Technologies -- 4.1 Industry 4.0 and Quantum World -- 4.2 Industry 4.0 and Blockchain Usage in Quantum World -- 5 Challenges in Quantum Commercialization -- 5.1 Hardware and Software Issues -- 5.2 Security and Privacy Issues -- 5.3 Energy Issues -- 5.4 Financial Constraints -- 5.5 Unskilled Personnel -- 5.6 Adoption Issue -- 6 Future Research Direction -- 7 Conclusion -- References -- Quantum Generative Modelling and Its Use Cases -- 1 Machine Learning in Classical Computing -- 2 Quantum Machine Learning -- 2.1 The Rise of Quantum Machine Learning -- 2.2 Review of Quantum Information Processing Concepts -- 2.3 Variational Quantum Algorithms (VQAs) -- 2.4 Variational Quantum Eigensolver (VQE) -- 3 Quantum Generative Adversarial Networks -- 3.1 Architecture and Training of GAN's -- 3.2 Architecture and Training of Quantum GAN's -- 4 QGAN's Use Case-Drug Discovery -- 4.1 QGANs for Loading Random Distributions -- 4.2 Option Pricing with QGAN -- 5 Conclusion -- References -- A Comprehensive Overview of Quantum Internet: Architecture, Protocol and Challenges -- 1 Introduction -- 2 Fundamentals of Quantum Computing -- 3 Quantum Internet -- 3.1 Classical Internet Versus Quantum Internet -- 3.2 Current State of Art of Quantum Internet -- 3.3 Quantum Internet Design Challenges -- 3.4 Advantages of Quantum Internet -- 4 Related Works in Quantum Internet -- 5 Challenges in Quantum Internet -- References -- Quantum Solutions to Possible Challenges of Blockchain Technology -- 1 Introduction -- 2 Blockchain and Distributed Ledger Techniques -- 3 Scalability Aspects of Classical Blockchain -- 3.1 Blockchain Scalability from Existing Standpoint.
327   $a3.2 Future Classical Approaches to Solve Scalability -- 4 Quantum-aid to Classical Blockchain -- 4.1 Quantum Offers Unprecedented Growth in Computing -- 4.2 Quantum Advantage in Blockchain Scalability -- 5 Shor's Algorithm-Threats on Classical Public-Key Blockchain Algorithms -- 5.1 RSA (Rivest Shamir Adleman) Algorithm -- 5.2 ECC (Elliptic Curve Cryptography) and ECDSA (Elliptic Curve Digital Signature Algorithm) -- 5.3 ECDH (Elliptic Curve Diffe Hellman) Algorithm -- 5.4 DSA (Digital Signature Algorithm) -- 6 Grover's Algorithm-Threats on Classical Blockchain Techniques -- 6.1 Faster Detection of Hash Collision -- 7 Post-Quantum Initiatives for Quantum-Resistant Cryptography -- 7.1 PQCrypto -- 7.2 SAFEcrypto -- 7.3 CryptoMathCREST -- 7.4 Post Quantum Standardization -- 8 Post Quantum Initiatives on Blockchain -- 8.1 Bitcoin Post-Quantum -- 8.2 Ethereum 3.0 -- 8.3 Abelian -- 8.4 Corda -- 9 Feasibility of Quantum Attack on Blockchain DLTs -- 9.1 Bitcoin -- 9.2 Ethereum -- 9.3 Litecoin -- 9.4 Monero -- 9.5 Zcash -- 10 Realization of Post-Quantum Block and Future Research Direction -- 10.1 Key Size and Signature Size -- 10.2 Key Generation Rate -- 10.3 Blockchain Compliance Issues -- 10.4 Incompatibility Issue with Existing Hardware -- 10.5 Ciphertext Overhead -- 11 Conclusion -- References -- Futuristic Technologies for Supply Chain Management: A Survey -- 1 Introduction -- 2 Internet of Things in Supply Chain Management -- 2.1 Use Cases and Benefits of Using IOT -- 2.2 IoT Sample Reference Model -- 2.3 Challenges of Using IoT in Supply Chain Management -- 2.4 IoT Recent Developments and Future Trends -- 3 Artificial Intelligence and Machine Learning in Supply Chain Management -- 3.1 Use Cases and Benefits of Using Artificial Intelligence and Machine Learning -- 3.2 Implementation of AI in Sub-fields.
327   $a3.3 Challenges of Using AI Technology in SCM System -- 3.4 AI and Machine Learning Recent Developments and Future Trends -- 4 Blockchain in Supply Chain Management -- 4.1 Use Cases and Benefits of Using Block Chain -- 4.2 Industrial IoT in Supply Chain Management -- 4.3 Centralized Transaction Systems and Databases -- 4.4 Using Distributed Ledger Technologies -- 5 Conclusion -- References -- Quantum Computing and Quantum Blockchain: Recent Advancements, Analysis and Future Directions -- 1 Introduction -- 1.1 Objectives of Work -- 1.2 Work Organization -- 2 Quantum Computing -- 2.1 Quantum Computer and Blockchain -- 2.2 Quantum Computing-Based Hardware Implementation and Blockchain -- 2.3 Quantum Mechanics and Blockchain -- 2.4 Mathematics of Quantum Computing and Blockchain -- 2.5 Quantum BIT -- 2.6 Qubit Gates and Their Types -- 2.7 Quantum Circuit Modelling -- 3 Case Study: Real-World Life Problem Related to Optimal Stock Combination Selection Using QAOA -- 4 Quantum Blockchain -- 4.1 Research Challenges in Quantum Blockchain -- 5 Conclusion and Future Directions -- 5.1 Future Directions -- References -- Secure Blockchain-Based Mental Healthcare Framework:-A Paradigm Shift from Traditional to Advanced Analytics -- 1 Introduction -- 2 Literature Research Study Method -- 2.1 Research Database Sources -- 2.2 Search Query Keyword -- 3 Methodology -- 4 Related Work -- 4.1 Existing Block Chain Technologies for Healthcare -- 5 Technological Overview -- 5.1 The Nature of Data and the Paradigm Shift Towards Secure Value-Based Mental Healthcare -- 6 Blockchain Taxonomy -- 7 Blockchain for Value-Based Mental Healthcare -- 8 Blockchain-Based Mental Healthcare (EHR, Data Sources, Techniques, and Technologies) -- 9 Mental Health Care Data Sources -- 10 Analytical Techniques and Technologies -- 11 Framework for Value-Based Secure Mental Healthcare.
327   $a11.1 Mobile Application Architecture.
330   $aThis book states that blockchain technology provides a secure distributed, peer-to-peer, and decentralized network with advanced cryptography primitives and protocols. The important question that arises in the quantum computing world is to test the existing blockchain networks against quantum attacks and design quantum computing enabled secure blockchain solutions. This book encourages professionals from different fields to provide blockchain and quantum technology-integrated solutions that incorporate low-cost, effective QoS, fast, secure, and futuristic demands. This book has surveyed and proposed approaches that improve quantum computing and cryptography protocols. Quantum computing and quantum science are not just helpful in software but the hardware world as well. To design networks with quantum science, quantum-enabled devices like quantum memories and quantum repeaters can be useful to demonstrate for organizations. For example, designing a single quantum repeater for long-distance quantum communication is useful in reducing the network cost, and ensuring better security levels. This book has introduced the quantum computing and blockchain technology aspects, their integration approaches and future directions.
410  0$aLecture Notes on Data Engineering and Communications Technologies.
606   $aQuantum computing
606   $aBlockchains (Databases)
615  0$aQuantum computing.
615  0$aBlockchains (Databases)
676   $a006.3843
702   $aGill$b Sukhpal Singh
702   $aAbraham$b Ajith$f1968-
702   $aKumar$b Adarsh
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