Blockchain, Artificial Intelligence, and the Internet of Things: Possibilities and Opportunities
- Length: 223 pages
- Edition: 1
- Language: English
- Publisher: Springer
- Publication Date: 2021-11-23
- ISBN-10: 3030776360
- ISBN-13: 9783030776367
- Sales Rank: #0 (See Top 100 Books)
This book provides basic concepts and deep knowledge about various security mechanisms that can be implemented in IoT through Blockchain technology. This book aids readers in gaining insight and knowledge about providing security and solutions to different challenges in IoT using Blockchain technology. This book primarily focuses on challenges to addressing the integration of the IoT with Blockchain with respect to potential benefits for IoT. This book gives descriptive analysis of Blockchain integrated with IoT applications and platforms for the development of IoT solutions along with possible topologies to that integration. Several application examples are included in a variety of industries.
Preface Contents A Comprehensive Survey on Blockchain and Cryptocurrency Technologies: Approaches, Challenges, and Opportunities 1 Introduction 2 Challenges in the Existing Land Registry System 2.1 The Increasing Number of Fraud Cases 2.2 The Involvement of Middlemen and Brokers 2.3 Human Error/Intervention 2.4 Time Delays 3 Literature-Related Land Registration System 3.1 Blockchain for Recordkeeping 3.2 Blockchain in Land Registry Systems 4 Proposed Model for Using Blockchain for Land Registration 5 Blockchain in Healthcare Industry 5.1 Usage of Blockchain in Monitoring Health Through Wireless Devices in Remotely Access Area 5.2 Usage of Blockchain to Create a Tamper-Resistant Database 6 Risks and Vulnerabilities in the Blockchain and Cryptocurrency 7 Conclusion References Intelligent Traffic Management with Prioritized Scheduling System 1 Field of Invention 2 Background of the Invention 3 Summary of the Invention 3.1 Traffic Density Calculation 3.2 Intelligent Navigation System (INS) 3.3 Traffic Violation 3.4 Control Interface 3.5 STC (Smart Traffic Controller) 3.6 Emergency Vehicle Prioritization 4 Object of the Invention 5 Working 6 The Detection Concept 6.1 Level 6.2 Level 6.3 Level 6.4 Level 7 Conclusion 8 Insights of the Invention 9 Future Direction/Long-Term Focus References Data Mining-Based Metrics for the Systematic Evaluation of Software Project Management Methodologies 1 Introduction 2 Literature Review 3 Metrics for Project Scope Management 3.1 Degree of Business Compressibility (GCN) 3.2 Degree of Scope Completeness (GCA) 4 Case Study 4.1 Demographic Sample 4.2 Behavior of Metrics 5 Discussion of Results 6 Conclusions and Future Work References Blockchain Technology Applications for Next Generation 1 Introduction 2 Summary of Blockchain Innovations 3 Application of Blockchain Technologies to Sharing Knowledge 3.1 Key Categories 4 Finance 4.1 With Confidence Crowdfunding 4.2 Cash Move Abroad 4.3 Enable Fast Loans and Lend Money 4.4 Effective Foreign Exchange Postprocessing 4.5 Stock Market in Blockchain 4.6 Increasing Central Bank High Uptime 4.7 Reduce Fraud in Insurance 4.8 Digital Wills for Transition 4.9 Capital Price Forecast 5 Power 5.1 Lower Home Electricity Bills 5.2 Solar Electricity Trading with Neighbors 6 Healthcare 6.1 Secure Medical Records 6.2 Check for Fake Medicine 7 Real Estate 7.1 Registry of Land Ownership 8 Tourism 8.1 Give Tourist Coupons and Promotions 8.2 Fill Up Empty Hotel Rooms 9 Social 9.1 Collect Friends’ Points 9.2 Manage User Reputations 10 Marketplace 10.1 Advertising Inventory for Buy and Sale 10.2 Know All About the Things You’re Purchasing 10.3 Get Rid of Commercials by Banner 10.4 Zero Costs for the Platform 11 Identity 11.1 Tell the World About the Identity You Possess 12 Mathematics 12.1 Solving Difficult Questions in Mathematics 13 Transport 13.1 Location Data 13.2 Parking Space Rent Out 13.3 Support Car Drivers to Pay Parking Fines 13.4 Hire a Ride 13.5 Paddle Riding in Real Time 13.6 Car Sharing from Peer to Peer 13.7 Going to Space 13.8 Charge Lower for Electric Car Charging 13.9 Reducing Paperwork for the Shipping Industry 14 Entertainment 14.1 Watch a Single Football Match: Pay Per Use 15 Rights Protection 15.1 Security of Logo for Wine 15.2 Preserve Fine Arts Developed by Talented Artists 15.3 Protect the Luxury Footwear 15.4 Offer a Digital Identity to Your Valuables 16 Government 16.1 Smart City 16.2 Give Untampered Votes in Elections 17 Charity 17.1 Donate Funds to Help the Unfortunate 18 Automation 18.1 Remotely Automated Robots 18.2 Host Your Site Without Any Central Server 18.3 Your Hard Disk Space Rental 18.4 Tools to Build Apps for Blockchain 18.5 Get the Ink Cartridge Printer to Order 19 Human Resource 19.1 Recruit New Fresh Grades with Trust 19.2 Hire Staff for the Experience 19.3 Get Quick Assistance from Nearby Certified Employees 20 Digital Content 20.1 Image Ownership Protection 20.2 Pay Musicians on Time 20.3 Pay Digital Content Creators 20.4 Ease Payments for Music Companies 21 Retails, F&B 21.1 Loyalty Incentives for Trading 21.2 Give a Gift Card to Your Friend 21.3 Discover the Lamb Meat’s Origin 21.4 Buying a Pie 22 Business 22.1 Accurately Bill for Consultation 22.2 Protect Your Patents 23 Education 23.1 Create Wise Legal Contracts 23.2 Pay Degree Course for Pay 24 Conclusion References An Approach to Ensure High-Availability Deployment of IoT Devices 1 Introduction 2 Related Work 3 High-Availability Architecture 3.1 Network Reliability 3.2 Multicast—Link Aggregation Group 3.3 Security 4 Proposed Methodology 4.1 Initial Deployment 4.2 Ensuring HA During Failover 5 Experimental Results 6 Conclusion References Blockchain-Based IoT Architecture for Software-Defined Networking 1 Introduction 2 Related Works 3 Proposed Blockchain-Based IoT Architecture 3.1 Transfer of Files Between IoT Devices in SDN Cluster 3.2 SDN Cloud Storage A. Perception Layer B. Infrastructure Layer/IoT Networks C. SDN-Based Security on Cloud D. Blockchain Networking Approach E. Cloud Storage Management and Services 4 Performance Comparison 4.1 Assessment of the BISDN Routing Protocol 4.2 Comparison of Simulator and Empirical Results 5 Conclusion References Blockchain Technology Use Cases in Healthcare Management: State-of-the-Art Framework and Performance Evaluation 1 Introduction 2 Related Work 3 Challenges in Healthcare 3.1 Knowledge Confidentiality 3.2 Prescription Referential Integrity 3.3 Patient Illness Interpolation 3.4 Big Data 4 Blockchain Predictive Model for Healthcare Management 5 Distributed Ledger for Public HealthCare 5.1 Narcotic Medicine Monitoring 5.2 Data Distribution with Telehealth to Improve Outmoded Attention in Developing Countries 5.3 Cancer Controlling Ideas 5.4 Cancer Registration Sharing 5.5 Digital Patient Uniqueness 5.6 Health Records 5.7 Health Right Decision 6 COVID-19 Healthcare Use Cases in Blockchain 6.1 Reference Monitoring 6.2 Medical Record Exchanging 6.3 Benefactor Accreditation 7 Blockchain: Ethical Concerns 7.1 Smart Agreements 7.2 The Protection of Data 8 Blockchain Healthcare Benefits 9 System Framework 10 Experimental Environment 11 Performance Evaluation 12 Conclusion References Secure Vehicular Communication Using Blockchain Technology 1 Introduction 2 Fundamentals of VANET 3 Trust Model for VANET 4 Blockchain and VANET 4.1 Major Features of Blockchain 5 Proposed Blockchain-Based VANET Communication 5.1 Blockchain-Based VANET Architecture 6 Experimental Simulation and Analysis 7 Research and Challenges in Ledger-Based VANET Communication 8 Conclusion References Blockchain Technology in Healthcare 1 Introduction 1.1 Interoperability 1.2 Security 1.3 Integrity 1.4 Low Cost 1.5 Universal Access 2 Blockchain in Healthcare Today 2.1 What Has Blockchain Changed in Healthcare? 2.2 The Most Innovative Blockchain Projects in Healthcare 2.3 The Need for Blockchain in Healthcare 3 How Blockchain Is Changing the Future of Healthcare 3.1 Connectivity 3.2 Ledger Technology 3.3 Precision with Pseudonymity 3.4 Secure Data Encryption 3.5 Security 3.6 Unified Clinical Systems 3.7 Transformational Law for Keeping Health Data 4 Benefits of Blockchain in Healthcare 5 Patient Database for Healthcare Sector 5.1 Blockchain Opportunities for Health Data 5.2 Incorporation of Blockchain Technology in Healthcare Sector Drug Tracking Consistency 6 Implementation of Blockchain Technology 6.1 Distributed Network 6.2 Step-by-Step Recording 6.3 Global and Worldwide Access of Information 6.4 Permissioned Blockchains 6.5 Permissionless Blockchains Examples of Implementation of Blockchain Technology Drug Traceability Medical Prosecutions and Data Security 7 Challenges of Blockchain in HealthCare 8 Advantages of Blockchain 9 Conclusion References Blockchain-Based IoT Architecture 1 Introduction 2 Blockchain 2.1 Blockchain and Internet of Things 3 IoT-Based Security Architecture on Blockchain 3.1 Blockchain Network 3.2 Border Router 4 Internet of Things for the Blockchain Architecture (Fig. 7) 5 Centralized IoT Architecture 6 Centralized Architecture 7 IoT Architecture Represented by Four Building Blocks 8 IoT Architecture Can Be Represented By Four Building Blocks 8.1 Decentralizing IoT Networks 8.2 Approach of a Blockchain Technology 8.3 The Blockchain and the IoT 9 What Are the Challenges? (Fig. 11) 9.1 The Optimal Platform for the IoT 10 Conclusion References Index
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