Blockchain Applications for Secure IoT Frameworks: Technologies Shaping the Future

by Bharat Bhushan Bhushan, Narayan C. Debnath, Parma N. Astya, Sudhir K. Sharma

Length: 294 pages
Edition: 1
Language: English
Publisher: Bentham Science Publishers
Publication Date: 2021-07-08
ISBN-10: 1681088649
ISBN-13: 9781681088648
Sales Rank: #0 (See Top 100 Books)

This reference presents information about different facets of IoT and blockchain systems that have been recently proposed for practical situations. Chapters provide knowledge about how these technologies are applied in functions related to trust management, identity management, security threats, access control and privacy.

Key Features:

Introduces the reader to fundamental concepts of IoT and blockchain technology
reports advances in the field of IoT, ubiquitous computing and blockchain computing
includes the applications of different frameworks
explains the role of blockchains in improving IT security
provides examples of smart grids, data transmission models, digital business platforms, agronomics and big data solutions
Includes references for further reading

Blockchain Applications for Secure IoT Frameworks: Technologies Shaping the Future is a handy reference for information technology professionals and students who want updated information about applications of IoT and blockchains in secure operational and business processes.

Welcome
Table of Content
Title
BENTHAM SCIENCE PUBLISHERS LTD.
End User License Agreement (for non-institutional, personal use)
Usage Rules:
Disclaimer:
Limitation of Liability:
General:
PREFACE
List of Contributors
An Overview of Smart Grid in the Current Age
Abstract
1. INTRODUCTION
2. SMART CITIES CONCEPTS
3. SMART GRID CONCEPTS
3.1. Smart Grid and IoT
3.2. Smart Grid Applications
3.3. Smart Grid Advantages
4. SMART GRID INFRASTRUCTURE
5. DISCUSSION
5.1. Infrastructure generated by Smart Grid
5.2. Smart Grid as an Instrument of Innovation
5.3. Smart Grid Benefits
5.4. Blockchain for Smart Grids
CONCLUSION
TRENDS
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENT
REFERENCES
Dynamic Strategies of Machine Learning for Extenuation of Security Breaches in Wireless Sensor Networks
Abstract
1. INTRODUCTION
2. SECURITY CONCERNS IN WIRELESS SENSOR NETWORKS
2.1. Eavesdropping Attack
2.2. Jamming Attack
2.3. Tampering
2.4. Exhaustion and Collision Attack
2.5. Sybil Attack
2.6. Blackhole Attack
2.7. Wormhole Attack
2.8. Grayhole Attack
2.9. Sinkhole Attack
2.10. Hello Flood Attack
3. MACHINE LEARNING EMERGING AS A SAFEGUARD TO WSNs
4. SUPERVISED LEARNING
4.1. Linear Regression and Logistic Regression
4.2. Artificial Neural Networks (ANN)
4.3. Decision Tree
4.4. Random Forest
4.5. Bayesian Learning
4.6. Support Vector Machine (SVM)
4.7. K- Nearest Neighbor (K-NN)
5. UNSUPERVISED LEARNING
5.1. K- Means Clustering
5.2. Fuzzy C- Means Clustering
6. SEMI-SUPERVISED LEARNING
7. REINFORCEMENT LEARNING
8. MACHINE LEARNING ADDRESSING ISSUES in WSNs
8.1. Machine Learning Addressing Issue of Security
8.2. Machine Learning Addressing Issue of Routing in Wireless Sensor Network
8.3. Data Aggregation in WSNs with Machine Learning
9. PROPOSED FEATURE SELECTION METHOD AND COMPARATIVE ANALYSIS OF MACHINE LEARNING ALGORITHMS
9.1. Dataset Gathering
9.2. Feature Selection Methodology
9.2.1. Correlation-based Feature
9.2.2. Info Gain Method
9.2.3. CFS Subset Evaluation
10. EXPERIMENTAL RESULTS AND ANALYSIS
CONCLUSION AND FUTURE WORK
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENT
REFERENCES
IoT- Fundamentals and Challenges
Abstract
1. INTRODUCTION
2. HISTORY OF IOT
2.1. Realizing the Concept
3. INTERNET OF THINGS
3.1. Meaning of IoT
3.2. Importance of IoT
3.2.1. Things that Collect and Send Information
3.2.2. Things that Receive Information and then Act on it
3.2.3. Things that Can Do Both
3.3. Scope of IoT: Applications and Examples
3.3.1. Increasing Efficiency
3.3.2. Improved Health and Safety
3.3.3. Enhancing Experience
4. FUNDAMENTALS OF IOT
4.1. IoT Device Architecture
4.2. IoT Reference Architecture
4.3. IoT Standardization and Design Considerations
4.4. IoT Interoperability Challenges
4.5. IoT Device Architecture Network and Cloud
4.6. Centralized and Decentralized IoT Architectures
5. CHALLENGES
5.1. Security
5.2. Customer Privacy
5.3. Scalability
6. FUTURE
7. CONCLUSION
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENT
REFERENCES
IoT Based Energy Conservation of A Smart Home
Abstract
1. Introduction
1.1. Background
1.2. Motivation
1.3. Organization of Chapter
2. Benefits of Smart Home
3. Smart Home & Energy Conservation
3.1. Glance at the Journey
3.2. Example: Smart Systems
3.2.1. Healthcare - Elderly Alert Systems
3.2.2. Home Energy Management System (HEMS)
3.2.3. Smart Metering System (SESAME)
4. Architecture & Framework For Smart Home Environment
4.1. Data Flow and Management in CMS for SHEs
5. Implementation of Smart Home Using Zigbee
5.1. Smart Home Control System
5.2. Two Major Functions
5.2.1. Framework Controlling Lights
5.2.2. Framework Controlling Fan
6. Conservation of Cultural Heritage-Application of Energy conservation IoT
Conclusion and Future Scope
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENTS
REFERENCES
Blockchain: Concept and Emergence
Abstract
1. INTRODUCTION
2. THE NEED FOR BLOCKCHAIN TECHNOLOGY
3. HISTORY AND EVOLUTION
3.1. First Generation/ Blockchain 1.0
3.2. Second Generation/ Blockchain 2.0
3.3. Third Generation/ Blockchain 3.0
3.4. Fourth Generation/ Blockchain 4.0
4. PREFATORY ELEMENTS
4.1. Transaction
4.2. Node
4.3. Mining
4.4. Block
4.5. Hashing
4.6. Digital Signatures
4.7. Consensus
4.8. Smart Contract
5. FEATURES
5.1. Distributed
5.2. Decentralized
5.3. Immutable
5.4. Transparent
5.5. Peer to Peer Network
6. TYPES AND PLATFORMS
6.1. Public Blockchain
6.2. Private Blockchain
6.3. Consortium Blockchain
7. HOW DOES IT WORK?
8. APPLICATIONS, ADVANTAGES & CHALLENGES
8.1. APPLICATIONS
8.2. ADVANTAGES
8.3. CHALLENGES
9. FUTURE SCOPE
CONCLUSION
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENTS
REFERENCES
Industrial Revolution: Blockchain as a Wave for Industry 4.0 and IIoT
Abstract
1. INTRODUCTION
2. BACKGROUND MATERIALS
2.1. Industry 4.0
2.1.1. The First Revolution of Industry
2.1.2. The Second Revolution of Industry
2.1.3. The Third Revolution of Industry
2.1.4. The Fourth Revolution of Industry or Industry 4.0
2.2. IIoT
2.2.1. IIoT versus IoT
3. MAJOR APPLICATIONS
3.1. Healthcare Industry
3.1.1. Patient Record Management
3.1.2. Securing Patient Data
3.1.3. Industrial Implementations
3.1.4. Challenges
3.2. Manufacturing Industry
3.2.1. Enhanced Data Protection
3.2.2. Manufacturing Plants
3.2.3. Developed Tracing as well as Traceability
3.2.4. Credibility of Deliveries
3.2.5. Efficient Inventory Management
3.2.6. Challenges
3.3. Agriculture Industry
3.3.1. Production of Crop and Food
3.3.2. Preventing Weather Crisis
3.3.3. Food Supply Chain
3.3.4. Handling Agricultural Finance
3.3.5. Challenges
4. OPEN ISSUES AND MODERN APPLICATION SECTORS
4.1. Open Challenges related to Adoption of Blockchain Technology in IIoT
4.1.1. Energy and Cost Efficiency
4.1.2. Regulations
4.1.3. Resource Constraints
4.1.4. Security and Confidentiality
4.1.5. Scalability
4.2. Modern Application Fields in IIoT where blockchain is being implemented
4.2.1. Taxi Industry
4.2.2. Music Industry
4.2.3. Education Industry
4.2.4. Drone Industry
5. CHALLENGES IMPLEMENTATION
5.1. Data Storage
5.2. Analytics Challenge
5.3. Connectivity Outage Challenge
5.4. Delivering Value to the Customer
5.5. Security
6. SOLUTIONS TO DEAL WITH INDUSTRIAL IOT IMPLEMENTATION CHALLENGES
6.1. Clustering of IoT Gateway
6.2. TTM, TPM and TNM
6.3. IIoT Gateway
6.4. Edge Computing
7. CONCLUSION
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENTS
REFERENCES
Enhancement of Iot Security Solutions Using Blockchain Technology
Abstract
1. INTRODUCTION
1.1. Contribution of the Work
1.2. Paper Organization
2. PLATFORMS TO IMPLEMENT BLOCKCHAIN TECHNOLOGY AND ITS USES
2.1. IoT And Its Integration
3. TECHNIQUES USED FOR IMPOSING SECURITY
3.1. Consensus
3.2. Ledger
3.3. Cryptography
3.4. Hashing
3.5. Smart Contract
4. IoT Implementation
4.1. Data Storage In A Distributed Manner
4.2. Decentralized Energy Production And Consumption
4.3. Selective Offloading To Minimize The Data Path
4.4. Iot In Home Appliances
4.5. E-Governance
4.6. Education System
4.7. Healthcare
4.8. Secure Payment Processing
4.9. Supply-Chain Management and Logistics
4.10. Smart City
4.10.1. Smart Vehicles
4.10.2. Digital Identity
4.10.3. Smart Parking And Lighting
4.10.4. Waste Management And Smart Sanitation
4.10.5. Smart Environment
4.10.6. Blockchain In Tourism And Travel Management
CONCLUSION
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENT
REFERENCES
Secured IoT Model for Sensitive Data Transmission Using Blockchain Technique
Abstract
1. INTRODUCTION
2. LITERATURE SURVEY
3. PROPOSED MODEL
3.1. Decentralizing
3.2. Media Connections
3.3. Safe Information
3.4. Edge Nodes Assaults
3.5. Denial of Installations
3.6. Strong Node Management
3.7. Attacks Routing
3.8. Solution IoT Blockchain
The Stage of The Gateway:
The Photo Picture:
Standard Website:
3.9. Strong IoT Protection with Blockchain Technology
3.9.1. Secure Communication
3.9.2. Consumer Authentication
3.9.3. Finding a Broad Legal IoT
3.9.4. IoT Configuration
4. RESULTS
CONCLUSION
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENTS
REFERENCES
Transforming OTT Digital Platform Business Using Blockchain Technology
Abstract
1. INTRODUCTION
2. RISE IN CONTENT FOR VIDEO STREAMING APPLICATIONS FOR THE CUSTOMERS
3. Technological innovations to solve challenges of OTT
4. DEFINING BLOCKCHAIN
4.1. Smart Contract
5. PROPOSED BLOCKCHAIN BUSINESS MODELS, BENEFITS, AND CHALLENGES
5.1. Blockchain- As- A Service (BaaS)
5.2. Token Economy- Utility Token Business Model
5.3. Blockchain-Based Software Products
5.4. P2P Blockchain Business Model
5.5. Blockchain Professional Services
6. Revolutionary benefits of Blockchain Technology
7. CHALLENGES THAT CAN BE SOLVED BY BLOCKCHAIN IN MEDIA AND BROADCASTING INDUSTRY
8. TRANSFORMING OTT DIGITAL PLATFORM BUSINESS USING BLOCKCHAIN TECHNOLOGY
8.1. Providing Tokens for Audio and Video
8.2. Provides Scope for New Artists and New Entrants
8.3. Targeted Advertisements and Marketing
8.4. Royalty Payments and Smart Contracts
8.5. The Decentralized Model of Content Delivery
8.6. Reduce Production Costs
8.7. Micropayments
8.8. Licensing and Monetization
8.9. Royalty Tracking and Payments
8.10. Blockchain-Powered Cloud Space
9. BLOCKCHAIN TECHNOLOGY - DISRUPTIONS AS A GAME- HANGER IN OTT PLATFORM BUSINESS AND REAL-TIME APPLICATIONS IN DIGITAL ADVERTISING
9.1. Opportunities for new channel dispatches
9.2. Advertising and free substance
10. Real-Time applications of Blockchain Technology in Digital Advertising and OTT Platform Business
10.1. Visual Content and Media
10.2. Block Graph TM
10.3. Music
10.4. Engaging Audiences
10.5. Current Scenario and Beyond
11. MACHINE LEARNING (ML) ADOPTION IN BLOCKCHAIN (BC) – RESEARCH ISSUES AND CHALLENGES
11.1. Suitability
11.2. Infrastructure
11.3. Privacy
11.4. Memory
11.5. Implementation
11.6. Security
11.7. Quantum Resilience
CONCLUSION
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENT
REFERENCES
Blockchain-based Cultivating Ideas for Growth: A New Agronomics Perspective
Abstract
1. INTRODUCTION
2. LITERATURE SURVEY
3. OPPORTUNITIES
3.1. Procurement Tracking
3.2. Land Registry
3.3. Underwater Fishing Industry
3.4. Crop and Food Production Management
3.5. Climate Emergency Control
3.6. Management of Agricultural Finances and Insurances
3.7. Increasing the Transparency
3.8. Economic Observation and Covering Green Bonds
4. APPLICATIONS
4.1. Smart Agriculture
4.2. Nourishment Supply Network
4.3. Internet Business of Agri Products
4.4. Farming Insurances
5. USE CASES
5.1. Food Safety
5.2. Traceability
5.3. Transaction Costs
5.4. Opening New Markets
5.5. Logistics
6. BLOCKCHAIN-BASED ARCHITECTURE IN AGRICULTURE AND CHALLENGES
CONCLUSION & FUTURE SCOPE
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENTS
REFERENCES
Blockchain Solutions for Big Data Management
Abstract
1. INTRODUCTION
2. Introduction to Blockchain
2.1. Mechanism
2.2.1. Proof of Work
2.1.2. Proof of Stake
2.2. Types
2.2.1. Public Blockchain
2.2.2. Private Blockchain
2.2.3. Consortium Blockchain
2.2.4. Hybrid Blockchain
2.3. Contemporary Advancements in Blockchain
2.4. Challenges
2.4.1. Increased Performance
2.4.2. Interoperability
2.4.3. High Cost and Complexity
2.4.4. Lack of Supportive Regulation
3. INTRODUCTION OF BIG DATA
3.1. Types of Big Data
3.1.1. Structured
3.1.2. Unstructured
3.1.3. Semi-structured
3.2. Characterization of Big Data
3.2.1. Volume
3.2.2. Variety
3.2.3. Velocity
4. Use of Blockchain in Big Data
4.1. The Motivation for use of Blockchain in Big Data
4.2. Architectures of Blockchain
4.3. Comparative Study
4.4. Challenges and Solutions
4.4.1. Data Management
4.4.2. Risks
4.4.3. Data Security
5. Applications
5.1. Healthcare
5.2. Education
5.3. Finance
5.4. IoT
CONCLUSION
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENTS
REFERENCES
Blockchain Security Solutions for IoT and Big Data
Abstract
1. INTRODUCTION
2. LITERATURE REVIEW
3. METHODOLOGY
3.1. Security Challenges
3.1.1. Security Challenges in IoT
3.1.2. Security Challenges in Big Data
3.2. Blockchain Solutions
3.2.1. Security Solutions for IoT
3.2.2. Security Solutions for Big Data
4. RESULTS
CONCLUSION
FUTURE WORK
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENT
REFERENCES