Trust-Based Communication Systems for Internet of Things Applications

Cover
Half-Title Page
Series Page
Title Page
Copyright Page
Contents
Preface
Book Description
1 An Analysis of the Internet of Things (IoT) as the Defining Technology of a Generation
	1.1 Introduction
	1.2 Growth of IoT
	1.3 IoT Technologies
	1.4 Application Areas of Internet of Things
	1.5 IoT Security and Protection Concerns
	1.6 IoT Security
	1.7 Conclusion
	References
2 Blockchain in IoT and Limitations
	2.1 Introduction
	2.2 Literature Review
	2.3 Limitations of Blockchain
	2.4 Conclusion
	References
3 IoT Protocol Security Mechanisms
	3.1 Introduction
	3.2 Comparing to IoT Security and Cyber-Physical Structures
	3.3 Potential IoT and the Need for Safety
	3.4 Future-Cognitive Structures and IoT
	3.5 Security Engineering for IoT Development
	3.6 Building Security into Design and Development
	3.7 Security in Agile Developments
	3.8 Focusing on the IoT Device in Operation
	3.9 IoT Security Innovation Cryptographic Basics
	3.10 Cryptographic Primitive Forms and Implementations in the IoT
	3.11 Encryption and Decryption
	3.12 Hashes
	3.13 Digital Signatures
	3.14 Generation of Random Numbers
	3.15 Cloud Security for IoT
	3.16 Control of Assets/Inventories
		3.16.1 Service Provisioning, Billing, and Entitlement Management
		3.16.2 Real-Time Monitoring
		3.16.3 Sensor Coordination
		3.16.4 Customer Intelligence and Marketing
		3.16.5 Information Sharing
		3.16.6 Message Transport/Broadcast
	Conclusion
	References
4 IoT Security, Privacy, Challenges, and Solutions
	4.1 Introduction
		4.1.1 Elements of Internet of Things (IoT)
	4.2 IoT Landscape: Current and Potential Applications
	4.3 Advantages of Internet of Things (IoT)
	4.4 Architecture of IoT Systems
		4.4.1 Five Layered Architecture
		4.4.2 Fog Based IoT Architecture
	4.5 IoT Security
		4.5.1 Security Requirements in IoT Systems
	4.6 Security Challenges in IoT Architecture
		4.6.1 Security Challenges and Requirements at Perception Layer
		4.6.2 Security Issues and Requirements at Network Layer
		4.6.3 Security Issues and Requirements at Application Layer
	4.7 Security by Design in IoT
	4.8 Best Practices to Secure IoT Devices
	4.9 Security Attacks in IoT System
		4.9.1 Physical Attacks
		4.9.2 Software Attacks
		4.9.3 Network Attacks
		4.9.4 Encryption Attacks
	4.10 Various IoT Security Challenges
	4.11 Limitations of Available Resources
		4.11.1 Big Data
		4.11.2 Authorization and Access Control
		4.11.3 Secure Communication
		4.11.4 System Flexibility
		4.11.5 Complex System
		4.11.6 IoT Privacy
		4.11.7 Threats in IoT Privacy
		4.11.8 Detection
		4.11.9 Localization and Tracking
		4.11.10 Profiling
		4.11.11 Life-Cycle Transitions
		4.11.12 Inventory Attack
		4.11.13 Linkage
	4.12 Solutions to Preserve Privacy in IoT Systems
	Conclusions
	References
5 CIA-CPS: Concept, Issues, and Application of IoT in Cyber Physical System
	5.1 Introduction
	5.2 Cyber Physical System: Definition
	5.3 System Interfaces
	5.4 Communication Channel
	5.5 Physical Interaction
	5.6 CPS vs IoT
	5.7 Cyber Physical System Issues
	5.8 Literature Survey
	5.9 Applications of Cyber Physical System
	5.10 Future of Cyber Physical Systems
	5.11 Conclusion
	References
6 Trust Calculation in IoT Nodes Without Trusted Third Party Using PUF Methodology
	6.1 Introduction
		6.1.1 Essential Security Things to be Satisfied in Each IoT Node
		6.1.2 Fault Categories of PUF Node Malfunctioning
	6.2 Related Works
	6.3 Trust Calculation Basics
		6.3.1 Trust Classification
		6.3.2 Direct Trust and Indirect Trust
	6.4 Deriving Trust Relationships
	6.5 Trust Derivation Examples
	6.6 Combination of Trust Relationship
	6.7 Analysis of Attacks
	6.8 Conclusions
	References
7 Comparative Analysis of Indexing Schemes Used in Cloud Computing Data Management
	7.1 Introduction
	7.2 Literature Review
	7.3 Overview of System Architecture
	7.4 Experiments and Comparison
	7.5 Database for Experiment
	7.6 Assessment of the Index Structure
	7.7 Performance Evaluation of Exact Search
	7.8 Evaluation of Indexing Schemes Based on k-Nearest Neighbor Search
	7.9 Evaluation of Data Distribution
	7.10 Conclusion
	References
8 Evolution and Insight in Industrial Internet of Things (IIoT): Importance and Impact
	8.1 Introduction
	8.2 An Efficient Approach Towards IIoT Technology
	8.3 Evolution of IIoT
	8.4 IIoT Architecture
	8.5 Industrial Applications of IoT
	8.6 Smart Manufacturing
	8.7 Smart Healthcare
	8.8 Smart Transportation
	8.9 Smart Cities
	8.10 Oil and Gas Industry
	8.11 Logistics and Supply Chain
	8.12 Basic Technologies of IIoT
	8.13 Things Over Internet
	8.14 Technology on Blockchain
	8.15 Computing of Data Over Cloud Technology
	8.16 Artificial Intelligence and Cyber Physical Systems
	8.17 Analytics on Management of Big Data
	8.18 Future Technologies: Augmented and Virtual Reality
	8.19 Industry 4.0
		8.19.1 Design Principles
		8.19.2 Virtualizations
		8.19.3 Interoperability
		8.19.4 Real-Time Capability
		8.19.5 Decentralization
		8.19.6 Modularity
		8.19.7 Service Orientation
		8.19.8 Future of IIoT
	8.20 Research Challenges
		8.20.1 Energy Efficiency
		8.20.2 Coexistence and Interoperability
		8.20.3 Real-Time Performance
		8.20.4 Security and Privacy
		8.20.5 Fault Detection and Reconfiguration
		8.20.6 User-Friendliness in Product Deployment and Usage
	8.21 Conclusions
	References
9 Evolving Trends of Artificial Intelligence and Robotics in Smart City Applications: Crafting Humane Built Environment
	9.1 Fundamentals of Smart Cities
		9.1.1 Introduction and Literature Study
		9.1.2 Smart and Human-Centric Livable Cities
		9.1.3 Smart Cities and Sustainable Environment
		9.1.4 Implementation Strategies for City Planning and Urban Design Parameters
		9.1.5 Remote Monitoring and Management (RMM) in Upcoming City Development
	9.2 Case Study Analysis
		9.2.1 Dubai, United Arab Emirates
		9.2.2 Seoul, South Korea
		9.2.3 Barcelona, Spain
		9.2.4 Singapore
	9.3 Smart Buildings in Smart Cities: Humane Approach
		9.3.1 Smart Interiors
		9.3.2 Technological Interventions
		9.3.3 Building Automation
		9.3.4 Benefits and Challenges
	9.4 Future Scope and Impact on Society
	9.5 Conclusion
	References
10 T-Secure IoT in Smart Home System
	10.1 Introduction
	10.2 Literature
		10.2.1 Smart Home Description
		10.2.2 Smart Homes and Technology from Past to Present
		10.2.3 Smart Home Automation
		10.2.4 Automation Systems
		10.2.5 Lighting Systems
		10.2.6 Current Smart Building Systems’ Interactive Personalizability
		10.2.7 Block Diagram
	10.3 Method
		10.3.1 Hardware Implementation
		10.3.2 Software Iplementation
	10.4 Chematic Implementation
	10.5 Simulation and Result
	10.6 Conclusion
	References
11 Intelligent Micro-Mobility E-Scooter: Revolutionizing Urban Transport
	11.1 Introduction
	11.2 Intelligent Transport System
	11.3 Technologies Used in Intelligent Transport Systems
	11.4 Micro Mobility
	11.5 Case Study
	11.6 Methodology: Value – Steam Mapping the Existing Operations
	11.7 Operational Challenges Faced by Arnab Micro Mobility
	11.8 Conclusion
	References
12 Automatic Booking of LPG and Leakage Detection System Using IoT
	12.1 “What is IoT?”
	12.2 Why IoT Matters
		12.2.1 Collecting and Sending Information
		12.2.2 Receiving and Acting on Information
		12.2.3 Doing Both: The Goal of an IoT System
	12.3 The oneM2M IoT Standardized Architecture
	12.4 The IoT World Forum (IoTWF) Standardized Architecture
	12.5 A Simplified IoT Architecture
	12.6 Case Study: Automatic LPG Booking and Leakage Detection System using IoT
		12.6.1 Problem Statement
		12.6.2 Proposed Solution
		12.6.3 Architecture of the System
		12.6.4 System Setup
		12.6.5 Working of System
	12.7 Conclusion
	References
Index
EULA