Introduction to Cybersecurity in the Internet of Things

Cover
Half Title
Title Page
Copyright Page
Contents
Preface
Acronyms
Acknowledgments
PART I: Basic Concepts and Mechanisms of Cybersecurity in the Internet of Things
	CHAPTER 1: Introduction to Cybersecurity
		1.1. BASIC CONCEPTS IN CYBERSECURITY
			1.1.1. Cybersecurity
			1.1.2. Why Cybersecurity is Necessary
			1.1.3. Cybersecurity Perspective
		1.2. IMPACTS OF CYBERSECURITY
			1.2.1. Major Impacts
			1.2.2. Cyber Crime
		1.3. INTRODUCTION TO CYBER ATTACKS
			1.3.1. Cyberspace and Cyberwarfare
			1.3.2. Cyber Attacks and Hackers
			1.3.3. Common Cyber Attacks
		1.4. SUMMARY
		1.5. EXERCISES
	CHAPTER 2: Basic Concepts of Cybersecurity in the Internet of Things
		2.1. ABOUT THE INTERNET OF THINGS
			2.1.1. Overview of IoT History
			2.1.2. Definition of IoT
			2.1.3. IoT Deployments
			2.1.4. Cyber-Physical Systems
		2.2. KEY ISSUES IN IOT SECURITY
		2.3. SECURITY THREATS IN THE INTERNET OF THINGS
		2.4. SUMMARY
		2.5. EXERCISES
	CHAPTER 3: Privacy Issues Categorizations in the Internet of Things
		3.1. INFRASTRUCTURE SECURITY
			3.1.1. Network Level
			3.1.2. Host Level
			3.1.3. Application Level
		3.2. DATA SECURITY AND STORAGE
			3.2.1. Security in Data-in-Transit
			3.2.2. Security of Data-at-Rest
			3.2.3. Security of Data-in-Use
			3.2.4. Compliance Standard for Securing Data
			3.2.5. Determining Security Mechanisms
			3.2.6. Key Mechanisms for Protecting Data
			3.2.7. Data Lineage
			3.2.8. Data Provenance
			3.2.9. Managed and Unmanaged Cloud Storage
			3.2.10. Compliance Standards and Guidance
		3.3. IDENTITY AND ACCESS MANAGEMENT
			3.3.1. IAM in Networks
			3.3.2. Concept of IAM
			3.3.3. Terms in IAM
			3.3.4. Design Access Management
			3.3.5. Create Strong Authentication
		3.4. PRIVACY
			3.4.1. Concept of Privacy
			3.4.2. Data Life Cycle
			3.4.3. Privacy in Data Storage
			3.4.4. Privacy in Data Retention
			3.4.5. Privacy in Data Destruction
			3.4.6. Privacy Breaches
			3.4.7. Data Responsibility and Risk Management
		3.5. SUMMARY
		3.6. EXERCISES
PART II: Major Cybersecurity Issues
	CHAPTER 4: Security in Cloud Computing and Cyber-Physical Systems
		4.1. SECURITY PROBLEMS IN MOBILE CLOUD SYSTEMS
			4.1.1. Customers’ Loss of Control
			4.1.2. Lack of Trust in the Cloud
			4.1.3. Multi-Tenancy Issues in the Cloud
		4.2. TAXONOMY OF THREATS/FEAR
			4.2.1. Confidentiality
			4.2.2. Integrity
			4.2.3. Availability
			4.2.4. Massive Data Mining
			4.2.5. Attack Interfaces
			4.2.6. Auditability and Forensics
			4.2.7. Legal Issues
		4.3. INTRODUCTION TO CYBER-PHYSICAL SYSTEMS
			4.3.1. Cloud Computing and Edge Computing in Cyber-Physical Systems
			4.3.2. Concepts and Motivation of CPS
			4.3.3. Importance of Cyber-Physical Systems
			4.3.4. Cyber-Physical Systems Design Principles and Methodologies
			4.3.5. Cyber-Physical Systems Modeling and Simulation
			4.3.6. Communication and Networking in Cyber-Physical Systems
			4.3.7. Control and Optimization of Cyber-Physical Systems
			4.3.8. Cyber-Physical Systems in Different Domains
			4.3.9. Challenges in Cyber-Physical Systems
			4.3.10. Emerging Trends in Cyber-Physical Systems
			4.3.11. Future Trends and Opportunities in Cyber-Physical Systems
		4.4. SUMMARY
		4.5. EXERCISES
	CHAPTER 5: Threat Models and Network Security
		5.1. INTRODUCTION TO THREAT MODEL
			5.1.1. Concept of Threat Model
			5.1.2. Main Components of Threat Model
			5.1.3. Main Issues and Threat Models in IoT Computing
			5.1.4. Introduction to Attack Types
		5.2. NETWORK SECURITY IN THE INTERNET OF THINGS
			5.2.1. Web Service Overview
			5.2.2. Concept and Types of Denial-of-Service Attacks
			5.2.3. Methods to Resist Denial-of-Service Attacks
		5.3. MAIN SECURITY SOLUTIONS TO NETWORKING THREATS
			5.3.1. Minimizing Lack of Trust
			5.3.2. Minimizing Loss of Control
			5.3.3. Minimizing Multi-Tenancy
		5.4. SUMMARY
		5.5. EXERCISES
	CHAPTER 6: Cryptography and Cryptosystems
		6.1. INTRODUCTION TO CRYPTOGRAPHY
		6.2. SYMMETRIC CIPHER MODEL
			6.2.1. Data Encryption Standard
			6.2.2. Advanced Encryption Standard
		6.3. ASYMMETRIC CIPHER MODEL
			6.3.1. Dieffie-Hellman Algorithm
			6.3.2. Rivest-Shamir-Adleman
		6.4. ACCESS CONTROL TECHNIQUES
			6.4.1. Concepts and Elements of Access Control
			6.4.2. Common Types of Access Control
		6.5. ATTACK METHODS IN CRYPTANALYSIS
			6.5.1. Ciphertext-Only Attack
			6.5.2. Known Plaintext Attack
			6.5.3. Chosen Plaintext Attack
			6.5.4. Chosen Ciphertext Attack
			6.5.5. Chosen Text Attack
		6.6. SECURITY OF CRYPTOSYSTEM
			6.6.1. Unconditional Security
			6.6.2. Conditional security
		6.7. SUMMARY
		6.8. EXERCISES
PART III: Security Solutions in the Internet of Things
	CHAPTER 7: Wireless Network Security
		7.1. BACKGROUND OF WIRELESS NETWORKS
			7.1.1. Basic Concepts
			7.1.2. Wireless Local Area Network Topology
			7.1.3. Wireless Network Classification
			7.1.4. Wireless Network Protocol Standards
		7.2. WIRELESS NETWORK VULNERABILITIES
			7.2.1. Overview
			7.2.2. Physical Layer Vulnerabilities
			7.2.3. MAC Layer Vulnerability
			7.2.4. Network Layer Vulnerabilities
		7.3. WLAN AND INHERENT INSECURITY
			7.3.1. Infrastructure Attacks
			7.3.2. DoS Attack
			7.3.3. Confidence Attack
			7.3.4. Other WLAN Security Threats
		7.4. COMMON WIRELESS NETWORK SECURITY TECHNOLOGIES
			7.4.1. Hidden Service Set Identifier
			7.4.2. Wireless Network Physical Address Filtering
			7.4.3. Wired Equivalent Privacy
			7.4.4. Other Security Technologies
		7.5. SUMMARY
		7.6. EXERCISES
	CHAPTER 8: Infrastructure and Hardware Security
		8.1. CURRENT DEVELOPMENT STATUS OF COMPUTER HARDWARE
			8.1.1. Concept of Hardware Security
			8.1.2. Principles and Strategies of Computer Hardware Security
			8.1.3. Security Threats of Computer Hardware
		8.2. COMPUTER HARDWARE SECURITY ASSURANCE METHODS
			8.2.1. Influencing Factors of Hardware Security
			8.2.2. Principles and Steps for Hardware Security Maintenance
			8.2.3. From Static to Dynamic Maintenance Principles
		8.3. COMPUTER HARD DRIVE SECURITY MAINTENANCE
			8.3.1. Causes of Hard Disk Failure and Data Loss
			8.3.2. Basic Principles of Hard Drive Security Maintenance
			8.3.3. Secure Maintenance of Computer Processors
			8.3.4. Safe Maintenance of Computer Memory Devices
		8.4. CLASSIFICATION OF INFRASTRUCTURE AND HARDWARE SECURITY ISSUES
			8.4.1. Physical Security
			8.4.2. Email and Network Communication Security
			8.4.3. Cloud Security
			8.4.4. IoT Security
		8.5. SUMMARY
		8.6. EXERCISES
	CHAPTER 9: Secure Distributed Data Storage and Processing
		9.1. DISTRIBUTED SYSTEM SECURITY
			9.1.1. Identity Authentication and Authorization
			9.1.2. Secure Communication and Transport Protocols
			9.1.3. Security Routing and Topology Control
			9.1.4. Security Fault Tolerance and Recovery
		9.2. DISTRIBUTED SECURE DATA STORAGE
			9.2.1. Moore’s Law and Heterogeneous Systems
			9.2.2. Combining MRAM and SRAM in On-Chip Memory
			9.2.3. Heterogeneous SPM Architecture of CMP
			9.2.4. Data Allocation Strategy
		9.3. DISTRIBUTED SECURE DATA PROCESSING
			9.3.1. Distributed Computing Models and Algorithms
			9.3.2. Distributed Computing Models and Algorithms
			9.3.3. Data Sharing and Distributed Scheduling
			9.3.4. Parallel Computing and Task Coordination
			9.3.5. Efficient Data Exchange and Transmission
		9.4. SECURE DISTRIBUTED APPLICATION CASE STUDIES
			9.4.1. Cloud Computing Platform Security
			9.4.2. IoT Data Security
			9.4.3. Blockchain Technology Security
			9.4.4. Security of Large-Scale Data Analysis and Mining
		9.5. SUMMARY
		9.6. EXERCISES
PART IV: Next Generation of Cybersecurity in the Internet of Things
	CHAPTER 10: Digital Twin Optimization in the Internet of Things
		10.1. DIGITAL TWIN (DT) AND IOT
		10.2. BACKGROUND
		10.3. CONCEPTS AND KEY DEFINITIONS
			10.3.1. Problem Definition
			10.3.2. System Design
		10.4. OPTIMIZATION ALGORITHMS
			10.4.1. Workflow
			10.4.2. Tables Relativization Algorithm
			10.4.3. Time-Based Smart Swapping Algorithm
			10.4.4. Energy-Based Smart Swapping Algorithm
			10.4.5. Accuracy-Based Smart Swapping Algorithm
		10.5. EVALUATIONS
			10.5.1. Configuration
			10.5.2. Results
		10.6. SUMMARY
Bibliography
Index