Cybersecurity Issues in Emerging Technologies
- Length: 204 pages
- Edition: 1
- Language: English
- Publisher: CRC Press
- Publication Date: 2021-10-15
- ISBN-10: 0367626179
- ISBN-13: 9780367626174
- Sales Rank: #6880567 (See Top 100 Books)
The threat landscape is evolving with tremendous speed. We are facing an extremely fast-growing attack surface with a diversity of attack vectors, a clear asymmetry between attackers and defenders, billions of connected IoT devices, mostly reactive detection and mitigation approaches, and finally big data challenges. The clear asymmetry of attacks and the enormous amount of data are additional arguments to make it necessary to rethink cybersecurity approaches in terms of reducing the attack surface, to make the attack surface dynamic, to automate the detection, risk assessment, and mitigation, and to investigate the prediction and prevention of attacks with the utilization of emerging technologies like blockchain, artificial intelligence and machine learning.
This book contains eleven chapters dealing with different Cybersecurity Issues in Emerging Technologies. The issues that are discussed and analyzed include smart connected cars, unmanned ships, 5G/6G connectivity, blockchain, agile incident response, hardware assisted security, ransomware attacks, hybrid threats and cyber skills gap. Both theoretical analysis and experimental evaluation of state-of-the-art techniques are presented and discussed. Prospective readers can be benefitted in understanding the future implications of novel technologies and proposed security solutions and techniques. Graduate and postgraduate students, research scholars, academics, cybersecurity professionals, and business leaders will find this book useful, which is planned to enlighten both beginners and experienced readers.
Cover Half Title Title Page Copyright Page Table of Contents Foreword Preface Editors Contributors Chapter 1 The Evolution of Hardware-Assisted Security 1.1 Introduction 1.2 Threat Landscape 1.2.1 Common Software Vulnerabilities 1.2.2 Software Exploitation 1.3 Security Mechanisms in Hardware 1.3.1 Protection Rings 1.3.2 Supervisor Mode Execute/Access Prevention 1.3.3 Data Execution Prevention 1.3.4 Intel Memory Protection Extensions 1.3.5 Intel Memory Protection Keys 1.3.6 ARM Memory Tagging 1.3.7 Instruction Set Randomization 1.3.8 Control-Flow Integrity 1.3.8.1 Intel Control-flow Enforcement Technology 1.3.8.2 ARM Pointer Integrity 1.4 Trusted Execution Environments 1.4.1 Execute Only Memory 1.4.2 Aegis 1.4.3 ARM TrustZone 1.4.4 Intel Software Guard Extensions 1.5 Hardware Vulnerabilities 1.5.1 Transient Instruction Execution 1.5.2 Cache as a Side-Channel 1.5.3 Proposed Defenses 1.6 Conclusion References Chapter 2 Cybersecurity of the Unmanned Ship 2.1 Introduction 2.2 Architectural Views 2.2.1 TheExtended Maritime Architecture Framework 2.2.2 The CPSs of the Unmanned Ship 2.3 Cyber Risks of the Unmanned Ship 2.4 Cybersecurity Requirements for the Unmanned Ship 2.5 Treating the Cyber Risk of the Unmanned Ship 2.6 Conclusions References Chapter 3 Agile Incident Response in Industrial Control Environments 3.1 Introduction 3.2 Complying with Legal Requirements and Guidance for Operators 3.3 Current Issues in Managing Incidents in Industrial Control Environments 3.4 Agile Approach to Incident Management 3.5 Assessment Event 3.5.1 The Scenario 3.5.2 Blue Team Composition 3.5.3 Agile Methodologies 3.5.3.1 Sprints 3.5.3.2 Sprint Planning 3.5.3.3 Sprint Retrospectives 3.5.3.4 Scrum Meetings 3.5.4 Task Allocation 3.5.4.1 Self-Selection of Tasks 3.5.4.2 T-Shaped Team 3.5.5 Agile Tools 3.5.5.1 Incident Backlog 3.5.5.2 Scrum Board 3.5.5.3 Learning Matrix 3.5.6 Event Questionnaires 3.6 Discussion and Conclusions 3.7 Glossary References Chapter 4 Multi-Stage Threat Modeling and Security Monitoring in 5GCN 4.1 Introduction 4.2 Related Work 4.2.1 5GCN Threats 4.2.2 Multi-Stage Attack Modeling 4.3 Threat Modeling of the 5GCN 4.3.1 Identification 4.3.2 Threat Decomposition 4.3.3 Modeling 5GCN Threats as Graphs 4.3.4 A 5GCN Threat Graph Example 4.4 Graph-Based Security Monitoring for the 5GCN Infrastructure 4.5 Open Research Challenges and Future Work 4.5.1 Detection of Multi-Stage Attack Scenarios 4.5.2 A Centralized Threat Detection Engine 4.5.3 A 5G Network TTP Matrix Note References Chapter 5 Blockchain Technology for 6G Communication Networks: A Vision for the Future 5.1 Introduction 5.1.1 Blockchain Overview 5.1.1.1 Blockchain Technology Architecture 5.2 Blockchain and Cryptography 5.2.1 Confidentiality 5.2.2 Integrity 5.2.3 Availability 5.2.4 Privacy 5.3 Consensus Mechanism 5.3.1 The Consensus Problem 5.3.1.1 Ledger Consensus 5.3.2 Blockchain Consensus Algorithms 5.3.2.1 Proof-Based Algorithms 5.3.2.2 Voting-based Algorithms 5.4 Blockchain for 6G Networks 5.4.1 Challenges in 6G 5.4.2 Blockchain-Based Solutions 5.4.2.1 Infrastructure Solutions 5.4.2.2 Emerging Applications 5.5 Discussion 5.5.1 Open Research Issues 5.6 Conclusion References Chapter 6 Securing Components on a 5G Core 6.1 Introduction 6.1.1 Security across Previous Generations 6.1.2 Structure of the M5G Project 6.1.3 The Need to Secure the 5G Core 6.1.4 Proposal 6.1.5 Chapter Structure 6.2 Security in 5G 6.2.1 Security Architecture of 5G Networks 6.2.2 Current Research 6.3 Related Work 6.4 Architecture and Components 6.4.1 Event Processing and Visualization Platform 6.4.2 AppIDPS 6.4.2.1 Internal View 6.4.2.2 Metrics and Policy Messages 6.4.3 NEF 6.5 First Results 6.5.1 Event Processing and Visualization Platform Tests 6.5.2 Network Exposure Function Tests 6.5.3 Integration Scenario 6.5.3.1 Testbed Description 6.5.3.2 Dashboard 6.6 Conclusion Acknowledgments Notes References Chapter 7 RF Jamming Attacks and Countermeasures in Wireless Vehicular Networks 7.1 Introduction 7.1.1 Motivation 7.2 RF Jamming Attacks in Vehicular Networks 7.3 RF Jamming Classification Using Relative Speed Estimation 7.3.1 System Model 7.3.2 Jamming Attack Scenarios 7.3.3 Estimation of Relative Speed Metric 7.3.4 The variations of relative speed (V RS) Algorithm 7.3.5 Proposed IDS Based on Supervised Learning 7.4 Enhancing the Proposed IDS with Data Fusion Techniques 7.5 Simulation and Performance Evaluation 7.5.1 Detection Performance under Different ∆u Values 7.5.2 Evaluation under Different Interference Levels 7.5.3 Data Fusion Results 7.6 Discussion and Conclusions 7.7 Glossary References Chapter 8 Smart Cars and Over-the-Air Updates 8.1 Introduction 8.2 Benefits 8.3 Threats and Vulnerabilities 8.3.1 Smart Car Components 8.3.2 The Attacker’s Targets 8.3.3 Over-the-Air Updates and Security Issues 8.3.3.1 Classification of OTA Update Attacks 8.3.3.2 Attacks on OTA Updates 8.4 Existing Solutions 8.4.1 Considerations 8.4.2 External Protection 8.4.3 Internal Protection 8.4.4 Update-Specific Protection 8.5 Discussion 8.6 Conclusions 8.7 Glossary References Chapter 9 Emerging Malware Threats: The Case of Ransomware 9.1 Evolution of Ransomware 9.2 Emerging Threats 9.3 Financial Impact 9.4 Ransomware and Social Engineering 9.5 Legislation Challenges 9.6 Concluding Remarks References Chapter 10 Holistic Immunization: A Comprehensive Model to Tackle Hybrid Threats in the Cyber Domain 10.1 Introduction: Background and Driving Forces 10.2 Problem Definition – The Cyber Crisis Management 10.3 Proposed Model 10.4 Concluding Remarks 10.5 Glossary References Chapter 11 The Cyber Skills Gap 11.1 Introduction 11.2 The Skills Gap in the Landscape of Industry 4.0 11.2.1 The Skills Gap 11.2.2 Tier 1: Employers 11.2.3 Tier 2: Academia 11.2.4 Tier 3: Government 11.3 Defining an Agenda for Cybersecurity Skills 11.3.1 Evolution of the Cyber Discipline 11.4 A Framework to Address the Skills Gap in Cyber 11.5 Recommendations 11.6 Conclusion References Index
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