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An Introduction to Network Security: Data Analysis Approach

Autor Peyman Kabiri
en Limba Engleză Paperback – 7 dec 2026
This book is designed to provide a starting point for researchers and students in the field of network security. The goal is to help them understand the problem domain, learn how to build an experimental set, and conduct experiments. This book focuses on concepts related to securing computer networks and does not cover cryptography. The book covers the areas of intrusion detection, intrusion prevention, and response systems. This includes processing data collected from network traffic and post-processing alerts generated by the intrusion detection system. Alert post-processing methods include alert aggregation and alert correlation. This book covers the theoretical concepts used in this field of work, supported by empirical examples, to show the reader how these tasks are possible. Concepts such as statistics, principal component analysis, dimensionality reduction, feature selection, classification methods, clustering methods, and expert systems are discussed in this book and used in examples. Finding and creating suitable datasets is also explained in this book. The examples provided are MS-Windows based, coded in C++, and explained in full detail. The examples are implemented in environments such as WEKA, CLIPS, and Visual Studio. The book covers methods for preventing and responding to intrusions. In addition to current methods in this field, the registry and MS-Windows Firewall are among the sections discussed in two chapters of the book. The book focuses primarily on wired networks or networks using TCP/IP-based connections, but there is also discussion of the applicability of these methods to other technologies and methods, such as Wi-Fi, Cookies, Fingerprinting, and Honeypots.
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Specificații

ISBN-13: 9781032943664
ISBN-10: 1032943661
Pagini: 272
Ilustrații: 64
Dimensiuni: 156 x 234 mm
Ediția:1
Editura: CRC Press
Colecția CRC Press

Public țintă

Professional Practice & Development, Professional Reference, and Professional Training

Cuprins

Chapter 1: Introduction to Dark Patterns. 1.1 Introduction and Background. 1.2 Core Concepts and Foundations. 1.3 Classification and Types of Dark Patterns. 1.4 Technological Underpinnings. 1.5 Applications and Real-World Case Studies. 1.6 Impact Assessment and Consequences. 1.7 Regulatory and Ethical Considerations. 1.8 Detection and Mitigation Strategies. 1.9 Future Directions. 1.10 Conclusion. Chapter 2: The Psychology behind Dark Patterns. 2.1 Introduction. 2.2 Psychological Mechanisms behind Manipulative Interfaces. 2.3 Cognitive Biases and Decision Making in Digital Environments. 2.4 The Ethics of Persuasive and Deceptive Design. 2.5 Common Types of Dark Patterns in Contemporary Platforms. 2.6 The Impact of Dark Patterns on User Autonomy and Trust. 2.7 Privacy, Consent, and the Role of Deceptive Interface Design. 2.8 Dark Patterns as Emerging Cybersecurity Concerns. 2.9 Conversational Dark Patterns in Large Language Models. 2.10 Case Studies from E-Commerce, Social Media, and Mobile Applications. 2.11 Ethical Design Practices and Security-Oriented Mitigation Strategies. 2.12 Future Challenges in Governing Manipulative Design. 2.13 Conclusion. Chapter 3: AI as a Tool for Ethical Design: Confronting Dark Patterns. 3.1 Introduction. 3.2 Review on the Conceptual Foundation and Ethical Challenges of AI and AR and Dark Pattern. 3.3 Dark Patterns in the Age of AI: Ethical and Regulatory Challenges. 3.4 Results and Analysis. 3.5 Conclusion. Chapter 4: DeceptiTech – AI-Driven Detection and Analysis of Dark Patterns. 4.1 Introduction, Problem & Motivation. 4.2 Literature Review. 4.3 Proposed Methodology. 4.4 Experimental Results and Discussion. 4.5 Conclusion. 4.6 Limitations and Future Enhancements. Chapter 5: The Intersection of Dark Patterns and Cybersecurity. 5.1 Introduction. 5.2 Background. 5.3 Mechanisms Linking Dark Patterns to Cyber Threats. 5.4 Results and Analysis. 5.5 Conclusion. Chapter 6: Multimodal Machine Learning for Automated Detection of Dark Patterns in Digital Interfaces. 6.1 Introduction. 6.2 Understanding Deceptive Design (Dark Patterns). 6.3 Literature Review and Theoretical Foundations. 6.4 Machine Learning Approaches for Detecting Deceptive Designs. 6.5 Dataset Construction and Annotation Framework. 6.6 Feature Engineering and Multimodal Fusion. 6.7 Experimental Setup, Evaluation, and Model Interpretability. 6.8 Results and Analysis. 6.9 Discussion. 6.10 Conclusion and Future Directions. Chapter 7: Machine Learning Models for Identifying Deceptive Designs. 7.1 Introduction to Deceptive Designs (Dark Patterns) and Their Impact. 7.2 Categories and Typologies of Deceptive Designs. 7.3 Definitions and Distinctions. 7.4 Problem Formulation. 7.5 Feature Engineering and Representations. 7.6 Overview of Machine Learning in User Interface Analysis. 7.7 Data Collection Methods for Identifying Deceptive Patterns. 7.8 Annotation Approaches and Practical Challenges. 7.9 Feature Extraction Approaches for UI Deception Detection. 7.10 Supervised and Unsupervised Machine Learning Models. 7.11 Deep Learning Architectures for Detecting Deceptive Patterns. 7.12 Case Studies of Academic and Industry Applications. 7.13 Evaluation Metrics and Benchmark Datasets. 7.14 Discussion of False Positives/Negatives and Model Interpretability. 7.15 Ethical Implications and Fairness Concerns. 7.16 Future Directions in Automating Detection of Deceptive UX Patterns. 7.17 Conclusion. Chapter 8: Temporal Learning for Behavioral Dark Pattern Recognition in Spam Induced Growth Hacking. 8.1 Introduction. 8.2 Background of Behavioral Manipulation in Digital Ecosystems. 8.3 Understanding Growth Hacking and How it Developed to Spam Induced Manipulation. 8.4 Theoretical Underpinning of Temporal Learning. 8.5 Role of LSTM Models in Behavioral Sequence Understanding. 8.6 Architectural Framework of DOE Pattern Recognition for Spam Growth Hacking. 8.7 Guidelines on Dataset Construction and Dataset Annotation. 8.8 Empirical Results. 8.9 Limitations and Suggestions for Future Research. 8.10 Conclusion. Chapter 9: Dark Patterns Across Industries: Sectoral Analysis, Case Studies, and Ethical Design Solutions. 9.1 Introduction. 9.2 Theoretical Background and Framework. 9.3 Methodology for Industry Analysis. 9.4 E-Commerce and Retail Industry. 9.5 Social Media and Communication Platforms. 9.6 Gaming and Entertainment. 9.7 FinTech and Online Banking. 9.8 Healthcare and Wellness Applications. 9.9 Comparative Industry Analysis. 9.10 AI and Intelligent Systems for Detection. 9.11 Policy Recommendations and Future Directions. 9.12 Conclusion. Chapter 10: Dark Patterns in the Digital Economy: Regulatory Responses to Manipulative Interface Design. 10.1 Introduction. 10.2 Global Regulatory Frameworks Addressing Dark Patterns. 10.3 Ethical Frameworks beyond Legal Compliance. 10.4 Future Regulatory Directions and Corporate Preparedness. 10.5 Key Findings. 10.6 Conclusion. Chapter 11: Dark Patterns and Ethical Design in Modern User Interfaces. 11.1 Introduction. 11.2 Understanding Dark Patterns. 11.3 Classification of Principal Dark Patterns and Their Mechanisms. 11.4 Impact of Dark Patterns. 11.5 Identifying Dark Patterns. 11.6 What is the Way to Prevent These Attacks? 11.7 Cultural and Regional Perspectives. 11.8 Conclusion. Chapter 12: Eco-Friendly Computing: Approaches, Applications, and Impacts. 12.1 Introduction. 12.2 Eco-Friendly Computing: Approaches, Applications, and Impacts. 12.3 Review of Eco-Friendly Computing Success Stories (2014-2024). 12.4 Barriers to Implement Eco-Friendly Computing. 12.5 Future Growth Imperatives. 12.6 Conclusion. Chapter 13: From E-Commerce to EdTech: Industry-Specific Deployment of Dark Patterns. 13.1 Introduction. 13.2 Conceptual Foundations. 13.3 A Working Taxonomy of Dark Patterns. 13.4 Dark Patterns by Industry. 13.5 A Cross-Industry View. 13.6 Regulation and Ethics. 13.7 Conclusion.

Notă biografică

Peyman Kabiri, PhD, received his bachelor’s degree in computer hardware engineering from the Iran University of Science and Technology in 1992. After receiving his master’s degree in real-time systems from Nottingham Trent University in 1996, he received a bursary from Nottingham Trent University to continue his doctoral studies. He received PhD in Computer Science from Nottingham Trent University in 2000. After receiving his PhD, he held various positions in companies and universities, including Assistance Professor in the School of Computer Engineering at the Iran University of Science and Technology, Project coordinator in Faculty of Computer Science at the University of New Brunswick – Canada, Senior Lecturer in Cybersecurity in the Department of Computing at the Sheffield Hallam University, and Senior Lecturer in Cybersecurity in the School of Computer Science and Informatics at De Montfort University.
Dr Kabiri has designed and taught many modules in the field of cybersecurity at undergraduate and graduate levels since 2010. His lectures are based on his research findings and were initially intended for graduate students, including: Intrusion Detection and Response Methods and Systems for Computer Networks, Secure Computer Systems, Cyber-Physical Systems Security. Later, he designed and taught undergraduate lectures and laboratory tutorials for undergraduate courses at UK universities, namely Network Intrusion Detection and Artificial Intelligence for Cybersecurity (except for the last few sessions). He has a diverse range of research and teaching experiences that enable him to contribute to multidisciplinary research and teaching areas. He has published 46 conference papers, 32 journal articles, and edited one book. He has supervised the final projects of many undergraduate students, 52 master’s students and 5 doctoral students to completion. Dr Kabiri strongly believes in research-based teaching and in his lectures, he provides his students with theoretical and practical knowledge to with examples of real-world scenarios. Having diverse research and teaching experience at the international level helps him to have a broader perspective on different research and teaching approaches and the educational needs of researchers and students.

Descriere

This book is designed to provide a starting point for researchers and students in the field of network security. The goal is to help them understand the problem domain, learn how to build an experimental set, and conduct experiments. This book focuses on concepts related to securing computer networks and does not cover cryptography.