River Publishers
Next Generation Email Security
AI Based Spam Detection
About this book
This book presents AI-driven approaches for combating spam, phishing, and malware in email systems. It reviews classical techniques, identifies their limitations, and introduces two novel frameworks?FLIDA and G-SFO with adaptive capsule networks. It also highlights the role of quantum machine learning in enabling scalable and resilient email security.
Key Features
- Concise review of classical and AI-based spam detection.
- Innovative frameworks: FLIDA and G-SFO-ACapsNet.
- Insights into quantum paradigms for cybersecurity.
- Empirical evaluations and comparative performance analyses.
- Open research issues and future perspectives.
This is a valuable resource for researchers, postgraduate students, and professionals in cybersecurity, AI, and data science, as well as industry practitioners and policymakers working on secure communication technologies.
Table of Contents
- 1. Introduction
- 1.1 Emergence of Online Social Networks
- 1.2 Challenges of Social Network Security
- 1.3 Email Spam â?? An Issue in Cyber Security
- 1.4 Origins of Email Spam
- 1.5 Types of Spam
- 1.6 Spam Avoiding Techniques
- 1.6.1 Technical Techniques
- 1.6.2 Non-Technical Techniques
- 1.7 Filtering Techniques for Email Spam Detection
- 1.8 Existing Email Spam Detection Models
- 1.9 Summary
- 2. Email Spam Detection Models Overview
- 2.1 Supervised Deep Learning Based Models
- 2.2 Supervised Machine Learning Based Models
- 2.3 Enhanced Heuristic-Based Models
- 2.4 Unsupervised Clustering-Based Models
- 2.5 Hybrid Spam Detection Models
- 2.6 Unaddressed Challenges
- 3. Email Spam Detection Approach â?? I (FLIDA)
- 3.1 Introduction
- 3.2 Architecture of FLIDA Email Spam Detection Technique
- 3.3 Datasets Description
- 3.4 Extraction of Text Features using TFIDF
- 3.5 Extraction of Visual Features using GLCM and Color Correlogram
- 3.6 Selection of Optimal Features
- 3.7 Optimal Feature Selection and Classification Using Levy Improvement-Based Dragonfly Algorithm
- 3.8 Conventional Dragonfly Algorithm
- 3.9 Implementation of FLI-DA
- 3.10 Classification of Image and Text Features using Hybrid Model
- 4. Performance Analysis of FLIDA
- 4.1 Experimental Setup and Parameter Setting
- 4.2 Performance Analysis of FLIDA in Terms of Accuracy with Different Optimization Algorithms
- 4.3 Performance Analysis of FLIDA Using Different Machine Learning and Deep Learning Models
- 4.4 Performance Analysis of Proposed FLI-DA-CRNN Email Spam Detection Model
- 4.5 Performance Analysis of FLIDA with Ensemble Approaches
- 4.6 Error and Feature Analysis of Email Spam Detection Techniques
- 4.7 Analyzing Implementation Time
- 4.8 Conclusion
- 5. Email Spam Detection Approach â?? II (Adaptive Capsule Network)
- 5.1 Introduction
- 5.2 Architecture of Proposed Email Spam Detection Technique using G-SFO Algorithm
- 5.3 Extraction of Visual Features
- 5.3.1 Walsh-Hadamard Transform Matrix
- 5.3.2 Fisher Discriminate Analysis
- 5.3.3 Color Correlogram
- 5.4 Extraction of Text Features
- 5.4.1 TV
- 5.4.2 TFIDF
- 5.5 Architecture of A-CapsNet Framework for Email Spam Detection
- 5.6 G-SFO â?? Grey Sail Fish Optimization Algorithm
- 5.6.1 MFOS â?? Multi-Objective Feature Selection
- 6. Performance Analysis of G-SFO with ACaps Network
- 6.1 Experimental Setup and Parameter Setting
- 6.2 Dataset Used
- 6.3 Evaluation Metrics
- 6.4 Algorithmic Evaluation of the Suggested G-SFO with ACapsNet Model
- 6.5 Performance Analysis with Machine and Deep Learning Models
- 6.6 Performance Analysis with Existing Metaheuristic Algorithms
- 6.7 Performance Validation against Traditional Classifiers
- 6.8 Summary
- 7. Comparative Analysis of FLIDA and G-SFO ACapsNet
- 7.1 Introduction
- 7.2 Comparative Analysis on Dataset 1
- 7.3 Comparative Analysis on Dataset 2
- 7.4 Comparative Analysis on Dataset 3
- 7.5 Comparative Analysis on Dataset 4
- 7.6 Summary
- 8. Quantum Machine Learning for Email Spam Detection
- 9. Conclusion and Future Scope
- 9.1 Conclusions
- 9.2 Major Findings
- 9.3 Future Scope
- References
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