-
Browse Book Series
- Adhesion and Adhesives: Fundamental and Applied Aspects
- Advances in Additive Manufacturing Technologies
- Advances in Antenna, Microwave and Communication Engineering
- Advances in Biofeedstocks and Biofuels
- Advances in Cyber Security
- Advances in Data Engineering and Machine Learning
- Advances in E-Mobility
- Advances in Hydrogen Production and Storage
- Advances in Intelligent and Scientific Computing (AISC)
- Advances in Learning Analytics for Intelligent Cloud-IoT Systems
- Advances in Membrane Processes
- Advances in Nanotechnology and Applications
- Advances in Natural Gas Engineering
- Advances in Pipes and Pipelines
- Advances in Production Engineering
- Advances in Solar Cell Materials and Storage
- Applied Functional Materials
- Artificial Intelligence and Soft Computing for Industrial Transformation
- Astrobiology Perspectives on Life in the Universe
- Bioprocessing in Food Science
- Computational Intelligence and Biomedical Engineering
- Concise Introductions to AI and Data Science
- Cyber Systems and Quantum Engineering
- Decentralized Systems and Next-Generation Internet
- Diatoms: Biology and Applications
- Digital Convergence in Engineering Systems
- Emerging Trends in Medicinal and Pharmaceutical Chemistry
- Engineering Systems Design for Sustainable Development
- Fintech in a Sustainable Digital Society
- Industry 5.0 Transformation Applications
- Infectious and Rare Diseases
- Innovations in Materials and Manufacturing
- Machine Learning in Biomedical Science and Healthcare Informatics
- Materials Degradation and Failure
- Mathematics and Computer Science
- Next-Generation Computing and Communication Engineering
- Performability Engineering Series
- Rotating Machinery Fundamentals and Advances
- Studies in Computational Intelligence and Smart Technologies
- Sustainable Computing and Optimization
Browse Subject Areas
For Authors
Submit a ProposalArtificial intelligence and Data Mining in Security Frameworks
 | Edited by Neeraj Bhargava, Ritu Bhargava, Pramod Singh Rathore, and Rashmi Agrawal Series: Advances in Data Engineering and Machine Learning Copyright: 2022 | Status: Published ISBN: 9781119760405 | Hardcover | 314 pages Price: $225 USD  |
One Line Description
Written and edited by a team of experts in the field, this outstanding new volume offers solutions to the problems of security, outlining the concepts behind allowing computers to learn from experience and understand the world in terms of a hierarchy of concepts.
Audience
Electrical engineers and other industry professionals working in information technology, design, network security domain and manufacturing; researchers in computer, electronics, and electrical; students in computer science, electronics, and electrical engineering
Electrical engineers and other industry professionals working in information technology, design, network security domain and manufacturing; researchers in computer, electronics, and electrical; students in computer science, electronics, and electrical engineering
Description
Artificial intelligence (AI) and data mining is the fastest growing field in computer science. AI and data mining algorithms and techniques are found to be useful in different areas like pattern recognition, automatic threat detection, automatic problem solving, visual recognition, fraud detection, detecting developmental delay in children, and many other applications. However, applying AI and data mining techniques or algorithms successfully in these areas needs a concerted effort, fostering integrative research between experts ranging from diverse disciplines from data science to Artificial Intelligence. Successful application of security frameworks to enable meaningful, cost effective, personalize security service is a primary aim of engineers and researchers today. However realizing this goal requires effective understanding, application and amalgamation of AI and Data Mining and several other computing technologies to deploy such system in an effective manner.
This book provides state of the art approaches of artificial intelligence and data mining in these areas. It includes areas of detection, prediction, as well as future framework identification, development, building service systems and analytical aspects. In all these topics, applications of AI and data mining, such as artificial neural networks, fuzzy logic, genetic algorithm and hybrid mechanisms, are explained and explored. This book is aimed at the modeling and performance prediction of efficient security framework systems, bringing to light a new dimension in the theory and practice.
This groundbreaking new volume presents these topics and trends, bridging the research gap on AI and data mining to enable wide-scale implementation. Whether for the veteran engineer or the student, this is a must-have for any library.
Back to Top
Artificial intelligence (AI) and data mining is the fastest growing field in computer science. AI and data mining algorithms and techniques are found to be useful in different areas like pattern recognition, automatic threat detection, automatic problem solving, visual recognition, fraud detection, detecting developmental delay in children, and many other applications. However, applying AI and data mining techniques or algorithms successfully in these areas needs a concerted effort, fostering integrative research between experts ranging from diverse disciplines from data science to Artificial Intelligence. Successful application of security frameworks to enable meaningful, cost effective, personalize security service is a primary aim of engineers and researchers today. However realizing this goal requires effective understanding, application and amalgamation of AI and Data Mining and several other computing technologies to deploy such system in an effective manner.
This book provides state of the art approaches of artificial intelligence and data mining in these areas. It includes areas of detection, prediction, as well as future framework identification, development, building service systems and analytical aspects. In all these topics, applications of AI and data mining, such as artificial neural networks, fuzzy logic, genetic algorithm and hybrid mechanisms, are explained and explored. This book is aimed at the modeling and performance prediction of efficient security framework systems, bringing to light a new dimension in the theory and practice.
This groundbreaking new volume presents these topics and trends, bridging the research gap on AI and data mining to enable wide-scale implementation. Whether for the veteran engineer or the student, this is a must-have for any library.
Back to Top
Supplementary Data
--Clarifies the understanding of certain key mechanisms of technology helpful in the use of artificial intelligence and data mining in security frameworks
--Covers practical approaches to the problems engineers face in working in this field, focusing on the applications used every day
--Contains numerous examples, offering critical solutions to engineers and scientists
--Presents these new applications of AI and data mining that is of prime importance to human civilization as a whole
--Clarifies the understanding of certain key mechanisms of technology helpful in the use of artificial intelligence and data mining in security frameworks
--Covers practical approaches to the problems engineers face in working in this field, focusing on the applications used every day
--Contains numerous examples, offering critical solutions to engineers and scientists
--Presents these new applications of AI and data mining that is of prime importance to human civilization as a whole
Author / Editor Details
Neeraj Bhargava, PhD, is a professor and head of the Department of Computer Science at Maharshi Dayanand Saraswati University in Ajmer, India, having earned his doctorate from the University of Rajasthan, Jaipur in India. He has over 30 years of teaching experience at the university level and has contributed to numerous books throughout his career. He has also published over 100 papers in scientific and technical journals and has been an organizing chair on over 15 scientific conferences. His work on face recognition and fingerprint recognition is often cited in other research and is well-known all over the world.
Neeraj Bhargava, PhD, is a professor and head of the Department of Computer Science at Maharshi Dayanand Saraswati University in Ajmer, India, having earned his doctorate from the University of Rajasthan, Jaipur in India. He has over 30 years of teaching experience at the university level and has contributed to numerous books throughout his career. He has also published over 100 papers in scientific and technical journals and has been an organizing chair on over 15 scientific conferences. His work on face recognition and fingerprint recognition is often cited in other research and is well-known all over the world.
Ritu Bhargava, PhD, is an assistant professor in the Department of Computer Science at Sophia Girls College in Ajmer, India, having earned her PhD in computer science from Hemchandracharya North Gujarat University Patan, Gujarat, India. She has more than 15 years of active teaching and research experience and has contributed to three books and more than 30 papers in scientific and technical journals. She has also been an organizing chair on over 15 scientific conferences, and, like her colleague, her work on face recognition and fingerprint recognition is well-known and often cited.
Pramod Singh Rathore, MTech, is an assistant professor at the Aryabhatta College of Engineering and Research Center and visiting faculty member at MDSU in Ajmer, India. He is a PhD in computer science and engineering at the University of Engineering and Management and already has eight years of teaching experience and over 45 papers in scientific and technical journals. He has also co-authored and edited numerous books.
Rashmi Agrawal, PhD, is a professor in the Department of Computer Applications at the Manav Rachna International Institude of Research and Studies in Faridabad, India with more than 18 years of teaching experience. She is a book series editor and the associate editor on a scientific journal on data science and the internet of things. She has published many research papers in scientific and technical journals in these areas and contributed multiple chapters to numerous books. She is currently guiding PhD students and is an active reviewer and editorial board member of various journals.
Back to Top
Table of Contents
Preface xiii
1 Role of AI in Cyber Security 1
Navani Siroya and Prof Manju Mandot
1.1 Introduction 2
1.2 Need for Artificial Intelligence 2
1.3 Artificial Intelligence in Cyber Security 3
1.3.1 Multi-Layered Security System Design 3
1.3.2 Traditional Security Approach and AI 4
1.4 Related Work 5
1.4.1 Literature Review 5
1.4.2 Corollary 6
1.5 Proposed Work 6
1.5.1 System Architecture 7
1.5.2 Future Scope 7
1.6 Conclusion 7
References 8
2 Privacy Preserving Using Data Mining 11
Chitra Jalota and Dr. Rashmi Agrawal
2.1 Introduction 11
2.2 Data Mining Techniques and Their Role in Classification
and Detection 14
2.3 Clustering 19
2.4 Privacy Preserving Data Mining (PPDM) 21
2.5 Intrusion Detection Systems (IDS) 22
2.5.1 Types of IDS 23
2.5.1.1 Network-Based IDS 23
2.5.1.2 Host-Based IDS 24
2.5.1.3 Hybrid IDS 25
2.6 Phishing Website Classification 26
2.7 Attacks by Mitigating Code Injection 27
2.7.1 Code Injection and Its Categories 27
2.8 Conclusion 28
References 29
3 Role of Artificial Intelligence in Cyber Security and Security
Framework 33
Shweta Sharma
3.1 Introduction 34
3.2 AI for Cyber Security 36
3.3 Uses of Artificial Intelligence in Cyber Security 38
3.4 The Role of AI in Cyber Security 40
3.4.1 Simulated Intelligence Can Distinguish Digital Assaults 41
3.4.2 Computer-Based Intelligence Can Forestall Digital
Assaults 42
3.4.3 Artificial Intelligence and Huge Scope Cyber Security 42
3.4.4 Challenges and Promises of Artificial Intelligence
in Cyber Security 43
3.4.5 Present-Day Cyber Security and its Future with
Simulated Intelligence 44
3.4.6 Improved Cyber Security with Computer-Based
Intelligence and AI (ML) 45
3.4.7 AI Adopters Moving to Make a Move 45
3.5 AI Impacts on Cyber Security 46
3.6 The Positive Uses of AI Based for Cyber Security 48
3.7 Drawbacks and Restrictions of Using Computerized
Reasoning For Digital Security 49
3.8 Solutions to Artificial Intelligence Confinements 50
3.9 Security Threats of Artificial Intelligence 51
3.10 Expanding Cyber Security Threats with Artificial Consciousness 52
3.11 Artificial Intelligence in Cybersecurity – Current
Use-Cases and Capabilities 55
3.11.1 AI for System Danger Distinguishing Proof 56
3.11.2 The Common Fit for Artificial Consciousness
in Cyber Security 56
3.11.3 Artificial Intelligence for System Danger ID 57
3.11.4 Artificial Intelligence Email Observing 58
3.11.5 Simulated Intelligence for Battling Artificial
Intelligence Dangers 58
3.11.6 The Fate of Computer-Based Intelligence in Cyber
Security 59
3.12 How to Improve Cyber Security for Artificial Intelligence 60
3.13 Conclusion 61
References 62
4 Botnet Detection Using Artificial Intelligence 65
Astha Parihar and Prof. Neeraj Bhargava
4.1 Introduction to Botnet 66
4.2 Botnet Detection 67
4.2.1 Host-Centred Detection (HCD) 68
4.2.2 Honey Nets-Based Detection (HNBD) 69
4.2.3 Network-Based Detection (NBD) 69
4.3 Botnet Architecture 69
4.3.1 Federal Model 70
4.3.1.1 IBN-Based Protocol 71
4.3.1.2 HTTP-Based Botnets 71
4.3.2 Devolved Model 71
4.3.3 Cross Model 72
4.4 Detection of Botnet 73
4.4.1 Perspective of Botnet Detection 73
4.4.2 Detection (Disclosure) Technique 73
4.4.3 Region of Tracing 74
4.5 Machine Learning 74
4.5.1 Machine Learning Characteristics 74
4.6 A Machine Learning Approach of Botnet Detection 75
4.7 Methods of Machine Learning Used in Botnet Exposure 76
4.7.1 Supervised (Administrated) Learning 76
4.7.1.1 Appearance of Supervised Learning 77
4.7.2 Unsupervised Learning 78
4.7.2.1 Role of Unsupervised Learning 79
4.8 Problems with Existing Botnet Detection Systems 80
4.9 Extensive Botnet Detection System (EBDS) 81
4.10 Conclusion 83
References 84
5 Spam Filtering Using AI 87
Yojna Khandelwal and Dr. Ritu Bhargava
5.1 Introduction 87
5.1.1 What is SPAM? 87
5.1.2 Purpose of Spamming 88
5.1.3 Spam Filters Inputs and Outputs 88
5.2 Content-Based Spam Filtering Techniques 89
5.2.1 Previous Likeness–Based Filters 89
5.2.2 Case-Based Reasoning Filters 89
5.2.3 Ontology-Based E-Mail Filters 90
5.2.4 Machine-Learning Models 90
5.2.4.1 Supervised Learning 90
5.2.4.2 Unsupervised Learning 90
5.2.4.3 Reinforcement Learning 91
5.3 Machine Learning–Based Filtering 91
5.3.1 Linear Classifiers 91
5.3.2 Naïve Bayes Filtering 92
5.3.3 Support Vector Machines 94
5.3.4 Neural Networks and Fuzzy Logics–Based Filtering 94
5.4 Performance Analysis 97
5.5 Conclusion 97
References 98
6 Artificial Intelligence in the Cyber Security Environment 101
Jaya Jain
6.1 Introduction 102
6.2 Digital Protection and Security Correspondences
Arrangements 104
6.2.1 Operation Safety and Event Response 105
6.2.2 AI2 105
6.2.2.1 CylanceProtect 105
6.3 Black Tracking 106
6.3.1 Web Security 107
6.3.1.1 Amazon Macie 108
6.4 Spark Cognition Deep Military 110
6.5 The Process of Detecting Threats 111
6.6 Vectra Cognito Networks 112
6.7 Conclusion 115
References 115
7 Privacy in Multi-Tenancy Frameworks Using AI 119
Shweta Solanki
7.1 Introduction 119
7.2 Framework of Multi-Tenancy 120
7.3 Privacy and Security in Multi-Tenant Base System Using AI 122
7.4 Related Work 125
7.5 Conclusion 125
References 126
8 Biometric Facial Detection and Recognition Based on ILPB
and SVM 129
Shubhi Srivastava, Ankit Kumar and Shiv Prakash
8.1 Introduction 129
8.1.1 Biometric 131
8.1.2 Categories of Biometric 131
8.1.2.1 Advantages of Biometric 132
8.1.3 Significance and Scope 132
8.1.4 Biometric Face Recognition 132
8.1.5 Related Work 136
8.1.6 Main Contribution 136
8.1.7 Novelty Discussion 137
8.2 The Proposed Methodolgy 139
8.2.1 Face Detection Using Haar Algorithm 139
8.2.2 Feature Extraction Using ILBP 141
8.2.3 Dataset 143
8.2.4 Classification Using SVM 143
8.3 Experimental Results 145
8.3.1 Face Detection 146
8.3.2 Feature Extraction 146
8.3.3 Recognize Face Image 147
8.4 Conclusion 151
References 152
9 Intelligent Robot for Automatic Detection of Defects in
Pre-Stressed Multi-Strand Wires and Medical Gas Pipe Line
System Using ANN and IoT 155
S K Rajesh Kanna, O. Pandithurai, N. Anand,
P. Sethuramalingam and Abdul Munaf
9.1 Introduction 156
9.2 Inspection System for Defect Detection 158
9.3 Defect Recognition Methodology 162
9.4 Health Care MGPS Inspection 165
9.5 Conclusion 168
References 169
10 Fuzzy Approach for Designing Security Framework 173
Kapil Chauhan
10.1 Introduction 173
10.2 Fuzzy Set 177
10.3 Planning for a Rule-Based Expert System for Cyber Security 185
10.3.1 Level 1: Defining Cyber Security Expert System
Variables 185
10.3.2 Level 2: Information Gathering for Cyber Terrorism 185
10.3.3 Level 3: System Design 186
10.3.4 Level 4: Rule-Based Model 187
10.4 Digital Security 188
10.4.1 Cyber-Threats 188
10.4.2 Cyber Fault 188
10.4.3 Different Types of Security Services 189
10.5 Improvement of Cyber Security System (Advance) 190
10.5.1 Structure 190
10.5.2 Cyber Terrorism for Information/Data Collection 191
10.6 Conclusions 191
References 192
11 Threat Analysis Using Data Mining Technique 197
Riddhi Panchal and Binod Kumar
11.1 Introduction 198
11.2 Related Work 199
11.3 Data Mining Methods in Favor of Cyber-Attack Detection 201
11.4 Process of Cyber-Attack Detection Based on Data Mining 204
11.5 Conclusion 205
References 205
12 Intrusion Detection Using Data Mining 209
Astha Parihar and Pramod Singh Rathore
12.1 Introduction 209
12.2 Essential Concept 210
12.2.1 Intrusion Detection System 211
12.2.2 Categorization of IDS 212
12.2.2.1 Web Intrusion Detection System (WIDS) 213
12.2.2.2 Host Intrusion Detection System (HIDS) 214
12.2.2.3 Custom-Based Intrusion Detection
System (CIDS) 215
12.2.2.4 Application Protocol-Based Intrusion
Detection System (APIDS) 215
12.2.2.5 Hybrid Intrusion Detection System 216
12.3 Detection Program 216
12.3.1 Misuse Detection 217
12.3.1.1 Expert System 217
12.3.1.2 Stamp Analysis 218
12.3.1.3 Data Mining 220
12.4 Decision Tree 221
12.4.1 Classification and Regression Tree (CART) 222
12.4.2 Iterative Dichotomise 3 (ID3) 222
12.4.3 C 4.5 223
12.5 Data Mining Model for Detecting the Attacks 223
12.5.1 Framework of the Technique 224
12.6 Conclusion 226
References 226
13 A Maize Crop Yield Optimization and Healthcare Monitoring
Framework Using Firefly Algorithm through IoT 229
S K Rajesh Kanna, V. Nagaraju, D. Jayashree, Abdul Munaf
and M. Ashok
13.1 Introduction 230
13.2 Literature Survey 231
13.3 Experimental Framework 232
13.4 Healthcare Monitoring 237
13.5 Results and Discussion 240
13.6 Conclusion 242
References 243
14 Vision-Based Gesture Recognition: A Critical Review 247
Neela Harish, Praveen, Prasanth, Aparna and Athaf
14.1 Introduction 247
14.2 Issues in Vision-Based Gesture Recognition 248
14.2.1 Based on Gestures 249
14.2.2 Based on Performance 249
14.2.3 Based on Background 249
14.3 Step-by-Step Process in Vision-Based 249
14.3.1 Sensing 251
14.3.2 Preprocessing 252
14.3.3 Feature Extraction 252
14.4 Classification 253
14.5 Literature Review 254
14.6 Conclusion 258
References 258
15 SPAM Filtering Using Artificial Intelligence 261
Abha Jain
15.1 Introduction 261
15.2 Architecture of Email Servers and Email Processing Stages 265
15.2.1 Architecture - Email Spam Filtering 265
15.2.1.1 Spam Filter - Gmail 266
15.2.1.2 Mail Filter Spam - Yahoo 266
15.2.1.3 Email Spam Filter - Outlook 267
15.2.2 Email Spam Filtering - Process 267
15.2.2.1 Pre-Handling 268
15.2.2.2 Taxation 268
15.2.2.3 Election of Features 268
15.2.3 Freely Available Email Spam Collection 269
15.3 Execution Evaluation Measures 269
15.4 Classification - Machine Learning Technique for Email
Spam 275
15.4.1 Flock Technique - Clustering 275
15.4.2 Naïve Bayes Classifier 276
15.4.3 Neural Network 279
15.4.4 Firefly Algorithm 282
15.4.5 Fuzzy Set Classifiers 283
15.4.6 Support Vector Machine 284
15.4.7 Decision Tree 286
15.4.7.1 NBTree Classifier 286
15.4.7.2 C4.5/J48 Decision Tree Algorithm 287
15.4.7.3 Logistic Version Tree Induction (LVT) 287
15.4.8 Ensemble Classifiers 288
15.4.9 Random Forests (RF) 289
15.5 Conclusion 290
References 290
Index 295
Back to Top
Preface xiii
1 Role of AI in Cyber Security 1
Navani Siroya and Prof Manju Mandot
1.1 Introduction 2
1.2 Need for Artificial Intelligence 2
1.3 Artificial Intelligence in Cyber Security 3
1.3.1 Multi-Layered Security System Design 3
1.3.2 Traditional Security Approach and AI 4
1.4 Related Work 5
1.4.1 Literature Review 5
1.4.2 Corollary 6
1.5 Proposed Work 6
1.5.1 System Architecture 7
1.5.2 Future Scope 7
1.6 Conclusion 7
References 8
2 Privacy Preserving Using Data Mining 11
Chitra Jalota and Dr. Rashmi Agrawal
2.1 Introduction 11
2.2 Data Mining Techniques and Their Role in Classification
and Detection 14
2.3 Clustering 19
2.4 Privacy Preserving Data Mining (PPDM) 21
2.5 Intrusion Detection Systems (IDS) 22
2.5.1 Types of IDS 23
2.5.1.1 Network-Based IDS 23
2.5.1.2 Host-Based IDS 24
2.5.1.3 Hybrid IDS 25
2.6 Phishing Website Classification 26
2.7 Attacks by Mitigating Code Injection 27
2.7.1 Code Injection and Its Categories 27
2.8 Conclusion 28
References 29
3 Role of Artificial Intelligence in Cyber Security and Security
Framework 33
Shweta Sharma
3.1 Introduction 34
3.2 AI for Cyber Security 36
3.3 Uses of Artificial Intelligence in Cyber Security 38
3.4 The Role of AI in Cyber Security 40
3.4.1 Simulated Intelligence Can Distinguish Digital Assaults 41
3.4.2 Computer-Based Intelligence Can Forestall Digital
Assaults 42
3.4.3 Artificial Intelligence and Huge Scope Cyber Security 42
3.4.4 Challenges and Promises of Artificial Intelligence
in Cyber Security 43
3.4.5 Present-Day Cyber Security and its Future with
Simulated Intelligence 44
3.4.6 Improved Cyber Security with Computer-Based
Intelligence and AI (ML) 45
3.4.7 AI Adopters Moving to Make a Move 45
3.5 AI Impacts on Cyber Security 46
3.6 The Positive Uses of AI Based for Cyber Security 48
3.7 Drawbacks and Restrictions of Using Computerized
Reasoning For Digital Security 49
3.8 Solutions to Artificial Intelligence Confinements 50
3.9 Security Threats of Artificial Intelligence 51
3.10 Expanding Cyber Security Threats with Artificial Consciousness 52
3.11 Artificial Intelligence in Cybersecurity – Current
Use-Cases and Capabilities 55
3.11.1 AI for System Danger Distinguishing Proof 56
3.11.2 The Common Fit for Artificial Consciousness
in Cyber Security 56
3.11.3 Artificial Intelligence for System Danger ID 57
3.11.4 Artificial Intelligence Email Observing 58
3.11.5 Simulated Intelligence for Battling Artificial
Intelligence Dangers 58
3.11.6 The Fate of Computer-Based Intelligence in Cyber
Security 59
3.12 How to Improve Cyber Security for Artificial Intelligence 60
3.13 Conclusion 61
References 62
4 Botnet Detection Using Artificial Intelligence 65
Astha Parihar and Prof. Neeraj Bhargava
4.1 Introduction to Botnet 66
4.2 Botnet Detection 67
4.2.1 Host-Centred Detection (HCD) 68
4.2.2 Honey Nets-Based Detection (HNBD) 69
4.2.3 Network-Based Detection (NBD) 69
4.3 Botnet Architecture 69
4.3.1 Federal Model 70
4.3.1.1 IBN-Based Protocol 71
4.3.1.2 HTTP-Based Botnets 71
4.3.2 Devolved Model 71
4.3.3 Cross Model 72
4.4 Detection of Botnet 73
4.4.1 Perspective of Botnet Detection 73
4.4.2 Detection (Disclosure) Technique 73
4.4.3 Region of Tracing 74
4.5 Machine Learning 74
4.5.1 Machine Learning Characteristics 74
4.6 A Machine Learning Approach of Botnet Detection 75
4.7 Methods of Machine Learning Used in Botnet Exposure 76
4.7.1 Supervised (Administrated) Learning 76
4.7.1.1 Appearance of Supervised Learning 77
4.7.2 Unsupervised Learning 78
4.7.2.1 Role of Unsupervised Learning 79
4.8 Problems with Existing Botnet Detection Systems 80
4.9 Extensive Botnet Detection System (EBDS) 81
4.10 Conclusion 83
References 84
5 Spam Filtering Using AI 87
Yojna Khandelwal and Dr. Ritu Bhargava
5.1 Introduction 87
5.1.1 What is SPAM? 87
5.1.2 Purpose of Spamming 88
5.1.3 Spam Filters Inputs and Outputs 88
5.2 Content-Based Spam Filtering Techniques 89
5.2.1 Previous Likeness–Based Filters 89
5.2.2 Case-Based Reasoning Filters 89
5.2.3 Ontology-Based E-Mail Filters 90
5.2.4 Machine-Learning Models 90
5.2.4.1 Supervised Learning 90
5.2.4.2 Unsupervised Learning 90
5.2.4.3 Reinforcement Learning 91
5.3 Machine Learning–Based Filtering 91
5.3.1 Linear Classifiers 91
5.3.2 Naïve Bayes Filtering 92
5.3.3 Support Vector Machines 94
5.3.4 Neural Networks and Fuzzy Logics–Based Filtering 94
5.4 Performance Analysis 97
5.5 Conclusion 97
References 98
6 Artificial Intelligence in the Cyber Security Environment 101
Jaya Jain
6.1 Introduction 102
6.2 Digital Protection and Security Correspondences
Arrangements 104
6.2.1 Operation Safety and Event Response 105
6.2.2 AI2 105
6.2.2.1 CylanceProtect 105
6.3 Black Tracking 106
6.3.1 Web Security 107
6.3.1.1 Amazon Macie 108
6.4 Spark Cognition Deep Military 110
6.5 The Process of Detecting Threats 111
6.6 Vectra Cognito Networks 112
6.7 Conclusion 115
References 115
7 Privacy in Multi-Tenancy Frameworks Using AI 119
Shweta Solanki
7.1 Introduction 119
7.2 Framework of Multi-Tenancy 120
7.3 Privacy and Security in Multi-Tenant Base System Using AI 122
7.4 Related Work 125
7.5 Conclusion 125
References 126
8 Biometric Facial Detection and Recognition Based on ILPB
and SVM 129
Shubhi Srivastava, Ankit Kumar and Shiv Prakash
8.1 Introduction 129
8.1.1 Biometric 131
8.1.2 Categories of Biometric 131
8.1.2.1 Advantages of Biometric 132
8.1.3 Significance and Scope 132
8.1.4 Biometric Face Recognition 132
8.1.5 Related Work 136
8.1.6 Main Contribution 136
8.1.7 Novelty Discussion 137
8.2 The Proposed Methodolgy 139
8.2.1 Face Detection Using Haar Algorithm 139
8.2.2 Feature Extraction Using ILBP 141
8.2.3 Dataset 143
8.2.4 Classification Using SVM 143
8.3 Experimental Results 145
8.3.1 Face Detection 146
8.3.2 Feature Extraction 146
8.3.3 Recognize Face Image 147
8.4 Conclusion 151
References 152
9 Intelligent Robot for Automatic Detection of Defects in
Pre-Stressed Multi-Strand Wires and Medical Gas Pipe Line
System Using ANN and IoT 155
S K Rajesh Kanna, O. Pandithurai, N. Anand,
P. Sethuramalingam and Abdul Munaf
9.1 Introduction 156
9.2 Inspection System for Defect Detection 158
9.3 Defect Recognition Methodology 162
9.4 Health Care MGPS Inspection 165
9.5 Conclusion 168
References 169
10 Fuzzy Approach for Designing Security Framework 173
Kapil Chauhan
10.1 Introduction 173
10.2 Fuzzy Set 177
10.3 Planning for a Rule-Based Expert System for Cyber Security 185
10.3.1 Level 1: Defining Cyber Security Expert System
Variables 185
10.3.2 Level 2: Information Gathering for Cyber Terrorism 185
10.3.3 Level 3: System Design 186
10.3.4 Level 4: Rule-Based Model 187
10.4 Digital Security 188
10.4.1 Cyber-Threats 188
10.4.2 Cyber Fault 188
10.4.3 Different Types of Security Services 189
10.5 Improvement of Cyber Security System (Advance) 190
10.5.1 Structure 190
10.5.2 Cyber Terrorism for Information/Data Collection 191
10.6 Conclusions 191
References 192
11 Threat Analysis Using Data Mining Technique 197
Riddhi Panchal and Binod Kumar
11.1 Introduction 198
11.2 Related Work 199
11.3 Data Mining Methods in Favor of Cyber-Attack Detection 201
11.4 Process of Cyber-Attack Detection Based on Data Mining 204
11.5 Conclusion 205
References 205
12 Intrusion Detection Using Data Mining 209
Astha Parihar and Pramod Singh Rathore
12.1 Introduction 209
12.2 Essential Concept 210
12.2.1 Intrusion Detection System 211
12.2.2 Categorization of IDS 212
12.2.2.1 Web Intrusion Detection System (WIDS) 213
12.2.2.2 Host Intrusion Detection System (HIDS) 214
12.2.2.3 Custom-Based Intrusion Detection
System (CIDS) 215
12.2.2.4 Application Protocol-Based Intrusion
Detection System (APIDS) 215
12.2.2.5 Hybrid Intrusion Detection System 216
12.3 Detection Program 216
12.3.1 Misuse Detection 217
12.3.1.1 Expert System 217
12.3.1.2 Stamp Analysis 218
12.3.1.3 Data Mining 220
12.4 Decision Tree 221
12.4.1 Classification and Regression Tree (CART) 222
12.4.2 Iterative Dichotomise 3 (ID3) 222
12.4.3 C 4.5 223
12.5 Data Mining Model for Detecting the Attacks 223
12.5.1 Framework of the Technique 224
12.6 Conclusion 226
References 226
13 A Maize Crop Yield Optimization and Healthcare Monitoring
Framework Using Firefly Algorithm through IoT 229
S K Rajesh Kanna, V. Nagaraju, D. Jayashree, Abdul Munaf
and M. Ashok
13.1 Introduction 230
13.2 Literature Survey 231
13.3 Experimental Framework 232
13.4 Healthcare Monitoring 237
13.5 Results and Discussion 240
13.6 Conclusion 242
References 243
14 Vision-Based Gesture Recognition: A Critical Review 247
Neela Harish, Praveen, Prasanth, Aparna and Athaf
14.1 Introduction 247
14.2 Issues in Vision-Based Gesture Recognition 248
14.2.1 Based on Gestures 249
14.2.2 Based on Performance 249
14.2.3 Based on Background 249
14.3 Step-by-Step Process in Vision-Based 249
14.3.1 Sensing 251
14.3.2 Preprocessing 252
14.3.3 Feature Extraction 252
14.4 Classification 253
14.5 Literature Review 254
14.6 Conclusion 258
References 258
15 SPAM Filtering Using Artificial Intelligence 261
Abha Jain
15.1 Introduction 261
15.2 Architecture of Email Servers and Email Processing Stages 265
15.2.1 Architecture - Email Spam Filtering 265
15.2.1.1 Spam Filter - Gmail 266
15.2.1.2 Mail Filter Spam - Yahoo 266
15.2.1.3 Email Spam Filter - Outlook 267
15.2.2 Email Spam Filtering - Process 267
15.2.2.1 Pre-Handling 268
15.2.2.2 Taxation 268
15.2.2.3 Election of Features 268
15.2.3 Freely Available Email Spam Collection 269
15.3 Execution Evaluation Measures 269
15.4 Classification - Machine Learning Technique for Email
Spam 275
15.4.1 Flock Technique - Clustering 275
15.4.2 Naïve Bayes Classifier 276
15.4.3 Neural Network 279
15.4.4 Firefly Algorithm 282
15.4.5 Fuzzy Set Classifiers 283
15.4.6 Support Vector Machine 284
15.4.7 Decision Tree 286
15.4.7.1 NBTree Classifier 286
15.4.7.2 C4.5/J48 Decision Tree Algorithm 287
15.4.7.3 Logistic Version Tree Induction (LVT) 287
15.4.8 Ensemble Classifiers 288
15.4.9 Random Forests (RF) 289
15.5 Conclusion 290
References 290
Index 295
Back to Top
BISAC SUBJECT HEADINGS
COM094000 : COMPUTERS / Data Science / Machine Learning
TEC071000 : TECHNOLOGY & ENGINEERING / Telecommunications
BUS070030 : BUSINESS & ECONOMICS / Industries / Computers & Information Technology
BIC CODES
UYQM: Machine learning
UMB: Algorithms & data structures
TJF: Electronics engineering
Back to Top