- modules: 12
- Examination: 1
- Examination Time: 50 MCQs, 90 Minutes
- Passing Score: 70%
About Certification
The AI+ Ethical Hacker certification delves into the intersection of cybersecurity and artificial intelligence, a pivotal juncture in our era of rapid technological progress. Tailored for budding ethical hackers and cybersecurity experts, it offers comprehensive insights into AI's transformative impact on digital offense and defense strategies. Unlike conventional ethical hacking courses, this program harnesses AI's power to enhance cybersecurity approaches. It caters to tech enthusiasts eager to master the fusion of cutting-edge AI methods with ethical hacking practices amidst the swiftly evolving digital landscape. The curriculum encompasses four key areas, from course objectives and prerequisites to anticipated job roles and the latest AI technologies in Ethical Hacking.
Prerequisites
- Programming Proficiency
- Networking Fundamentals
- Cybersecurity Basics
- Operating Systems Knowledge
- ML Basics
- Web Technologies
Certification Modules
- 1.1 Introduction to Ethical Hacking
- 1.2 Ethical Hacking Methodology
- 1.3 Legal and Regulatory Framework
- 1.4 Hacker Types and Motivations
- 1.5 Information Gathering Techniques
- 1.6 Footprinting and Reconnaissance
- 1.7 Scanning Networks
- 1.8 Enumeration Techniques
- 2.1 AI in Ethical Hacking
- 2.2 Fundamentals of AI
- 2.3 AI Technologies Overview
- 2.4 Machine Learning in Cybersecurity
- 2.5 Natural Language Processing (NLP) for Cybersecurity
- 2.6 Deep Learning for Threat Detection
- 2.7 Adversarial Machine Learning in Cybersecurity
- 2.8 AI-Driven Threat Intelligence Platforms
- 2.9 Cybersecurity Automation with AI
- 3.1 AI-Based Threat Detection Tools
- 3.2 Machine Learning Frameworks for Ethical Hacking
- 3.3 AI-Enhanced Penetration Testing Tools
- 3.4 Behavioral Analysis Tools for Anomaly Detection
- 3.5 AI-Driven Network Security Solutions
- 3.6 Automated Vulnerability Scanners
- 3.7 AI in Web Application
- 3.8 AI for Malware Detection and Analysis
- 3.9 Cognitive Security Tools
- 4.1 Introduction to Reconnaissance in Ethical Hacking
- 4.2 Traditional vs. AI-Driven Reconnaissance
- 4.3 Automated OS Fingerprinting with AI
- 4.4 AI-Enhanced Port Scanning Techniques
- 4.5 Machine Learning for Network Mapping
- 4.6 AI-Driven Social Engineering Reconnaissance
- 4.7 Machine Learning in OSINT
- 4.8 AI-Enhanced DNS Enumeration & AI-Driven Target Profiling
- 5.1 Automated Vulnerability Scanning with AI
- 5.2 AI-Enhanced Penetration Testing Tools
- 5.3 Machine Learning for Exploitation Techniques
- 5.4 Dynamic Application Security Testing (DAST) with AI
- 5.5 AI-Driven Fuzz Testing
- 5.6 Adversarial Machine Learning in Penetration Testing
- 5.7 Automated Report Generation using AI
- 5.8 AI-Based Threat Modeling
- 5.9 Challenges and Ethical Considerations in AI-Driven Penetration Testing
- 6.1 Supervised Learning for Threat Detection
- 6.2 Unsupervised Learning for Anomaly Detection
- 6.3 Reinforcement Learning for Adaptive Security Measures
- 6.4 Natural Language Processing (NLP) for Threat Intelligence
- 6.5 Behavioral Analysis using Machine Learning
- 6.6 Ensemble Learning for Improved Threat Prediction
- 6.7 Feature Engineering in Threat Analysis
- 6.8 Machine Learning in Endpoint Security
- 6.9 Explainable AI in Threat Analysis
- 7.1 Behavioral Biometrics for User Authentication
- 7.2 Machine Learning Models for User Behavior Analysis
- 7.3 Network Traffic Behavioral Analysis
- 7.4 Endpoint Behavioral Monitoring
- 7.5 Time Series Analysis for Anomaly Detection
- 7.6 Heuristic Approaches to Anomaly Detection
- 7.7 AI-Driven Threat Hunting
- 7.8 User and Entity Behavior Analytics (UEBA)
- 7.9 Challenges and Considerations in Behavioral Analysis
- 8.1 Automated Threat Triage using AI
- 8.2 Machine Learning for Threat Classification
- 8.3 Real-time Threat Intelligence Integration
- 8.4 Predictive Analytics in Incident Response
- 8.5 AI-Driven Incident Forensics
- 8.6 Automated Containment and Eradication Strategies
- 8.7 Behavioral Analysis in Incident Response
- 8.8 Continuous Improvement through Machine Learning Feedback
- 8.9 Human-AI Collaboration in Incident Handling
- 9.1 AI-Driven User Authentication Techniques
- 9.2 Behavioral Biometrics for Access Control
- 9.3 AI-Based Anomaly Detection in IAM
- 9.4 Dynamic Access Policies with Machine Learning
- 9.5 AI-Enhanced Privileged Access Management (PAM)
- 9.6 Continuous Authentication using Machine Learning
- 9.7 Automated User Provisioning and De-provisioning
- 9.8 Risk-Based Authentication with AI
- 9.9 AI in Identity Governance and Administration (IGA)
- 10.1 Adversarial Attacks on AI Models
- 10.2 Secure Model Training Practices
- 10.3 Data Privacy in AI Systems
- 10.4 Secure Deployment of AI Applications
- 10.5 AI Model Explainability and Interpretability
- 10.6 Robustness and Resilience in AI
- 10.7 Secure Transfer and Sharing of AI Models
- 10.8 Continuous Monitoring and Threat Detection for AI
- 11.1 Ethical Decision-Making in Cybersecurity
- 11.2 Bias and Fairness in AI Algorithms
- 11.3 Transparency and Explainability in AI Systems
- 11.4 Privacy Concerns in AI-Driven Cybersecurity
- 11.5 Accountability and Responsibility in AI Security
- 11.6 Ethics of Threat Intelligence Sharing
- 11.7 Human Rights and AI in Cybersecurity
- 11.8 Regulatory Compliance and Ethical Standards
- 11.9 Ethical Hacking and Responsible Disclosure
- 12.1 Case Study 1: AI-Enhanced Threat Detection and Response
- 12.2 Case Study 2: Ethical Hacking with AI Integration
- 12.3 Case Study 3: AI in Identity and Access Management (IAM)
- 12.4 Case Study 4: Secure Deployment of AI Systems
Certification outcome
Upon successful completion of the AI+ Ethical Hacker certification, individuals validate their capability in harnessing AI methodologies to bolster cybersecurity measures. They acquire comprehensive skills encompassing core ethical hacking concepts, AI-powered reconnaissance, evaluating vulnerabilities, conducting penetration tests, analyzing threats, responding to incidents, and managing identities within cybersecurity frameworks. By showcasing adeptness in ethically employing AI resources, certified individuals actively bolster cybersecurity defenses and promote the ethical integration of AI, thereby reinforcing organizational resilience against ever-changing cyber risks.