Digital Forensics and Internet of Things
Are you prepared to embark on a learning journey that develops the skill set to guard our increasingly connected world? Our comprehensive IoT forensics course is designed to make you a working professional investigator. We go beyond theory and equip you with the IoT investigation methodologies to solve real-life issues.
This isn’t just a course; it is the beginning of your path to a demanding career in digital forensics and cybersecurity!
What You`ll Learn on This Course
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- Fundamentals of IoT Forensics: Take a deep dive into the core principles of IoT digital forensics. Understand the complex chain of custody and the unique challenges posed by diverse device types & data locations.
- Investing in Specific IoT Systems: Explore the real-world case studies in multiple fields. Learn the forensic approaches, from analyzing data from smart healthcare monitoring systems to investigating evidence left by human-robot interaction, and understand the intricacies of forensic work in the Vehicular Ad Hoc Networks (VANETs).
- Sensor & Network Security: Explore how to secure data from IOT sensors and networks. Master cryptographic fundamentals, delve into cloud security for the IoT, and learn how to identify security weaknesses in network design & development.
- Advanced Forensic Techniques: Go beyond the basics with the specialized skills. Get hands-on with the forensic analytics of IoT devices for evidence, and learn how to use technologies like Xilinx FPGA & IP cores to combat digital crimes.
This course comes with:
Interactive Lessons
16+ Interactive Lessons | 44+ Exercises | 130+ Quizzes | 75+ Flashcards | 75+ Glossary of terms
Hands-On Labs
14+ LiveLab | 14+ Video tutorials | 51+ Minutes
Curriculum
- 2 Sections
- 0 Lessons
- 26 Weeks
Expand all sectionsCollapse all sections
- Lesson Plan
Preface
2. Face Recognition
- Introduction
- Image Processing
- Deep Learning
- Methodology
- Conclusion
3. Smart Healthcare Monitoring System: An IoT-Based Approach
- Introduction
- Healthcare at Clinics
- Remote Healthcare
- Technological Framework
- Standard UIs, Shows, and User Requirements
- Cloud-Based Health Monitoring Using IoT
- Information Acquisition
- The Processing of Cloud
- IoT-Based Health Monitoring Using Raspberry Pi
- IoT-Based Health Monitoring Using RFID
- Arduino and IoT-Based Health Monitoring System
- IoT-Based Health Monitoring System Using ECG Signal
- IoT-Based Health Monitoring System Using Android App
- Conclusion and Future Perspectives
4. Design of Gesture-Based Hand Gloves Using Arduino UNO: A Grace to Abled Mankind
- Introduction
- Result and Discussion
- Conclusion
- Future Scope
5. Playing With Genes: A Pragmatic Approach in Genetic Engineering
- Introduction
- Literature Review
- Methodology
- Food and Agriculture
- Impact on Farmers
- Diseases: Gene Editing and Curing
- Conclusion
- Future Scope
6. Digital Investigative Model in IoT: Forensic View
- Introduction
- Application of AI for Different Purposes in Forensic Science
- Future of AI
- Challenges While Implementing AI
- Conclusion
7. Internet of Things Mobility Forensics
- Introduction
- Smart Device and IoT
- Relation of Internet of Things with Mobility Forensics
- Mobility Forensics IoT Investigation Model
- Internet of Things Mobility Forensics: A Source of Information
- Drawbacks in IoT Devices Data Extraction
- Future Perspective of Internet of Things Mobility Forensics
- Conclusion
8. A Generic Digital Scientific Examination System for Internet of Things
- Introduction
- Internet of Things
- IoT Architecture
- Characteristics of IoT
- IoT Security Challenges and Factors of Threat
- Role of Digital Forensics in Cybercrime Investigation for IoT
- IoT Security Steps
- Conclusion
9. IoT Sensors: Security in Network Forensics
- Introduction
- Cybersecurity Versus IoT Security and Cyber-Physical Systems
- The IoT of the Future and the Need to Secure
- Security Engineering for IoT Development
- Building Security Into Design and Development
- Security in Agile Developments
- Focusing on the IoT Device in Operation
- Cryptographic Fundamentals for IoT Security Engineering
- Cloud Security for the IoT
- Conclusion
10. Xilinx FPGA and Xilinx IP Cores: A Boon to Curb Digital Crime
- Introduction
- Literature Review
- Proposed Work
- Xilinx IP Core Square Root
- RTL View of the 8-Bit Multiplier
- RTL View of 8-Bit Down Counter
- Up/Down Counter Simulation Results
- Square Root Simulation Results
- Hardware Device Utilization Reports of Binary Down Counter
- Comparison of Proposed and Existing Work for Binary Up/Down Counter
- Conclusion
11. Human-Robot Interaction: An Artificial Cognition-Based Study for Criminal Investigations
- Introduction
- Methodology
- Architecture Models for Robots
- Cognitive Architecture
- Challenges in the Existing Social Robots and the Future Scopes
- Conclusion
- Robots in Future Pandemics
12. VANET: An IoT Forensic-Based Model for Maintaining Chain of Custody
- Introduction
- Cluster Performance Parameters
- Routing Protocols in VANET
- Internet of Vehicles
- IoT Forensic in Vehicular Ad Hoc Networks
- Conclusion
13. Cognitive Radio Networks: A Merit for Teleforensics
- Introduction
- Contribution of Work
- Conclusion and Future Scope
- Acknowledgement
14. Fingerprint Image Identification System: An Asset for Security of Bank Lockers
- Introduction
- Result and Discussion
- Conclusion
- Future Scope
15. IoT Forensics: Interconnection and Sensing Frameworks
- Introduction
- The Need for IoT Forensics
- Various Types of Evidences Encountered
- Protocols and Frameworks in IoT Forensics
- IoT Forensics Process Model
- Suggestive Solutions
- Conclusion
16. IoT Forensics: A Pernicious Repercussions
- Introduction: Challenges in IoT Forensics
- Scope of the Compromise and Crime Scene Reconstruction
- Device and Data Proliferation
- Multiple Data Location and Jurisdiction Challenges
- Device Type
- Lack of Training and Weak Knowledge Management
- Data Encryption
- Heterogeneous Software and/or Hardware Specifications
- Privacy and Ethical Considerations by Accessing Personal Data
- Lack of a Common Forensic Model in IoT Devices
- Securing the Chain of Custody
- Lifespan Limitation
- The Cloud Forensic Problem
- The Minimum or Maximum Period in Which Data is Stored in the Cloud
- Evidence Analysis and Correlation
- Conclusion
0 - Hands-on LAB Activities
1. Digital Investigative Model in IoT: Forensic View
- Completing the Chain of Custody Form
- Training an AI Model to Recognize Patterns
- Creating a Chatbot or AI Assistant for Helping Forensic Teams
2. Internet of Things Mobility Forensics
- Simulating Sensor-to-Processor Communication in a Smart Device
- Simulating a MitM Attack on IoT Device Communication
- Recreating a Forensic Case Study Using IoT Logs
- Simulating Logical Data Extraction from a Smartphone
- Capturing and Analyzing Communication From IoT Devices
3. A Generic Digital Scientific Examination System for Internet of Things
- Identifying a Cyber Attack via Anomaly Detection
4. IoT Sensors: Security in Network Forensics
- Detecting Log Tampering Using SHA-256
- Securing IoT Data Using AES and RSA
- Detecting Public S3 Buckets Storing IoT Data
5. Xilinx FPGA and Xilinx IP Cores: A Boon to Curb Digital Crime
- Designing, Synthesizing, and Simulating an 8-bit Binary Multiplier Using Verilog
- Designing and Simulating an 8-bit Binary Multiplier Using Verilog
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