About the course
📦 Part of the Niryo Cybersecurity Pack: Discover the Cybersecurity Pack Solution
Secure the Industry of the Future with Ned2
Master the security of physical systems with our program: "Cybersecurity Applied to Robotics." By using the Ned2 robotic arm, students move beyond abstraction to understand the real-world impact of a digital vulnerability on the physical world. This course transforms the learner’s perspective from a naive view to critical expertise through an immersive industrial scenario.
What will you learn?
- Risk analysis, threat modeling, and understanding the Confidentiality – Integrity – Availability (CIA) model applied to a real industrial system using the Ned2 robot.
- Security auditing, securing, and hardening of a connected robotic system (network, access control, services, and monitoring).
- Mastery of network fundamentals and the use of professional analysis, diagnostic, and supervision tools.
- Understanding and applying the core principles of cryptography.
- Attack simulation, post-incident analysis, and the implementation of defense strategies tailored to a connected environment.
- Developing an industrial cyber-culture and the ability to evaluate the concrete impact of a breach on a physical system.
Who is this course for?
- Higher Education & Vocational Students: Ideal for US CTE programs, Associate Degrees, or UK T-Levels.
- Cybersecurity Beginners looking to discover the field through a structured, accessible, and hands-on methodology.
- Specialized Training focused on Robotics, Automation, Embedded Systems, or Industrial Control Systems (ICS) Security.
What you'll learn
- Risk analysis, threat modeling, and understanding the Confidentiality – Integrity – Availability (CIA) model applied to a real industrial system using the Ned2 robot.
- Security auditing, securing, and hardening of a connected robotic system (network, access control, services, and monitoring).
- Mastery of network fundamentals and the use of professional analysis, diagnostic, and supervision tools.
- Understanding and applying the core principles of cryptography.
- Attack simulation, post-incident analysis, and the implementation of defense strategies tailored to a connected environment.
- Developing an industrial cyber-culture and the ability to evaluate the concrete impact of a breach on a physical system.
Course content
About the Author
Enrolment options
Cybersecurity applied to real world robotics
- Length: 25h
- Content Type: Curriculum
- Programming: Python
- Equipment: Ned2
📦 Part of the Niryo Cybersecurity Pack: Discover the Cybersecurity Pack Solution
Secure the Industry of the Future with Ned2
Master the security of physical systems with our program: "Cybersecurity Applied to Robotics." By using the Ned2 robotic arm, students move beyond abstraction to understand the real-world impact of a digital vulnerability on the physical world. This course transforms the learner’s perspective from a naive view to critical expertise through an immersive industrial scenario.
What will you learn?
- Risk analysis, threat modeling, and understanding the Confidentiality – Integrity – Availability (CIA) model applied to a real industrial system using the Ned2 robot.
- Security auditing, securing, and hardening of a connected robotic system (network, access control, services, and monitoring).
- Mastery of network fundamentals and the use of professional analysis, diagnostic, and supervision tools.
- Understanding and applying the core principles of cryptography.
- Attack simulation, post-incident analysis, and the implementation of defense strategies tailored to a connected environment.
- Developing an industrial cyber-culture and the ability to evaluate the concrete impact of a breach on a physical system.
Who is this course for?
- Higher Education & Vocational Students: Ideal for US CTE programs, Associate Degrees, or UK T-Levels.
- Cybersecurity Beginners looking to discover the field through a structured, accessible, and hands-on methodology.
- Specialized Training focused on Robotics, Automation, Embedded Systems, or Industrial Control Systems (ICS) Security.
- Enrolled students: 163



