Embedded Safety in Robotics and Machinery Masterclass Training by Tonex
Embedded safety is crucial in robotics and machinery to prevent failures and ensure compliance. This masterclass explores safety principles, risk assessment, and regulatory frameworks for embedded systems. Participants will learn about functional safety, hazard analysis, and best practices for safety-critical designs. The course also covers cybersecurity threats to embedded safety, including risks of system breaches and manipulation. Strengthening embedded safety enhances cybersecurity by reducing vulnerabilities and ensuring system integrity.
Audience:
- Cybersecurity professionals
- Embedded system engineers
- Robotics developers
- Safety compliance officers
- Industrial automation specialists
- Product designers
Learning Objectives:
- Understand embedded safety principles in robotics and machinery
- Learn risk assessment techniques for safety-critical systems
- Explore regulatory standards and compliance frameworks
- Identify cybersecurity threats to embedded safety
- Implement best practices for secure and reliable systems
Course Modules:
Module 1: Fundamentals of Embedded Safety
- Introduction to embedded safety concepts
- Safety requirements in robotics and machinery
- Functional safety and risk mitigation strategies
- Role of embedded systems in industrial automation
- Key safety challenges in autonomous systems
- Safety-critical design methodologies
Module 2: Risk Assessment and Hazard Analysis
- Understanding safety risks in embedded systems
- Hazard identification and classification
- Safety integrity levels (SIL) and performance levels (PL)
- Conducting risk assessments for industrial robots
- Mitigating risks in safety-critical applications
- Real-world case studies on safety failures
Module 3: Regulatory Standards and Compliance
- Overview of IEC 61508 and ISO 13849 standards
- Compliance requirements for industrial automation
- Certification processes for safety-critical systems
- Safety and security overlap in regulatory frameworks
- Industry best practices for compliance assurance
- Emerging regulations in robotics and machinery safety
Module 4: Cybersecurity Threats to Embedded Safety
- Cyber risks in industrial automation and robotics
- Attack vectors targeting safety-critical systems
- Secure design principles for embedded safety
- Threat modeling for robotics and machinery
- Case studies on cybersecurity breaches in safety systems
- Best practices for securing embedded safety functions
Module 5: Implementing Safe and Secure Embedded Systems
- Designing fault-tolerant safety mechanisms
- Redundancy and fail-safe strategies in embedded systems
- Safety validation and verification techniques
- Secure coding practices for safety applications
- Enhancing system resilience against cyber threats
- Integrating safety and security in product development
Module 6: Future Trends in Embedded Safety and Cybersecurity
- Advances in AI-driven safety monitoring
- Role of machine learning in risk assessment
- Evolving cybersecurity threats in industrial automation
- Predictive maintenance for safety-critical systems
- Emerging safety innovations in robotics
- Preparing for future regulatory changes
Enhance your expertise in embedded safety and cybersecurity. Join this masterclass to gain critical skills in designing and securing safety-critical embedded systems.