- Experience in systems engineering
- A general understanding of system design and SysML
Audience
- Project managers
- Architects
- System engineers
SysML is a modeling language used to analyze, design, and validate systems engineering applications. SysML V2 is OMG's next-generation systems modeling language that provides enhancements in precision, approach, and overall usability over SysML V1.
This instructor-led, live training (online or onsite) is aimed at project managers, architects, and system engineers who wish to model and evaluate systems using SysML V2 features and capabilities.
By the end of this training, participants will be able to specify, analyze, design, and verify complex systems using SysML V2.
Format of the Course
- Interactive lecture and discussion.
- Lots of exercises and practice.
- Hands-on implementation in a live-lab environment.
Course Customization Options
- To request a customized training for this course, please contact us to arrange.
Introduction
Overview of SysML V2 Features and Architecture
- Model-based system engineering (MBSE)
- System modeling concepts
- SysML versus UML
Exploring Model-Based Systems Engineering
- Model-based definition and approach
- MBSE methodologies and challenges
- Systems modeling language (SysML)
Learning About SysML V2 Improvements
- Enhancements and changes
- Adoption, visualization, and interoperability
- APIs and services
- Agile collaborative approach
Understanding Architecture Analysis and Design Integrated Approach (ARCADIA)
- Architecture modeling
- Development capabilities
- Operational analysis and system analysis
- Logical architecture and physical architecture
- Using the Capella tool
Understanding Object-Oriented Systems Engineering Method (OOSEM)
- SysML with OOSEM
- Top-down object-oriented concepts
- Integration with object-oriented development
- OOSEM activities and modeling artifacts
Comparing SysML/OOSEM with Arcadia/Capella
- Positioning
- Methodologies
- Language and diagrams
Modeling with SysML V2
- Usage focused modeling
- New model elements
- Diagram types and functions
Performing a System Reliability Analysis
- System dependability
- Reliability, availability, maintainability, and safety (RAMS) Analysis
- Reliability requirements analysis
System Modeling and Simulation
- System structure modeling
- Behavior modeling and integration
- System simulation phase
Analyzing Data from Simulations
- Results assessment and reports
- Reliability analysis case studies (landing gear system and flight management system)
- Large-scale systems to system of systems
Troubleshooting
Summary and Conclusion