Model-based systems engineering (MBSE) is a method used for systems engineering that uses visual modeling as the main means of conveying information.
MBSE Provides an effective method for virtual prototyping, exploring and communicating system aspects, while significantly reducing or eliminating the reliance on traditional documents. MBSE is an application of modeling system, it is a cost-effective way to explore and record system characteristics.
The MBSE method makes the engineering process in the development of complex systems more efficient by improving the integrity, consistency and communication of requirements. This can be seen in engineering processes involving requirements management, concept exploration, design reuse, testing and qualification, verification and validation, and marginal analysis.
The MBSE method has proven to be the most effective in improving defect prevention strategies. It is found that this method can enhance the ability to find defects as early as possible in the system development life cycle (SDLC). These defects can be repaired without causing too much impact, and can prevent rework in later stages, thereby reducing costs , Schedule and task risk.
The use of MBSE has increased because common models can help engineering and stakeholders to collaborate effectively and help build consensus.
This is important because it is not unusual for task systems to be created by people with different interests and skills. They must somehow find a way to complete the project together.
MBSE Target:
- Improved communications
- With stakeholders
- Within the engineering project teams
- Across spoken language barriers
- Improved quality
- Early identification of requirements issues
- Enhanced system design integrity
- Improved specification of allocated requirements to hardware and software
- Fewer errors during integration and testing
- More rigorous requirements traceability
- Consistent documentation
- Increased productivity
- Improved impact analysis of requirements changes
- Improved interaction across a multi discipline team
- Reuse of existing models to support design and technology evolution
- Auto-generation of documentation
- Reduced risk
- Improved cost estimates
- Early, and on-going, requirements validation and design verification
MBSE Tools & Techniques:
- Structured analysis and design
- Data flow diagramming
- State transition diagramming
- Behavioral modeling
- Entity relationship modeling
- Finite element modeling
- Environment virtualization
- Computer Aided Design (CAD)
- Analytical modeling
- Process modeling
System Model:
- Requirements
- Behavior
- Structure
- Properties
- Interconnections
Audience:
- Product manager
- Project director
- R and D manager
- Engineering manager
- Systems engineer
- Capability developer
- Business analyst
- Systems analyst
- System architect
- Enterprise architect
- Software systems engineer
- Software engineer
- Design engineer
- Hardware engineer
- Project engineer
- LSA specialist
- Industrial engineer
Training Objectives:
- Know the general principals of SE
- Discuss the main characteristic of a system
- Describe overall benefits of MBSE
- Explain the application of MBSE in the industry
- Know SysML and that how it supports MBSE
- Explain how MBSE methods are used to specify and design systems
- Understand the overall process factors, and their relationships, which together establish the bases of SE
- Explain the concepts and rational behind MBSE, and how it compares to traditional SE
- Show basic skills to adjust the use of SE concepts and methods according to different application scenarios
- Perform basic knowledge of some more important technologies, including system requirements analysis, physical solution development, logical solution development, solution alternative evaluation and design iteration
- Discuss the principles and major techniques of engineering management in a systems project context
- Associate the role of the developer as the supplier, the identity of the developer as the creator and the role of the developer as the acquirer, and determine their own roles and the roles of their customers and suppliers within this framework
- Explain how an organization can transition to MBSE
Course Plan:
- Overview
- The System Life Cycle and Solution Development
- Systems Engineering Processes: Principles, Concepts and Components
- Requirements Analysis
- Development of the System Physical Solution Description (Synthesis)
- Development of the System Logical Solution (MBSE in Design)
- What is A Model?
- Model-Based Systems Engineering
- MBSE Definitions & Advantages
- INCOSE Systems Engineering Vision 2020
- MBSE Methodologies
- MBSE Modeling Language Standards
- MBSE Software Tools
- Lean Engineering
- Hands-On activities
- TONEX MBSE Hands-On Workshop Sample
- Model Based Requirements Engineering
- SysML Training Crash Course
- Requirements Engineering Workshop with Use Cases
- Model Based Testing | Model Based Systems Engineering (MBSE)
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