Introduction to Model-Based Systems Engineering, Describe Models and Model-Based Systems Engineering

Introduction to Model-Based Systems Engineering, Describe Models and Model-Based Systems Engineering
Introduction to Model-Based Systems Engineering, Describe Models and Model-Based Systems Engineering

Model-based systems engineering (MBSE), as a formal application of modeling to support system requirements, design, analysis, verification and validation activities, starting from the conceptual design stage and continuing to the entire development stage and subsequent life cycle stages

When the systems engineer defines or creates something during a diagram, the SysML tool maintains consistency altogether the opposite diagrams during a process called traceability.

The advantage of MBSE and SysML is that the ability to make models/diagrams for the system rather than using documents.

The reasons for his or her popularity are: 
  • MBSE gives a uniform way of capturing and managing the system’s requirements, architecture, design, and processes
  • Facilitates communication among various stakeholders by providing discipline-specific views for various purposes
  • Allows detecting defects early within the system development life cycle
  • Can function one source of truth for systems engineers and other team members
  • Allows exploring multiple solutions with minimal investment.

The goal is that the Digital Thread, the entire set of domain models organized, connected and version-managed during a way that permits everyone on the event team to seek out the info they have to try to to their jobs. Each discipline and every organization have a seat at the MBSE table.

In each enterprise, the implementation of digital threads is still incremental. Early adopters hope to enhance collaboration between team members through specific integrations, speed up the completion of tasks and reduce errors caused by inconsistent domain models.

As they implement digital threads more comprehensively, they have gained greater benefits in model verification and verification, allowing them to explore the system design space more deeply in the project schedule.

One more style in the MBSE field is how engineering software tools and the digital thread infrastructure connecting them have become scalable enterprise applications that can share services and data in the cloud or on a local server.

In the past 13 years, MBSE has been widely adopted by system engineers as part of a long-term trend toward model-centric adoption by other engineering disciplines (including mechanical, electrical, and software).

12 Industries stand to profit from the MBSE approach:
  • Transportation and Mobility
  • Aerospace and Defense
  • Industrial Equipment
  • Energy and Utilities
  • Architecture and Construction
  • Life Sciences
  • High-tech
  • Marine and Offshore
  • Financial and Business Services
  • Consumer Goods and Retail
  • Natural Resources
  • Consumer Packaged Goods and Retail.

Introduction to Model-Based Systems Engineering (MBSE) Course by Tonex

Learn about modeling, modeling applied to systems engineering, system modeling language (SysML) applications, etc.

Participants will gain knowledge of how to apply MBSE and how modern systems engineering uses models to create structure and dynamic artifacts for conops, system requirements, design, architecture, analysis verification and validation activities.

During case studies and examples, participants will discover the application of modeling in system engineering, model-based analysis, requirements, design and testing methods

For system engineers, developers, testers and project managers, the System Modeling Language (SysML) uses static and dynamic diagrams suitable for system collection to represent system-related information.

The MBSE introduction will explain the advantages of MBSE and SysML and the ability to create models/diagrams for systems rather than documents.

Audience:
  • Developers
  • Systems Engineers
  • Testers
  • Project Managers
  • Analysts
  • Anyone else who wants to learn the application of modeling to modern systems engineering practices.

Course Objectives:
  • Explain models and Model-Based Systems Engineering (MBSE)
  • Express what SysML is
  • Explore model-based systems engineering approach
  • List SysML diagrams and language concepts
  • Apply SysML as part of a model based SE process applied to design and manufacturing
  • Expand a system conceptual model and architecture using MBSE/SysML
  • Describe system use cases, requirements, architecture, function, structure, behavior and tests with SysML
  • Explain the notions of system, product, service, and project with SysML
  • Model a combined Project-Product Life cycle Management system and study the benefits of the project-product synergies with SysML
  • Work with real life projects using MBSE approach with SysML

Course Outline:
  • Model Based Systems Engineering (SE) Overview
  • Model-based systems engineering (MBSE) vs. Document-Based Systems Engineering
  • SysML Overview
  • Diagram Techniques of SysML
  • Working with MBSE and SysML
  • Workshop

Learn More:

Introduction to Model-Based Systems Engineering

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