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MBSE for vehicle systems engineering - ISO 26262 functional safety, powertrain, and autonomy

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MBSE for energy systems - IEEE 1547, IEC 61508/61513, nuclear, renewables, grid infrastructure

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MBSE for aircraft and space systems - ARP4754, DoD 5000.97, SysML, digital engineering

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MBSE for medical device development - ISO 14971, IEC 62304, FDA, RAAML

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MBSE for defence programmes - DoD 5000.97, UAF, DoDAF, MOSA, TS/SCI capability

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MBSE with MathWorks System Composer

Apply MBSE with MathWorks System Composer for architecture modelling and simulation. Focus on system-level analysis and design.

Duration

3 Days

Format

Direct

Level

Foundational

Overview

About This Course

Three-day comprehensive training course teaching participants how to leverage Model-Based Systems Engineering (MBSE) using MathWorks System Composer for system architecture modeling and analysis.

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Required Software

MATLAB 2024a+ with System Composer, Requirements Toolbox, Simulink, Stateflow, and Variant Manager

Take-Aways

Ability to understand and model requirements, structure, and behavior in System Composer; exposure to simulating and analyzing System Composer models with MATLAB, Simulink, and Stateflow.

Prerequisites

Systems engineering foundation

MBSE with MathWorks System Composer

Comprehensive MBSE course using MathWorks System Composer for system architecture modeling and analysis.

  • Level: Foundational
  • Duration: 3 Days
  • Format: Direct
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Course Curriculum

DAY 1 - Foundations, Project Organization & Requirements

Training overview, required tools, daily schedule

Introduction to MBSE and System Composer: key definitions, advantages

Model organization in a project:
• projects
• folders
• labels
• dependency analyzer (with lab)

Requirements:
• attributes
• abstractions
• creating/importing requirements
• customizing attributes
• traceability

DAY 2 - Concept & Logical Architecture

Concept model:
• scope
• stakeholder needs
• contextual and functional architectures
• ports/connectors (with lab)

Logical architecture:
• decomposing structure with components
• parameters
• interfaces
• stereotypes
• properties vs parameters (with lab)

DAY 3 - Behavior, Physical Models & Analysis

System behavior:
• activity diagrams
• Stateflow charts
• sequence diagrams
• MATLAB scripts
• behavior allocation (with lab)

Physical models and system analysis:
• physical ports/interfaces
• reference and variant components
• Simulink
• analysis instances (with lab)

Training review:
• module discussion
• learning outcomes
• additional references

Outcomes

R

DAY 1 - Foundations, Project Organization & Requirements

Understand MBSE in System Composer, set up a structured MATLAB project, and capture traceable requirements.

R

DAY 2 - Concept & Logical Architecture

Define a black-box concept model and a layered logical architecture for the system.

R

DAY 3 - Behavior, Physical Models & Analysis

Specify system behavior, derive physical variants, and run analyzes against requirements.