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    Engineering Services

Deliver structured MBSE execution with hands-on modelling, integration, and system development support

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    Custom Solutions

Tailored digital engineering solutions built around your architecture, workflows, and programme needs

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Expert guidance to define architecture, toolchains, and modelling standards for scalable engineering

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Accelerate digital engineering with AI-driven analysis, automation, and model intelligence

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Industries
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    Automotive Engineering

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

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    Energy and Infrastructure

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

  • 5
    Aerospace Engineering

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

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    Medical Device and Life Sciences Engineering

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

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    Defence Programmes

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

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SysML with OOSEM Workshop

Apply OOSEM methodology with SysML for structured system development. Focus on requirements, behaviour, and architecture flow.

Duration

5 days

Format

Direct

Level

Workshop

Overview

About This Course

Five-day workshop on developing system models using the Object-Oriented Systems Engineering Methodology (OOSEM). Supplement to the Applying SysML with MagicDraw course.

Required Software

No Magic's MagicDraw (v19.0+) or equivalent No Magic (CSM) or Dassault Systèmes CATIA Magic / Magic Systems Modeler (MSM) — with SysML plug-in

Take-Aways

Working knowledge of applying OOSEM to systems modeling.

Prerequisites

Applying SysML with MagicDraw

SysML with OOSEM Workshop

Workshop on developing system models using OOSEM as a supplement to Applying SysML with MagicDraw.

  • Level: Workshop
  • Duration: 5 Days
  • Format: Direct
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Course Curriculum

DAY 1 - OOSEM Introduction & Concept Model

OOSEM training introduction:
• purpose
• OOSEM process
• abstraction levels
• continuous activities
• common reviews (SRR, PDR, CDR)

Concept Model:
• package structure
• stakeholder needs
• use case definition
• system context definition
• MOEs
• traceability

DAY 2 - Logical Model — Part 1 (Group SRR)

Group System Requirements Review (SRR)

Logical Model setup:
• recursive package structure
• requirements
• functions

DAY 3 - Logical Model — Part 2

Subsystems and measurements

Logical interfaces and traceability

DAY 4 - Physical Model — Part 1 (Group PDR)

Group Preliminary Design Review (PDR)

Physical Model:
• package structure
• variant modeling
• variant requirements
• variant functions

DAY 5 - Physical Model — Part 2 (Group CDR)

Physical IBD

Trade study analysis with MagicDraw

Group Critical Design Review (CDR)

Outcomes

R

DAY 1 - OOSEM Introduction & Concept Model

Establish the OOSEM workflow and produce a Concept Model with stakeholder-driven traceability.

R

DAY 2 - Logical Model — Part 1 (Group SRR)

Pass an SRR with a refined requirements set and begin logical decomposition.

R

DAY 3 - Logical Model — Part 2

Decompose the system into subsystems with measured logical interfaces and complete traceability.

R

DAY 4 - Physical Model — Part 1 (Group PDR)

Pass a PDR and produce a physical model with engineered variants.

R

DAY 5 - Physical Model — Part 2 (Group CDR)

Run trade studies, complete the physical IBD, and pass a CDR.