Model-Based Design (MBD) Training

V-Model Development with MATLAB & Simulink

Embrace a structured and industry-proven development methodology with our comprehensive
Model-Based Design (MBD) training, built around the V-Model lifecycle.
This training ensures that every phase of your project — from requirements definition to final validation —
is systematically linked, traceable, and verifiable.

Designed for automotive, industrial, and embedded control engineers,
this course bridges theory, tools, and real-world implementation.

Purpose of the Training

This training equips engineers with practical, hands-on skills to develop embedded control
systems using MATLAB / Simulink, following the V-Model software development lifecycle.

The content is aligned with Automotive SPICE (ASPICE) principles, with a strong focus on
SWE.1 to SWE.6, enabling:

• Traceable requirements
• Testable system architectures
• Modular software design
• Verification-driven development

Participants gain a complete development pipeline, from concept to deployment.

Technical Scope & Capabilities

Align Requirements and Testing

Apply structured measurement and verification techniques to ensure that
system requirements remain validated throughout development.

Implementation Testing

Execute detailed testing of motor control algorithms under
realistic operating conditions using simulation and testbench concepts.

Design Verification

Simulate multiple operating scenarios to verify design assumptions and confirm
compliance with system specifications.

System Integration

Seamlessly integrate models with MATLAB / Simulink to support
complete V-Model workflows, from requirements to deployment.

Validation & Verification

Use real-time analytics and visualization tools (e.g. FreeMaster GUI)
to confirm compliance with validation criteria at every development stage.

Training Modules (ASPICE-aligned)

The training fully covers the following software engineering processes:

1. SWE.1 – Software Requirements Analysis
   Using Simulink Requirements
2. SWE.2 – Software Architecture Design
   Using System Composer
3. SWE.3 – Detailed Design & Unit Construction
   Using Simulink & Embedded Coder
4. SWE.4 – Unit Verification
   Using Simulink Test & MATLAB Unit Test
5. SWE.5 – Software Integration Testing
   Including coverage measurement and regression testing
6. SWE.6 – Software Qualification Testing

Interested in This Training?

If you are looking to establish a robust, traceable, and industry-compliant
development workflow for electric drives and embedded control systems,
we would be happy to discuss your requirements.

Contact us to tailor the training to your organization or academic program.