The future of automotive engineering is here — and it’s digital, dynamic, and data-driven.

In this in-depth course, you'll explore how Digital Twin technology is transforming the design, testing, optimization, and lifecycle management of modern vehicles. From high-fidelity simulation to predictive maintenance and real-time telemetry, digital twins are changing how we build and operate intelligent, high-performance automotive systems.

Whether you're an engineer, product developer, systems architect, or technical leader — this course will equip you with the tools and frameworks to understand, apply, and lead in the age of digital twins.

What You’ll Learn

Core concepts behind digital twins and their evolution in automotive systems
How digital twins are applied across design, simulation, control, and testing
The role of MBSE (Model-Based Systems Engineering) and digital thread integration
Fleet-wide data collection, edge computing, and cloud-twin synchronization
Predictive maintenance, OTA updates, and real-world industry case studies
Future trends: AI-augmented twins, quantum simulation, neuromorphic control, and blockchain

Who This Course is For

• Mechanical, Automotive, and Mechatronics Engineers

• Embedded Systems and Control Engineers

• R&D and Product Development Teams

• MBSE Practitioners and Systems Engineers

• Fleet Managers, Diagnostics, and Reliability Professionals

• Graduate Students and Industry Transitioners exploring AI, IoT, or Smart Manufacturing

Mechanical, Automotive, and Mechatronics Engineers

Embedded Systems and Control Engineers

R&D and Product Development Teams

MBSE Practitioners and Systems Engineers

Fleet Managers, Diagnostics, and Reliability Professionals

Graduate Students and Industry Transitioners exploring AI, IoT, or Smart Manufacturing

What You Need

• A basic understanding of mechanical or automotive systems

• Familiarity with engineering modeling, simulation, or system design

• No prior experience with digital twins, AI, or programming is required

A basic understanding of mechanical or automotive systems

Familiarity with engineering modeling, simulation, or system design

No prior experience with digital twins, AI, or programming is required

By the end of this course, you’ll be able to design and deploy digital twin frameworks, connect physical systems to simulation environments, and understand how data, physics, and software combine to drive real-time decisions across the automotive product lifecycle.

Join us and build the future of automotive innovation, one twin at a time.