Electromobility, autonomous driving and mobile robotics - international, b.eng

4 Years On Campus Bachelors Program

Deggendorf Institute of Technology

Program Overview

This B.Eng. in Electromobility, Autonomous Driving and Mobile Robotics at Deggendorf Institute of Technology is a hands-on, 7-semester program (3.5 years, 210 ECTS) designed for tech-savvy students passionate about shaping the future of transportation and robotics—perfect if you love engineering, innovation, and real-world problem-solving in fields like electric vehicles and self-driving tech. You'll dive into cutting-edge topics from power systems to AI-driven autonomy, building skills that top companies crave, all while gaining practical experience through projects and internships.

Curriculum Structure
Year 1 (Semesters 1-2):
You'll kick off with a solid foundation in electrical engineering basics, mastering network analysis, complex AC circuits, and physics models through hands-on experiments that teach you to tackle engineering problems independently. Courses like Physics 1 & 2 and electrical fundamentals equip you with the essential tools for everything from filters and transformers to transients and state-space representations, blending theory with practical lab work to build your confidence early on.

Year 2 (Semesters 3-4):
Building momentum, you'll explore advanced systems like Automotive Bus Systems (EM-24) for vehicle communication and dive into power electronics, learning how to design efficient circuits for modern mobility. This phase sharpens your skills in signal processing and control, preparing you for the high-tech challenges ahead with a mix of lectures and projects that feel directly applicable to industry.

Year 3 (Semesters 5-6):
Here, things get exciting with specialized modules like Power Electronics 2 (EM-29), Technology of Batteries (EM-30), and Charging Units and Hydrogen Technology (EM-31), where you'll design battery systems and explore sustainable energy solutions for EVs. You'll also tackle Model-based Control Design and Testing (EM-32) and Autonomous Driving (EM-33), applying AI and sensors to create smart, self-navigating systems—capped by electives (EM-25) and key competencies (EM-27) for well-rounded expertise.

Year 4 (Semester 7):
Your final stretch focuses on the Bachelor Thesis (EM-28) and Compulsory Elective Subject (EM-26), letting you dive deep into a real-world project, often with industry partners, while polishing soft skills for your career launch.

Focus areas: Power electronics, battery technology, hydrogen systems, model-based control, autonomous driving, automotive bus systems, and mobile robotics integration.

Learning outcomes: Graduates master engineering problem-solving in electromobility, from network analysis and physics applications to designing autonomous systems and sustainable power solutions—able to critically evaluate methods and innovate independently.

Professional alignment (accreditation): This accredited B.Eng. program aligns directly with booming industries like automotive (e.g., BMW, Volkswagen) and robotics, emphasizing practical internships and theses often done in companies for seamless entry into engineering roles.

Reputation (employability rankings): DIT alumni like Turgay Mus thrive in top firms— from GPS software at automotive leaders to patent-winning AI at BMW AG—crediting the program's practical focus and innovation edge; it's a launchpad to high-impact careers at 23, with multilingual skills and conference-ready expertise.

Experiential Learning (Research, Projects, Internships etc.)

At the Deggendorf Institute of Technology (DIT), the B.Eng. in Electromobility, Autonomous Driving and Mobile Robotics – International stands out for its strong focus on hands-on learning, where you'll dive into real-world engineering challenges from day one. You'll build practical skills in areas like power electronics, battery technology, model-based control design, and autonomous driving systems through dedicated modules that blend theory with experiments and projects. The program equips you with cutting-edge tools and facilities tailored to electromobility and robotics, ensuring you're ready for industry roles right after graduation.

Here are some standout experiential learning opportunities specific to this program:
- Laboratories for practical experiments: Modules like Physics 2 include hands-on physics labs where you'll conduct and evaluate experiments on mechanics and engineering models relevant to mobile robotics and autonomous systems.
- Specialized engineering labs: Access to facilities for electrical engineering fundamentals, network analysis, and complex AC systems, supporting modules on automotive bus systems, power electronics 2, charging units, hydrogen technology, and model-based control testing.
- Group projects and problem-solving: Emphasis on developing independent solutions for engineering problems, with modules teaching you to critically select methods—ideal for collaborative work in electromobility and autonomous driving.
- Internships: A dedicated internship module (similar to those in related DIT engineering programs) provides real industry experience, as alumni highlight how DIT's practical focus led to roles at BMW and automotive firms.
- Bachelor Thesis with applied focus: Culminate your studies with a thesis applying skills in electromobility or robotics, often involving practical testing and strategies.

This program isn't just about lectures—it's designed to get you building, testing, and innovating with the best resources DIT offers. Imagine applying to cutting-edge projects in autonomous driving while surrounded by supportive advisors and top facilities.

Progression & Future Opportunities

At the Deggendorf Institute of Technology's Electromobility, Autonomous Driving and Mobile Robotics - International, B.Eng. program, you'll dive straight into hands-on learning from day one, building real-world skills in cutting-edge fields like battery tech, power electronics, and self-driving systems. Our curriculum emphasizes practical application through lab work, experiments, and industry-relevant projects, so you're not just studying theory—you're designing, testing, and innovating with professional tools right here on campus. This approach, drawn from our official module guide, ensures you graduate ready to tackle jobs at top companies like BMW, where alumni have patented innovations straight out of their studies.

Here's what sets our experiential learning apart, all tailored to this program:
- Dedicated labs and physics practicals: Hands-on experiments in Physics 1 and 2 modules teach you to evaluate real mechanics and electrical systems, with 105 hours of attendance time per module for direct lab access.
- Model-based control design: In EM-32, use specialized software for designing and testing control systems for autonomous vehicles and robotics, applying methods to solve engineering problems practically.
- Automotive bus systems projects: EM-24 module involves group work on vehicle communication networks, simulating real industry scenarios with solution strategies for electromobility.
- Power electronics and battery tech labs: EM-29 and EM-30 provide tools for hands-on work with advanced power systems, charging units, and hydrogen tech, including 270 hours total per module blending labs and self-study.
- Internship semester: A full 22 ECTS internship in semester 6 (similar to related engineering programs at DIT) connects you to automotive firms for real-world experience, just like our alumni who landed at BMW.
- Bachelor thesis with industry focus: EM-28 lets you tackle a major practical project, often in collaboration with partners, building on prior lab skills.

This program is your launchpad to an exciting career—apply now and let's get you building the future of mobility!