Embedded Systems Engineering Bachelor of Science (B.Sc.)

3 Years On Campus Bachelors Program

University of Freiburg

Program Overview

The Embedded Systems Engineering B.Sc. at the University of Freiburg is a dynamic 6-semester program that blends computer science and microsystems engineering to create smart, sustainable technologies like wearables, IoT devices, and autonomous systems—perfect for students passionate about solving real-world challenges in health, energy, mobility, and Industry 4.0. If you love math, problem-solving, and hands-on tech, this program builds your skills from the ground up with cutting-edge labs, research opportunities, and projects that prepare you for top careers or master's studies.

Curriculum Structure
First Semester: You'll dive right into the excitement of building real systems through the System Design Project, where small teams design, realize, and optimize autonomous robots using sensors, actuators, mechanics, and control—giving you a perfect intro to interdisciplinary engineering. Alongside this, you'll master mathematical fundamentals and basics of computer science, laying a strong foundation in programming and technical processes that make everything else click. It's a hands-on start that shows you immediately how hardware and software team up.

Second and Third Semester: Building on those basics, you'll explore methods and processes in computer science alongside technical aspects of microsystems engineering, like electronics and cleanroom fabrication, to understand how microchips and systems are made. Courses ramp up with practical labs in state-of-the-art facilities, helping you connect physical components with software for efficient, innovative designs. This phase sharpens your problem-solving for everyday tech challenges.

Fourth to Sixth Semester: Advanced modules like the Embedded Systems Engineering practical course let you apply modeling knowledge using industry-standard tools like Matlab/Simulink, deepening your expertise in software-hardware integration. You'll tackle complex topics in areas like circuits, AI, and cyber-physical systems, culminating in a Bachelor's thesis that weights double in your final grade. By graduation, you'll have 180 ECTS credits and a portfolio ready for the job market.

Focus Areas: Specialize in cutting-edge fields like digital medical devices (wearables, intelligent implants), energy efficiency and sustainability (IoT, battery-free systems), or machine learning and embedded AI (robotics, self-driving tech, Industry 4.0).

Learning Outcomes: Gain versatile skills in designing microelectronic, micromechanical, and software components, plus their integration into complete systems—equipped for research, industry, or master's programs with practical experience from cleanrooms, electronics labs, and projects.

Professional Alignment (Accreditation): The program follows the official Prüfungsordnung B.Sc. (PO 2018) exam regulations, ensuring a structured path to your B.Sc. degree with weighted module grading (Bachelor's module counts double) and recognition across Europe via 180 ECTS credits.

Reputation (Employability Rankings): Freiburg's engineering faculty offers excellent career prospects, with students praising the broad hardware-software foundation and research ties at top departments—alumni land roles in digital industry, health tech, and sustainability, bolstered by state-of-the-art facilities and mentoring. It's a launchpad for high-demand jobs in a field where no industry skips embedded systems.

Experiential Learning (Research, Projects, Internships etc.)

In the Embedded Systems Engineering B.Sc. at the University of Freiburg, you'll dive right into hands-on learning from day one, building real-world skills by combining computer science and microsystems engineering in state-of-the-art labs and projects. Right from your first year, you'll get practical experience in top-notch facilities like the clean room and electronics labs at the Department of Microsystems Engineering (IMTEK) and Department of Computer Science (IIF), plus join cutting-edge research and faculty-wide activities that prepare you perfectly for industry or grad school. This isn't just theory—it's where you design, build, and test embedded systems that power everything from smart wearables to sustainable IoT solutions.

Here's what makes the experiential learning so powerful: you'll work with industry-standard tools and collaborate on real projects that mirror professional challenges:

- State-of-the-art laboratories: Hands-on practice in the clean room and electronics labs for microelectronic and hardware development, ideal for career entry.
- System Design Project: First-year group project where small teams build autonomous driving robots, applying computer science and engineering right away.
- Practical courses with specific software: Use Matlab/Simulink (industry favorite) in 4th-6th semester labs at the Chair of Operating Systems to model and deepen embedded systems knowledge.
- Cutting-edge research participation: Join projects at the Department of Microsystems Engineering (IMTEK) and Department of Computer Science (IIF), focusing on areas like cyber-physical systems and Industry 4.0.
- Modern campus facilities: Benefit from the university's state-of-the-art infrastructure, including mentoring programs (like female student mentoring) to support your growth.

Imagine applying to this program and turning your passion for tech into tangible skills—students rave about the broad hardware-software foundation and excellent job prospects. Check out the full facilities details here: [Faculty of Engineering Study Programs](https://www.tf.uni-freiburg.de/en/study-programs). Ready to take the next step? Let's chat about your application!

Progression & Future Opportunities

In the Embedded Systems Engineering B.Sc. at the University of Freiburg, you'll dive right into hands-on learning from day one, building real-world skills by combining hardware and software in state-of-the-art labs and projects that mirror industry challenges. Right from your first semester, you'll gain practical experience in the clean room and electronics labs, work on cutting-edge research with the Department of Microsystems Engineering (IMTEK) and Department of Computer Science, and tackle interdisciplinary team challenges that sharpen your problem-solving for future tech like IoT and Industry 4.0. This isn't just theory—it's where you create autonomous robots, model systems with professional tools, and prepare for top careers or master's programs.

Here's how you'll build those practical skills through specific program features::
- System Design Project (first semester for all bachelor students): Work in small groups to design, build, and optimize autonomous robots using sensors, actuators, mechanics, information processing, and control—perfect for learning system integration hands-on.
- Clean room and electronics labs: Get practical training in microchip production processes and state-of-the-art electronics, ideal for career entry in embedded systems.
- Embedded Systems Engineering practical course (4th-6th semesters): Apply modeling knowledge with industry-standard Matlab/Simulink software to deepen software-hardware skills.
- Cutting-edge research participation: Join projects at the Department of Microsystems Engineering (IMTEK) and Department of Computer Science (IIF), both part of the Faculty of Engineering.
- Group projects from the start: Like the robotics competition in System Design Project, emphasizing teamwork on macroscopic systems that scale to microsystems.

These experiences, backed by modern facilities on our European campus, set you up for excellent job prospects—imagine shaping sustainable tech in health, energy, or autonomous systems.