European Master's in Embedded Intelligence Nanosystems Engineering (EMINENT)

Overview

This European Master's program combines a structured, mobile study path across partner universities to build expertise at the intersection of nanomaterials, sensors and embedded systems. In the first semester you study at the Hellenic Mediterranean University in Greece, where the curriculum establishes core knowledge of functional nanomaterials. The second semester takes place at the University of Siegen in Germany, with emphasis on sensors, sensing devices and embedded or real‑time systems. The material taught in these two semesters forms the foundation for later specialization.

Specialisation and international experience

In the third semester you select one of five specialisation tracks hosted by partner universities across Europe. Each track focuses on a distinct application area — from intelligent sensor design and optoelectronic functional materials to IoT, robotics, natural materials and advanced data processing — allowing you to tailor your studies to specific research or industry directions. The programme is delivered in English and awards a Master of Science in the field of Electrical Engineering. For international students, the built‑in mobility offers exposure to different research groups, European academic networks and a multinational cohort, enhancing transferable skills and cross‑cultural experience.

Key facts and programme requirements

• Language of instruction: English
• Degree awarded: Master of Science (field: Electrical Engineering)
• Semester 1 (mandatory): Hellenic Mediterranean University, Greece — core courses on functional nanomaterials
• Semester 2 (mandatory): University of Siegen, Germany — focus on sensors, sensing devices and embedded systems
• Semester 3: choose one specialisation track (listed below)
• Specialisation tracks:
  1. Embedded Intelligent Sensorics — University of Siegen (Germany)
  2. Functional Materials with Optoelectronic Properties — Hellenic Mediterranean University (Greece)
  3. Internet of Things and Robotics — University of Oporto (France)
  4. Natural Materials and Biosensors — University of New Lisbon (Portugal)
  5. Advanced Sensor Systems and Data Processing — Vilnius Gediminas Technical University (Lithuania)

This two-year (120 ECTS) Master’s programme begins every winter semester and is delivered as a multinational consortium course. Over the 24 months students study at between two and four partner universities, following an integrated curriculum that spans the participating institutions. The programme’s structure is intentionally mobile: study periods at multiple campuses give access to varied teaching approaches, research facilities and specialist expertise across Europe.

Upon completion, graduates receive a joint degree issued by the partner universities at which they have physically studied for at least one semester. The precise course content and assessment methods are defined by the consortium and by the individual host universities, so students follow a tailored study path composed of modules from more than one institution.

Intended learning outcomes focus on advanced competence in the field of embedded intelligence and nanosystems engineering delivered in an international, multidisciplinary context. Students should expect to develop a strong theoretical foundation and applied skills through exposure to different laboratory environments, research groups and industry contacts, preparing them for further research or professional roles in academia and industry.

Key facts and programme requirements

• Duration: 2 years (24 months)
• Credit load: 120 ECTS
• Intake: annually, winter semester
• Mobility: study at 2–4 different partner universities during the programme
• Degree: joint degree awarded by the universities where the student has been physically enrolled for at least one semester
• Curriculum details and specific module lists/outcomes are determined by the consortium and the host universities for each study track

Graduates are prepared for technical and research roles in industries that develop sensors, embedded systems, IoT devices, robotics, optoelectronic materials and biosensors. The interdisciplinary training in materials, device engineering and data processing equips students for positions in R&D departments, product development teams, and technology-driven start-ups.

The international mobility and joint-degree structure also support academic careers: graduates are well placed to pursue PhD studies or research fellowships in European and global laboratories, or to take on roles that require cross-border collaboration and project coordination.