Job Description
Shape the future of automotive connectivity - Non-Terrestrial Networks (NTNs) are set to become a cornerstone of the upcoming 6G mobile communication standard. By extending the reach of terrestrial networks, they enable ubiquitous and resilient communication and will play a key role in next-generation vehicle communication units, ensuring seamless and robust connectivity for the automotive future. As a PhD candidate with us, you will conduct intensive research on future satellite-to-vehicle communication solutions based on innovative 6G networks. You will develop and implement advanced algorithms for handover mechanisms between terrestrial and non-terrestrial networks in order to ensure continuous and reliable connectivity for vehicles. To validate your concepts, you will create meaningful simulations or implement prototypes to demonstrate the feasibility of your ideas. You will actively contribute your research results to ongoing 3GPP studies and working groups, with the aim of filing patents and integrating your contributions into future releases. As part of the publicly funded project "6G-Coverage", you will work closely with universities and partner companies and network with leading experts. Last but not least you will collaborate with your supervising professor, publish scientific articles, present your findings at international specialist conferences, and write your dissertation. Education: excellent Master’s degree in Electrical Engineering, Computer Science, Physics, Mathematics or a comparable field of study Experience and Knowledge: knowledge of communication systems, including PHY/MAC layer and 3GPP; knowledge of AI/ML; practical skills in simulation, structured software development, and prototype construction Personality and Working Practice: you work independently and in a motivated manner on complex issues, activel
