Difference between revisions of "Jammer-Resilient Synchronization for Wireless Communications"
From iis-projects
Line 33: | Line 33: | ||
==Links== | ==Links== | ||
− | [[Category: | + | [[Category:Ongoing]] |
[[Category:IIP]] | [[Category:IIP]] | ||
[[Category:IIP_5G]] | [[Category:IIP_5G]] |
Revision as of 16:21, 20 September 2023
Contents
Short Description
As wireless communication becomes an indispensable pillar of modern infrastructure, jamming attacks turn into a crucial security threat. The widespread adoption of safety-critical technologies such as autonomous driving or industry 4.0 will therefore depend (among many other things) on our ability to mitigate jammers.
We have already developed several novel methods for jammer mitigation [1], [2], but they all require successfull synchronization between the transmitter and the receiver to get off the ground. In the presence of a jammer, synchronization is obviously much harder to achieve than usually. So far, there are no methods for jammer-resilient synchronization reported in the open literature.
The goal of this project would therefore be to develop jammer-resilient methods for synchronization.
[1] G. Marti and C. Studer, "Joint Jammer Mitigation and Data Detection for Smart, Distributed, and Multi-Antenna Jammers," to be presented at IEEE ICC 2023
[2] G. Marti and C. Studer, "Universal MIMO Jammer Mitigation via Secret Temporal Subspace Embeddings," arXiv:2305.01260
Status: Available
- Looking for a Semester/Master student
- Contact: Gian Marti
Prerequisites
- Basic knowledge in signal processing and/or digital communications
- Familiarity with MATLAB
Character
- 20% Literature Research
- 40% Algorithm Development
- 40% Implementation and Evaluation
Professor