Organisation: Interdisciplinary Centre for Security, Reliability and Trust (SnT)

  • Core Research Projects

    Next gEneration Architectures and TECHnologies for telecom digital processors (NEATECH)

    The NEATECH project aims to develop advanced processor architectures using strategies that prioritise high integration and low power consumption. The primary goal is to significantly reduce power usage, mass, and volume while improving integration efficiency. The project will propose processor technologies and architectures that are scalable, capable of handling high data rates, and designed for…

    Learn more
  • News

    Exploring Cross-Discipline Communication in Data Protection 

    Learn more
  • News

    AI and thermal imaging make space safer for satellites

    Learn more
  • Research Projects Pages

    Resilient and Secure Activity Control for Flexible Time-Triggered Systems (ReSAC)

    ReSAC investigates time-triggered real-time systems, commonly used in automotive, avionics, and space industries, aiming to enhance their flexibility and support future applications.

    Learn more
  • Core Research Projects

    Resilient and Secure Activity Control for Flexible Time-Triggered Systems (ReSAC)

    ReSAC investigates time-triggered real-time systems, commonly used in automotive, avionics, and space industries, aiming to enhance their flexibility and support future applications.

    Learn more
  • Research Projects Pages

    Automated Investment Advice using Artificial Intelligence on Satellite Data (FinSat)

    The FinSAT project explores AI-driven investment solutions that use satellite data to generate real-time, automated financial insights for informed decision-making.

    Learn more
  • Research Projects Pages

    Efficient Digital Beamforming technique compatible with Non-Uniform Beam andArray lattices (EMMANUELE)

    The EMMANUELE project aims to surmount the limitations associated with Fast Fourier Transform (FFT) uniformity using Non-Uniform FFT (NUFFT). Accordingly, a power-efficient digital beamforming technique will be devised to accommodate irregular arrays and beam lattices, enabling full steering flexibility for a high number of beams. This approach is particularly relevant for many satellite communication systems,…

    Learn more
  • Core Research Projects

    Efficient Digital Beamforming technique compatible with Non-Uniform Beam and Array Lattices (EMMANUELE)

    The EMMANUELE project aims to surmount the limitations associated with Fast Fourier Transform (FFT) uniformity using Non-Uniform FFT (NUFFT). Accordingly, a power-efficient digital beamforming technique will be devised to accommodate irregular arrays and beam lattices, enabling full steering flexibility for a high number of beams. This approach is particularly relevant for many satellite communication systems,…

    Learn more
  • News

    Academic Excellence Powers Real World Banking Innovation

    Learn more
  • Research Projects Pages

    PayPal-FNR PEARL Chair in Digital Financial Services

    The PayPal-FNR PEARL Chair drives innovation in digital finance, advancing Luxembourg’s leadership in cutting-edge financial services.

    Learn more