A selection of the chair's projects

This list shows the currently running and typically publically funded projects of our chair. These projects are typically carried out in cooperation with other research institutes and companies.

Post-Quanten-sichere Open-Source Schemata und Technologien für Automotive-Anwendungen

Post-quantum cryptography (PQC) is essential for modern vehicles to ensure secure car-to-X communication, even in the presence of quantum attackers. Our research group is developing a PQC-ready threshold signing system designed to operate on high-performance ECUs in vehicles.

Greener future digital research infrastructures

The overall objective of GreenDIGIT is to develop and validate a consistent framework, including a package of innovative technical solutions, models, and tools to increase the sustainability of digital RIs by lowering their environmental and climate impact throughout their whole lifecycle.

NIC-Level Co-Processors for Resilient Coded Networking and Computation

The objectives of the project are to demonstrate the beneficial role that SmartNICs can play for a distributed network and compute infrastructure in embedded, mixed-criticality automotive or Industry 4.0 applications. We plan to investigate means for efficient wire-rate network coding to make the network resources resilient against transient or permanent failures, and to shield router-based or end-node compute resources against possible overload conditions. Our goal is to accomplish these resilience improvements with the lowest possible and deterministic latencies and an overhead price tag of less than existing state-of-the-art approaches.

Scientific LargeScale Infrastructure for Computing/Communication Experimental Studies – Preparatory Phase

The digital infrastructures research community continues to face numerous new challenges towards the design of the Next Generation Internet. This is an extremely complex ecosystem encompassing communication, networking, data-management and data-intelligence issues. SLICES-PP aims to answer these problems by building a large infrastructure needed for experimental research.

Holistic Approaches for 6th Generation Cellular Networks

The '6G-ANNA' project contributes significantly to the development of technologies that will enable the introduction of 6G contributing to technological sovereignty in Germany and Europe.

Security, Usability, Performance, and Privacy Research on Algorand

The TUM project ACE-SUPPRA (Security, Usability, Performance, and Privacy Research in Algorand) was selected for a five year long research initiative grant with educational and outreach elements. The research target is making the blockchain faster and more sustainable.

Research on Future 6G Network Architectures

TUM and the Technical University of Dresden have joined forces to form the 6G-life research hub to drive cutting-edge research for future 6G communication networks with a focus on human-machine collaboration.

Predictive Analysis of Routing and Network flows for an Intelligent Network Management

The subordinate goal of the project PRIMEnet is the development of intelligent and inovative analytic processes for predictive assessments of the quality of service in complex communication networks.

Earlier Projects