Projects

Principal Investigator

D3TN GmbH, Cyberus Technology GmbH

Oct 04, 2024 — Oct 03, 2026

Principal Investigator

Federal Ministry of Education and Research (BMBF)

Alpha Strike Labs GmbH

Jun 01, 2023 — May 31, 2026

https://ipv6explorer.alphastrike.io/https://www.forschung-it-sicherheit-kommunikationssysteme.de/projekte/ipv6explorer

Principal Investigator

Federal Ministry of Education and Research (BMBF)

PHYSEC GmbH, WestfalenWIND IT GmbH & Co KG, HAW Hamburg

Sep 01, 2022 — Aug 21, 2025

Principal Investigator

Federal Ministry of Education and Research (BMBF)

Code Blau GmbH

https://concretecontracts.codeblau.de/ https://www.forschung-it-sicherheit-kommunikationssysteme.de/projekte/concrete-contracts

The goal of this project is to investigate potentials and limits of digital payment systems on low-end devices for the Internet of Things. In detail, we extend the digital payment system GNU Taler with (1) an innovative, privacy-preserving scheme for age verification during payment, (2) privacy-preserving sealed-bid auctions, and (3) processing of payments on embedded devices. A proof-of-concept will be implemented for RIOT, the friendly operating system for the IoT.

Principal Investigator (associated)

Principal Investigator

News article on heise.de, News article on welt.de

The project PrioBike-HH aims to increase the attractiveness of cycling. Among a set of measures, the PrioBike App provides routes and speed advises to allow a digital green wave for cyclist to reduces stops at traffic lights and thus, increase comfort and speed of cycling. The App is being tested and evaluated in a real-world deployment at the scale of the city of Hamburg.

Principal Investigator

German Federal Ministry of Education and Research (BMBF), Agence nationale de la recherche (ANR)

https://www.forschung-it-sicherheit-kommunikationssysteme.de/projekte/primenet

In PRIMEnet, we analyze the potential of smart predictions to steer Internet traffic and improve the management of networks.

Principal Investigator

German Federal Ministry of Education and Research (BMBF), Agence nationale de la recherche (ANR)

HAW Hamburg, Lobaro GmbH, INSA de Lyon, Villeurbanne (partner in France), Association Française pour le Nommage Internet en Coopération (Afnic), Montigny-le-Bretonneux (partner in France)

https://pivot-project.info/, https://www.forschung-it-sicherheit-kommunikationssysteme.de/projekte/pivot

In PIVOT, we start from two fundamental observations. First, a privacy-friendly IoT requires to protect content objects by themselves, in addition to commonly deployed channel encryption. Content disclosure can thus be attributed to designated receivers. Second, names can serve as the principle interface to access IoT data, eliding source identities. Hence, individual end point identifiers will disappear from public Internet metadata.

The innovation in PIVOT is to address the prevalent privacy and security issues in IoT by proposing content object security principles that build on privacy-friendly names, while remaining globally and seamlessly interoperable between IoT devices regardless of networks to which they may connect.

Principal Investigator

Federal Ministry of Education and Research (BMBF)

https://www.verdatas.de

In the VerDatAs project, the integration of learning platforms and innovative methods of vocational education and training are developed and tested. Findability and accuracy of fit of continuing education offers of different granularity will be decisively improved by innovative competence measurement methods and AI-supported learning analytics methods. In addition, platforms and tools are being made more user-friendly for those interested in continuing education, and learning experiences and outcomes are being improved.

In interdisciplinary cooperation with the Chair of Psychology of Teaching and Learning at TU Dresden, we will design, develop, and evaluate an intelligent tutoring assistance system (ITS). This system will support learners in simplifying the search for information, visualizing teaching material and learning processes, optimizing problem-solving steps, and deriving recommendations for further learning paths from process analyses.

Principal Investigator

German Research Foundation (DFG)

https://gepris.dfg.de/gepris/projekt/399332937

Principal Investigator

German Federal Ministry of Education and Research (BMBF)

Safety io GmbH, HAW Hamburg

https://i3.realmv6.org

The I3 project will bring information-centric networks to the industrial Internet. Sensors and actors often demand communication requirements in industrial application, both critical for the business and safety. Heterogeneous components – both stationary and mobile – shall be integrated in supra-regional control and monitoring systems and exchange data in a timely and fault tolerant manner. Today’s proprietary and occasionally rudimentary product solutions preclude those requirements. MSA – the leading manufacturer of safety technology and gas detectors worldwide with development site in Berlin, Germany – for example is facing these problems in their product line for sensor controlled fuses and monitoring of industrial systems, oil rigs, fire-brigade operations etc.

The I3 project pursues, motivated by these specific application problems, the goal of the development and testing of mobile local networks critical to safety in industrial applications. Based on the potentials of content-based routing, the I3 solution will modify and extend Content or Information Centric Networking (CCN/ICN) for the needs of the industrial Internet. Especially contributions for security and reliability, for autonomous self-configuration and authentication, for content-base prioritized data differentiation, resource efficiency (e.g. energy, memory) and an abstracted, universal software interface will be adapted. This way I3 wants to increase production efficiency of networking industrial systems as well as simplify the operation of networking components with intelligent solutions on the network layer.

Principal Investigator

German Federal Ministry of Education and Research (BMBF)

https://peeroskop.realmv6.org

The objective of the Peeroskop project is the design and development of a system for the observational analysis of the Internet part's relevant for Germany, as well as the proactive and reactive protection of the backbone routing. Core components of the project are mechanisms for information fusion and information classification based on passive and active measurements which discover vulnerabilities in the Internet peering beforehand and bypass emerging disruptions.

Principal Investigator

German Federal Ministry of Education and Research (BMBF)

Agence nationale de la recherche (ANR)

https://rapstore.riot-apps.net

Principal Investigator

German Federal Ministry of Education and Research (BMBF), Agence nationale de la recherche (ANR)

https://safest.realmv6.org

This Franco-German project aims at a comprehensive solution to ensure the safety and security of the general public and critical infrastructures. Specifically, SAFEST addresses the problems of crowd control and area surveillance at airports. More information is available on the project homepage. The research in SAFEST focuses on

• Development and analysis of an area surveillance system that is easy to deploy, inexpensive, resilient against malfunctions of individual components, and respects the privacy of citizens
• The system will operate in distributed way, collect anonymized data, transfer this data to a central location for evaluation, and – if necessary – alert the operator and/or the general public.
• To ensure the real-world applicability of the project results, we evaluate our system in cooperation with our end user Flughafen Berlin Brandenburg GmbH.

Principal Investigator

German Federal Ministry of Education and Research (BMBF)

https://x-check.realmv6.org

The overall goal of X-Check (Cross-Check) is to provide improved security for ICT-systems by leveraging data from Internet Exchange Points (IXP). X-Check designs and implements a system for the large-scale detection of (a) known security incidents and (b) novel, unconventional anomalies at central Internet nodes.

The three main objectives are as follows:

• Threat analysis for public network access points.
• Scalable real-time analysis of network incidents at IXPs.
• Development of open-source tools for the detection of security incidents.

The X-Check software components will be designed and implemented to detect anomalies with a predictable, low latency. These components will scale dynamically for small as well as very large data sets and thus allow a resource-saving usage. Based on a preventive vulnerability and threat analysis new services for the route server infrastructure will be designed and implemented. Correlating event reports between several IXPs will improve the precision of the incident detection.

X-Check explicitly pursues the community-driven approach. Innovative solutions are developed considering real-world deployment scenarios. The intended objectives will be realized in close cooperation with the largest IXPs in Germany (DE-CIX and BCIX) and a well-established IT-security company (DFN-CERT). The solutions will be tested and refined during inter-regional field tests in Berlin, Frankfurt, Hamburg, and Munich.

Principal Investigator

German Federal Ministry of Education and Research (BMBF)

https://skims.realmv6.org