Ad-hoc Radio Network for Inter-Vehicle Communications, Platform for inter-vehicle communication, Internet integration, Application demonstrator and testbed, Introduction strategies and standardization

The project is part of the Fraunhofer MAVO (“Marktorientierte Strategische Vorlaufforschung”, German for: “Market Oriented Strategic Advanced Research”) Initiative and is considered of top strategic relevance in the scope of wireless communication for the Industry 4.0.

The FLEXCARE project adds significant value to the EU FP7 FLEX project, by providing highly relevant new capabilities to experimenters in the field of LTE research and beyond (5G). 

The aim of FLEXCoop is to introduce a fully automated demand response framework and a tool environment for private electricity generators and consumers.

The aim of FLEXCoop is to introduce a fully automated demand response framework and a tool environment for private electricity generators and consumers.

Before a vehicle can travel automatically, it must be able to “see” and recognize objects autonomously. The Fraunhofer lidar labeling tool, called “FLLT.AI”, supports AI developers, labeling experts and software developers of automotive manufacturers and their suppliers as well as sensor manufacturers in analyzing and annotating image data from cameras and lidar sensors.

The goal of the ForAn project is to increase the participation of German utilizers in projects of the European security research program. To this end, the Fraunhofer Institute FOKUS is expanding the TopicMatcher, the research portal for European research projects, developed in the fit4sec and BERKoS projects, and adapting it for the goals of the ForAn project.

The FORTIKA project contributes to reducing the overall risk of cyber-crime against SMEs. They shall be able to react appropriately to attacks and incidents without having to invest a lot of resources themselves to secure their systems against external attacks. FORTIKA therefore follows a security by design hybrid approach, which provides protection based on hardware and software at the same time.

Within the framework of the Fraunhofer Academy, the business unit ESPRI – collaborative safety and security developed training courses for specialists and users in the CyberSecurity learning laboratory with the University of Applied Sciences Berlin (HTW Berlin). The Cyber Security Learning Lab of the Fraunhofer Academy is a cooperation between Fraunhofer and selected universities of applied sciences.

The project FunctionalDMU offers an interdisciplinary approach to the functional development of mechatronic systems. Its main thrust lies in the way it extends 3D-construction prototyping (DMU) to cover behavior models which can exist in various modeling languages for a variety of simulators.

Advanced ICT platforms (including Cloud, M2M, SDN, NFV and Mobile Broadband), tools and cutting edge expertise for testing, monitoring, test control, remote usage and federation with external testbeds.

The Future Home project aims to create a solid, secure, user friendly home networking concept based on wireless networking technologies.