To content
Fakultät für Elektrotechnik und Informationstechnik

International Best Paper Awards / Competitions / Presentations:

S. Gröning, J. Schmutzler, C. Wietfeld, Conformance Testing of Electric Vehicle Charging Communication based on TTCN-3, Best Presentation Award (selected by audience) at UCAAT User Conference on Advanced Automated Testing, ETSI, Berlin, Germany, October

-
in
  • Best Paper Awards
Best presentation award trophy © CNI
Abstract - Electric Vehicles (EVs) are a key component for green transportation and future smart grids. At the same time, they define a new, scalable but heterogeneous global market. Hence, interoperability of charging communication is a core enabler for user acceptance and economics of scale. However, its complexity increases by the number of use cases, e.g. for association, authentication and accounting used for Plug and Charge (PnC), demand management or bidirectional power flow. Thus, a considerable amount of testing is required in order to enable interoperability between independent implementations. EV charging communication brings together cross-domain vendors from the automotive-, utility- and communication domain. However, only a standardized approach based on a publicly available and formally defined testing language like TTCN-3 holds true for the required testing scope of the charging communication interface and a systematic approach for corresponding automated test procedures. The presentation gives an overview of requirement-based conformance testing of the Combined Charging System (CCS) using TTCN-3 and describes furthermore lessons learned using TTCN-3 as a formal test case description in a multi-domain standardization process and how automated testing based on TTCN-3 can improve interoperability of electric vehicle charging communication.

Awards by Informationstechnische Gesellschaft (ITG) in the VDE

VDE Logo © VDE

2016 - Advancement Award Dr.-Ing. Christoph Ide

Dr.-Ing. Christoph Ide, former head of the research groups of the CNI and Alumni of SFB 876, received one of the prestigious junior awards by the Informationstechnische Gesellschaft (ITG) in the VDE for his thesis "Resource-Efficient LTE Machine-Type Communication in Vehicular Environments" in November 2016. The nationally fiercely contested award was handed over at a solemn celebration at the Berlin-Brandenburgische Akademie der Wissenschaften in Berlin on November 29, 2016. The research results of the DFG Sonderforschungsbereich SFB 876 "Datenanalyse unter Ressourcenbeschränkungen" are an excellent contribution to the development of future mobile radio-based traffic systems, which will support growing automation of the reliable, simultaneous and efficient communication between the single system components. This research also makes a valuable contribution to future 5G networks, especially in terms of the Internet of Things.

2013 ITG Awards 2013 for Dr.-Ing. Niklas Goddemeier, Dr.-Ing. Kai Daniel and Prof. Dr.-Ing. Christian Wietfeld

For their research in the field of networked robotic systems, Dr.-Ing. Niklas Goddemeier, Dr.-Ing. Kai Daniel and Prof. Dr.-Ing. Christian Wietfeld received the coveted ITG Awards 2013 by the Informationstechnische Gesellschaft in the VDE at Berlin-Brandenburgische Akademie der Wissenschaften in Berlin on November 12, 2013.

The ITG Award is being advertised annually and awarded for outstanding publications, in this case for an article in the internationally well-known IEEE Journal on Selected Areas of Communications.

Role-Based Connectivity Management with Realistic Air-to-Ground Channels for Cooperative UAVs: Ad-hoc aerial sensor networks leveraging MUAVs (Micro Unmanned Aerial Vehicles) are ideally suited to cost-efficiently explore unknown or hostile environments for example in case of incidents producing harmful gases or radiation. In this manuscript we present results on the investigations of communication-aware steering algorithms for cooperative MUAV swarms. The mission objective is to achieve a maximum spatial exploration efficiency with the simultaneous ability to self-optimize the communication links by exploiting controlled mobility. While our previous work has mainly considered the performance of the Air-to-Air mesh network, in this paper we focus on the Air-to-Ground-link connectivity control. To achieve appropriate communication links to a central sensor data sink even while exploring larger search areas, an agent-based role management strategy is used to provide suitable multi-hop connectivity. The novel algorithms are investigated for static as well as dynamically changing environments. Key results include a detailed realistic aerial channel characterization and network dimensioning analysis considering numbers of MUAVs and density of ground stations vs. exploration speed and sensor data latency.

2014 VDE-Award for Master Graduate - M.Sc. David Öhmann

Once a year, the VDE Rhein-Ruhr e.V. awards junior engineers for excellent bachelor's and master's degrees. Also this year,  the organization honored excellent degrees and continued its active dedication to young engineers. The solemn ceremony took place at the trade fair "E-world" in Essen on February 12, 2014, for the first time. For TU Dortmund, David Öhmann, whose master thesis "Kooperatives Verbindungsmanagement von heterogenen Funkzugangssystemen im Automobilumfeld" was supervised by the CNI and collaborated with BMW in Munich, has been awarded.

 

Other Awards