Fabian Kern (M.Sc.)
Abteilungsleiter
Werdegang
Fabian Kern studierte Informationswirtschaft am Karlsruher Institut für Technologie (KIT) und schloss sein Masterstudium im Jahr 2013 ab. Er legte seine Schwerpunkte sowohl auf die Entwicklung von sicheren und komponentenbasierten Software-Systemen, als auch auf die Gestaltung von elektronischen Märkten. Im Rahmen seiner Masterarbeit "Wechselrichter-Kommunikation und Solarleistungsprognose" wurden Verfahren zur lokalen und individuellen Erzeugungsprognose von Photovoltaikanlagen entwickelt, implementiert und evaluiert.
Als wissenschaftliche Hilfskraft am Institut für Angewandte Informatik und Formale Beschreibungsverfahren (AIFB) am KIT war Fabian Kern für die Entwicklung und Implementierung von nuKIT zuständig.
Seit Oktober 2018 leitet Fabian Kern die Abteilung Intelligente Infomation und Kommunikation in technischen System (IIK). Zuvor arbeitete er bereits seit 2013 als wissenschaftlicher Mitarbeiter am FZI Forschungszentrum Informatik im Forschungsbereich Intelligent Systems and Production Engineering (ISPE), wo er sich mit Energiemanagementsystemen für intelligente Gebäude sowie der intelligenten Ladesteuerung im Bereich der Elektromobilität beschäftigt.
Publikationen
Konferenzbeitrag (2)
- Building Energy Management in the FZI House of Living LabsInfoDetails
Birger Becker, Fabian Kern, Manuel Lösch, Ingo Mauser and Hartmut Schmeck, Springer, 2015
The FZI House of Living Labs is a research and demonstration environment that facilitates interdisciplinary research, development, and evaluation in real-life scenarios. It consists of various Living Labs addressing different research topics. In the Living Lab smartEnergy, solutions for the energy system of the future are investigated. For this reason, the whole FZI House of Living Labs has been equipped with building automation, distributed generation, thermal and electrical storage, and technologies that enable the flexibilization of energy supply and demand. The equipment, among others, includes a photovoltaic and battery storage system, a micro combined heat and power plant, and an adsorption chiller. A building energy management system was developed that integrates various communication technologies, and hence enables monitoring, data recording, visualization, and the integrated optimization of the devices and systems. This way, flexibilities can be utilized with regard to different optimization goals such as an increased selfconsumption, or the provisioning of grid-supporting services.
- nuKIT – an Interactive Communication Tool via Smartphone TechnologiesInfoDetails
Friederike Pfeiffer-Bohnen, Fabian Kern, Lukas König and Hartmut Schmeck, AACE, 2013
The number of internet-ready mobile devices is steadily increasing. Today these devices are particularly well accepted among young people who build the main part of the audience in universitary courses. Using smart devices offers a great possibility to increase student-teacher interactions. In this paper, we present an e-learning tool called nuKIT (networked university KIT) which provides interfaces to smartphones and the web for establishing several types of interactions between a lecturer and the students. The tool offers students the possibility to give feedback regarding the presentation speed and to ask questions. As well, the lecturer can pose questions to the students. nuKIT is a lightweight tool which is particularly well-suited for use in academic courses, but also in related scenarios. We illustrate the technological background of nuKIT, give implementation and usage recommendations and present an evaluation of the tool originating from data collected in three courses at KIT.
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Kontakt
Telefon: +49 721 9654-566
E-Mail: kern@ fzi.de- Building Energy Management in the FZI House of Living LabsInfoDetails