A common approach to intelligent energy and mobility services in a smart city environment


Due to the fact that electric vehicles have not broadly entered the vehicle market there are many attempts to convince producers to integrate technologies that utilise embedded batteries for purposes different from driving. The vehicle-to-grid technology, for instance, literally turns electric vehicles into a mobile battery, enabling new areas of applications (e.g. to provide regulatory energy, to do grid-load balancing, or to buffer surpluses of energy) and business perspectives. Utilising a vehicle's battery, however is not without a price - in this case: the driver's mobility. Given this dependency, it is interesting that most available works consider the application of electric vehicles for energy and grid-related problems in isolation, that is, detached from mobility-related issues. The Distributed Artificial Intelligence Laboratory, or DAI-Lab, is a third-party funded research lab at Technische Universitat Berlin and integrates the chair for Agent Technologies in Business Applications and Telecommunication. The DAI-Lab has engaged in a large number of both, past and upcoming projects concerned with two aspects of managing electric vehicles, namely: energy and mobility. This article aims to summarise experiences that were collected during the last years and to present developed solutions which consider energy and mobility-related problems jointly.

  Title                    = {A common approach to intelligent energy and mobility services in a smart city environment},
  Author                   = {Marco L"{u}tzenberger and Nils Masuch and Tobias K"{u}ster and Daniel Freund and Marcus Voss{} and Christopher-Eyk Hrabia and Denis Pozo and Johannes F"{a}hndrich and Frank Trollmann and Jan Keiser and Sahin Albayrak},
  Journal                  = {Journal of Ambient Intelligence and Humanized Computing},
  Year                     = {2015},
  Pages                    = {337--350},
  Number                   = {3},
  Volume                   = {6},

  Doi                      = {10.1007/s12652-015-0263-1},
  ISSN                     = {1868-5137},
  publisher                = {Springer Berlin / Heidelberg}
Marco Lützenberger, Nils Masuch, Tobias Küster, Daniel Freund, Marcus Voß, Christopher-Eyk Hrabia, Francisco Denis Pozo Pardo, Johannes Fähndrich, Frank Trollmann, Jan Keiser, Sahin Albayrak
Journal of Ambient Intelligence and Humanized Computing, 6(3):337-350