The smart grid is concerned with energy efficiency and with the environment, being a countermeasure against the territory devastations that may originate by the fossil fuel mining industry feeding the conventional power grids. This paper deals with the integration between the electromobility and the urban power distribution network in a smart grid framework, i.e., a multi-stakeholder and multi-Internet ecosystem (Internet of Information, Internet of Energy, and Internet of Things) with edge computing capabilities supported by cloud-level services and with clean mapping between the logical and physical entities involved and their stakeholders. In particular, this paper presents some of the results obtained by us in several European projects that refer to the development of a traffic and power network co-simulation tool for electro mobility planning, platforms for recharging services, and communication and service management architectures supporting interoperability and other qualities required for the implementation of the smart grid framework. For each contribution, this paper describes the inter-disciplinary characteristics of the proposed approaches.

D'Elia, A., Viola, F., Montori, F., Di Felice, M., Bedogni, L., Bononi, L., et al. (2015). Impact of Interdisciplinary Research on Planning, Running, and Managing Electromobility as a Smart Grid Extension. IEEE ACCESS, 3, 2281-2305 [10.1109/ACCESS.2015.2499118].

Impact of Interdisciplinary Research on Planning, Running, and Managing Electromobility as a Smart Grid Extension

D'ELIA, ALFREDO
;
VIOLA, FABIO;MONTORI, FEDERICO;DI FELICE, MARCO;BEDOGNI, LUCA;BONONI, LUCIANO;BORGHETTI, ALBERTO;BELLAVISTA, PAOLO;TARCHI, DANIELE;SALMON CINOTTI, TULLIO
2015

Abstract

The smart grid is concerned with energy efficiency and with the environment, being a countermeasure against the territory devastations that may originate by the fossil fuel mining industry feeding the conventional power grids. This paper deals with the integration between the electromobility and the urban power distribution network in a smart grid framework, i.e., a multi-stakeholder and multi-Internet ecosystem (Internet of Information, Internet of Energy, and Internet of Things) with edge computing capabilities supported by cloud-level services and with clean mapping between the logical and physical entities involved and their stakeholders. In particular, this paper presents some of the results obtained by us in several European projects that refer to the development of a traffic and power network co-simulation tool for electro mobility planning, platforms for recharging services, and communication and service management architectures supporting interoperability and other qualities required for the implementation of the smart grid framework. For each contribution, this paper describes the inter-disciplinary characteristics of the proposed approaches.
2015
D'Elia, A., Viola, F., Montori, F., Di Felice, M., Bedogni, L., Bononi, L., et al. (2015). Impact of Interdisciplinary Research on Planning, Running, and Managing Electromobility as a Smart Grid Extension. IEEE ACCESS, 3, 2281-2305 [10.1109/ACCESS.2015.2499118].
D'Elia, Alfredo; Viola, Fabio; Montori, Federico; Di Felice, Marco; Bedogni, Luca; Bononi, Luciano; Borghetti, Alberto; Azzoni, Paolo; Bellavista, Pao...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/520443
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