Designing dependable and sustainable Smart Grids: How to apply Algorithm Engineering to distributed control in power systems. Nieße, A., Tröschel, M., & Sonnenschein, M. In Hilty, L. M., Aebischer, B., & Rizzoli, A. E., editors, Thematic issue on Modelling and evaluating the sustainability of smart solutions, pages 37–51, 2014.
Designing dependable and sustainable Smart Grids: How to apply Algorithm Engineering to distributed control in power systems [link]Paper  abstract   bibtex   
In this work, we present the Smart Grid Algorithm Engineering (SGAE) process model for application-oriented research and development in information and communication technology (ICT) for power systems. The SGAE process model is motivated by the main objective of contributing application-oriented research results for distributed control concepts on a sound methodological background. With this process model, we strive for an engineering aspiration within the domain of Smart Grids. The process model is set up with an initial conceptualisation phase followed by an iterable cycle of five phases with both analytical and experimental parts, giving detailed information on inputs and results for each phase and identifying the needed actors for each phase. Simulation of large-scale Smart Grid scenarios is a core component of SGAE. We therefore elaborate on tooling and techniques needed in that context and illustrate the whole process model using an application example from a finished research and development project.
@inproceedings{Niee.2014,
 abstract = {In this work, we present the Smart Grid Algorithm Engineering (SGAE) process model for application-oriented research and development in information and communication technology (ICT) for power systems. The SGAE process model is motivated by the main objective of contributing application-oriented research results for distributed control concepts on a sound methodological background. With this process model, we strive for an engineering aspiration within the domain of Smart Grids. The process model is set up with an initial conceptualisation phase followed by an iterable cycle of five phases with both analytical and experimental parts, giving detailed information on inputs and results for each phase and identifying the needed actors for each phase. Simulation of large-scale Smart Grid scenarios is a core component of SGAE. We therefore elaborate on tooling and techniques needed in that context and illustrate the whole process model using an application example from a finished research and development project.},
 author = {Nie{\ss}e, Astrid and Tr{\"o}schel, Martin and Sonnenschein, Michael},
 title = {Designing dependable and sustainable Smart Grids: How to apply Algorithm Engineering to distributed control in power systems},
 url = {http://dx.doi.org/10.1016/j.envsoft.2013.12.003},
 keywords = {Distributed algorithms;Information technology;Process model;Scenario design;smart grid;Smart grid simulation},
 pages = {37--51},
 isbn = {1364-8152},
 editor = {Hilty, Lorenz M. and Aebischer, Bernard and Rizzoli, Andrea E.},
 booktitle = {Thematic issue on Modelling and evaluating the sustainability of smart solutions},
 year = {2014},
 file = {Nie{\ss}e, Tr{\"o}schel, Sonnenschein - 2013 - Designing Dependable and Sustainable Smart Grids - How to Apply Algorithm Engineering to Distribu:Attachments/Nie{\ss}e, Tr{\"o}schel, Sonnenschein - 2013 - Designing Dependable and Sustainable Smart Grids - How to Apply Algorithm Engineering to Distribu.pdf:application/pdf}
}
Downloads: 0
About
Documentation
Keywords
Search
Users
Terms and Conditions of Use
Privacy Policy
Sitemap
© BibBase.org 2021