Abstract
Future electrical power networks will be composed of large collections of autonomous components. Self-organization is an organizational concept that promises robust systems with the ability to adapt themselves to system perturbations and failures and thus may yield highly robust systems with the ability to scale freely to almost any size. In this position paper the authors describe the well-established process of use case based derivation of non-functional requirements in energy systems and propose a mapping strategy for aligning properties of self-organizing systems with the ICT- and automation system requirements. It is the strong belief of the authors that such a mapping will be a key factor in creating acceptance of and establishing self-organization in the domain of electrical energy systems.
This research is partially supported by SOCIONICAL (FP7, ICT-2007-3-231288), by All4Green (FP7, ICT-2011-7-288674) and by the NoE EINS (FP7, ICT-2011-7-288021).
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References
International Electrotechnical Commission (IEC), Publicly available specification (pas) 62559 intelligrid methodology for developing requirements for energy systems (2008)
Rohjans, S., Daenekas, C., Uslar, M.: Requirements for smart grid ict architectures. In: 3rd IEEE PES Innovative Smart Grid Technologies (ISGT) Europe Conference (2012)
European Commission, Smart Grid Mandate - Standardization Mandate to European Standardisation Organisations (ESOs) to support European Smart Grid deployment. M/490 EN (2011)
Bruinenberg, J., Colton, L., Darmois, E., Dorn, J., Doyle, J., Elloumi, O., Englert, H., Forbes, R., Heiles, J., Hermans, P., Kuhnert, J., Rumph, F.J., Uslar, M., Wetterwald, P.: Smart grid coordination group technical report reference architecture for the smart grid version 1.0 (draft) (March 3, 2012). tech. rep. (2012)
ISO/IEC/IEEE, Systems and software engineering – architecture description, ISO/IEC/IEEE 42010:2011(E) (Revision of ISO/IEC 42010:2007 and IEEE Std 1471-2000), vol. 1, pp. 1–46 (2011)
CEN, CENELEC, ETSI, SGCP report on reference architecture for the smart grid v0.5 (for sg-cs sanity check) (January 25, 2012), tech. rep. (2012)
T. G. A. Council, GridWise Interoperability Context- Setting Framework (2008)
Uslar, M., Specht, M., Rohjans, S., Trefke, J., Gonzalez, J.M.: The Common Information Model CIM: IEC 61968/61970 and 62325 P Practical Introduction to the CIM. Springer (2012)
Wegmann, A., Genilloud, G.: The role of ‘roles’ in use case diagrams. EPFL-DSC DSC/2000/024, EPFL-DSC CH-1015 Lausanne (2000)
Auer, C., Wüchner, P., de Meer, H.: The degree of global-state awareness in self-organizing systems. In: Spyropoulos, T., Hummel, K.A. (eds.) IWSOS 2009. LNCS, vol. 5918, pp. 125–136. Springer, Heidelberg (2009)
Holzer, R., de Meer, H., Bettstetter, C.: On autonomy and emergence in self-organizing systems. In: Hummel, K.A., Sterbenz, J.P.G. (eds.) IWSOS 2008. LNCS, vol. 5343, pp. 157–169. Springer, Heidelberg (2008)
Holzer, R., de Meer, H.: Quantitative Modeling of Self-Organizing Properties. In: Spyropoulos, T., Hummel, K.A. (eds.) IWSOS 2009. LNCS, vol. 5918, pp. 149–161. Springer, Heidelberg (2009)
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Lehnhoff, S., Rohjans, S., Holzer, R., Niedermeier, F., de Meer, H. (2014). Mapping of Self-organization Properties and Non-functional Requirements in Smart Grids. In: Elmenreich, W., Dressler, F., Loreto, V. (eds) Self-Organizing Systems. IWSOS 2013. Lecture Notes in Computer Science, vol 8221. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-54140-7_16
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DOI: https://doi.org/10.1007/978-3-642-54140-7_16
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