Design of Experiments for Factor Hierarchization in Complex Structure Modelling

Main Article Content

C. Kasmi
M. Hélier
M. Darces
E. Prouff

Abstract

Modelling the power-grid network is of fundamental interest to analyse the conducted propagation of unintentional and intentional electromagnetic interferences. The propagation is indeed highly influenced by the channel behaviour. In this paper, we investigate the effects of appliances and the position of cables in a low voltage network. First, the power-grid architecture is described. Then, the principle of Experimental Design is recalled. Next, the methodology is applied to power-grid modelling. Finally, we propose an analysis of the statistical moments of the experimental design results. Several outcomes are provided to describe the effects induced by parameter variability on the conducted propagation of spurious compromising emanations.

Downloads

Download data is not yet available.

Article Details

How to Cite
Kasmi, C., Hélier, M., Darces, M., & Prouff, E. (2013). Design of Experiments for Factor Hierarchization in Complex Structure Modelling. Advanced Electromagnetics, 2(1), 59–64. https://doi.org/10.7716/aem.v2i1.136
Section
Research Articles
Author Biography

C. Kasmi, Wireless Security Lab. of the French Network and Information Security Agency UPMC, Univ Paris 6 L2E

Information security expert, Wireless Security Lab. of the French Network and Information Security Agency

Phd Candidate at UPMC, Univ Paris 6, L2E

References

G. H. Baker and C. J. Elliott, "Cascading Infrastructure Failures, Avoidance and Response", Harrisonburg, VA Institute for Infrastructure and Information Assurance", James Madison University, 2008.

R. L. Gardner and D. C. Stoudt, "Extension of the hybrid modeling technique to the susceptibility of complex infrastructure circuits and systems", Electromagnetics in Advanced Applications (ICEAA), 2011 International Conference on, vol., no., pp.773,776, 12-16 Sept. 2011.

D. Mansson, R. Thottappillil, and M. Backstrom, "Propagation of UWB Transients in Low-Voltage Power Installation Networks," Electromagnetic Compatibility, IEEE Transactions on, vol. 50, pp. 619-629, 2008.

View Article

D. Mansson, T. Nilsson, R. Thottappillil, and M. Backstrom, "Propagation of UWB Transients in Low-Voltage Installation Power Cables," Electromagnetic Compatibility, IEEE Transactions on, vol. 49, pp. 585-592, 2007.

View Article

F. Rachidi, C.A. Nucci, M. Ianoz and C. Mazzetti, "Response of multiconductor power lines to nearby lightning return stroke electromagnetic fields", IEEE Transactions on Power Delivery, Vol. 12, pp. 1404-1411, 1997.

View Article

F. M. Tesche, M. V. Ianoz and T. Karlsson, "EMC Analysis Methods and Computational Models", Wiley, New York, 1999. C. Kasmi, M. Hélier and M. Darces, "Statistical analysis of a spurious signal level in a low voltage PLC network", EMC Symposium 2012, Rome, 2012.

D. V. Giri and F. M. Tesche, "Classification of Intentional Electromagnetics Environments (IEME)", IEEE Transactions on Electromagnetic Compatibility, Vol. 4, pp. 322-328, August 2004.

View Article

F. Sabath, "Threat of Electromagnetic Terrorism: lessons learned from documented IEMI Attacks", EUROEM 2012, Toulouse, France, July 2012.

M. Vuagnoux, "An improved technique to discover compromising electromagnetic emanations", EMC symposium, Fort Lauderdale, USA, August 2010.

D. C. Montgomery, Design and Analysis of Experiments, ISBN-13 978-1118146927, Wiley, 2012.

C.R. Paul, "Analysis of Multiconductor Transmission Lines", John Wiley & Sons, New-York, 1994.

J-P. Parmantier and S. Bertuol, "CRIPTE Training and Electromagnetic coupling on cable networks", ONERA, Toulouse, France, 2011.

J-P. Parmantier, P. Degauque, "Topology Based Modeling of Very Large Systems". Modern Radio Science 1996, pp. 151-177, edited by Hamelin. Oxford University Press.

C. J. Kim and M. Chouika, "Attenuation Characteristics of High Rate Home-Networking PLC Signals", Transaction on power delivery, Vol. 17, NO. 4, October 2002.

D. Hirata, Y. Akiyama, H. Yamane, "Influence of Appliance State on Transmission Characteristics of Indoor AC Main Lines in Frequency Range Used Power Line Communication", 2005.

C. Kasmi, M. Hélier, M. Darces, "HF impedance measurement of electronic devices using a de-embedding technique", in Proc. of EUROEM Conf., Toulouse, July 2012.

J.-P. Parmantier, "An efficient technique to calculate ideal junction scattering parameters in multiconductor transmission line networks", Note 536, February 24, 1998.

R. A.Fisher, "The Design of Experiments", 9th edition, Macmillan. ISBN 0-02-844690-9, 1971.