Probabilistic response of a transmission line in a dissipative medium excited by an oblique plane wave - Abstract

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dc.contributor.author Trakadas, PT en
dc.contributor.author Papakanellos, PJ en
dc.contributor.author Capsalis, CN en
dc.date.accessioned 2014-03-01T11:44:29Z
dc.date.available 2014-03-01T11:44:29Z
dc.date.issued 2001 en
dc.identifier.issn 0920-5071 en
dc.identifier.uri https://dspace.lib.ntua.gr/xmlui/handle/123456789/36972
dc.subject Cumulative Distribution Function en
dc.subject Electric Field en
dc.subject Goodness of Fit Test en
dc.subject Plane Waves en
dc.subject Probability Density Function en
dc.subject Statistical Model en
dc.subject Transmission Line en
dc.subject.classification Engineering, Electrical & Electronic en
dc.subject.classification Physics, Applied en
dc.subject.classification Physics, Mathematical en
dc.subject.other Electric fields en
dc.subject.other Electromagnetic fields en
dc.subject.other Electromagnetic wave polarization en
dc.subject.other Electromagnetic waves en
dc.subject.other Mathematical models en
dc.subject.other Probability density function en
dc.subject.other Statistical methods en
dc.subject.other Plane waves en
dc.subject.other Electric lines en
dc.title Probabilistic response of a transmission line in a dissipative medium excited by an oblique plane wave - Abstract en
heal.type other en
heal.identifier.primary 10.1163/156939301X00292 en
heal.identifier.secondary http://dx.doi.org/10.1163/156939301X00292 en
heal.language English en
heal.publicationDate 2001 en
heal.abstract In this paper a statistical model of the excitation of a conjugate-matched two-wire transmission line in a lossy half space by an electromagnetic (EM) wave is developed. The EM field, radiating in the air, is obliquely incident to the interface defined by the lossy medium and air. Three different orientations of the transmission line for horizontal and vertical polarization of the EM field are examined. The objective is to derive analytic formulas for the probability density function (pdf) and cumulative distribution function (cdf) of the induced near-end and far-end voltage magnitudes in each case, taking into consideration the statistical behavior of the amplitude of the incident electric field vector and the angle of incidence as well. Consequently, the mean values as well as the typical deviation values are presented and the contribution of each one of the parameters is discussed in detail. Finally, a chi-square goodness-of-fit test is applied in order to fit the distribution of the induced voltage w ith one of the known distributions. en
heal.publisher VSP BV en
heal.journalName Journal of Electromagnetic Waves and Applications en
dc.identifier.doi 10.1163/156939301X00292 en
dc.identifier.isi ISI:000169836200004 en
dc.identifier.volume 15 en
dc.identifier.issue 5 en
dc.identifier.spage 625 en
dc.identifier.epage 626 en

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