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Titolo: Electromagnetic fields and its error distribution predicted from magnetic field measured around metallic enclosure by using inverseforward analysis
Autore: Hayashi, S; Masuda, K; Hatakeyama, K; Shu, E;
 Indirizzi:
 NEC INformatec Syst Ltd, Dept Sci & Engn Anal Dept, Kawasaki, Kanagawa 2130012, Japan NEC INformatec Syst Ltd Kawasaki Kanagawa Japan 2130012 wa 2130012, Japan NEC Corp Ltd, EMC Engn Ctr, REsources & Environm Protect Res Labs, Kawasaki, Kanagawa 2160033, Japan NEC Corp Ltd Kawasaki Kanagawa Japan 2160033 aki, Kanagawa 2160033, Japan NEC Corp Ltd, Div Workstn & Serv, Fuchu, Tokyo 1830036, Japan NEC Corp Ltd Fuchu Tokyo Japan 1830036 Serv, Fuchu, Tokyo 1830036, Japan Sci Univ Tokyo, Fac Sci & Technol, Dept Elect Engn, Noda, Chiba 2788510, Japan Sci Univ Tokyo Noda Chiba Japan 2788510 Engn, Noda, Chiba 2788510, Japan
 Titolo Testata:
 ELECTRONICS AND COMMUNICATIONS IN JAPAN PART IIELECTRONICS
fascicolo: 3,
volume: 83,
anno: 2000,
pagine: 39  52
 SICI:
 8756663X(2000)83:3<39:EFAIED>2.0.ZU;2T
 Fonte:
 ISI
 Lingua:
 ENG
 Keywords:
 electromagnetic environment; inverse analysis; shielding;
 Tipo documento:
 Article
 Natura:
 Periodico
 Settore Disciplinare:
 Engineering, Computing & Technology
 discip_EC
 Citazioni:
 18
 Recensione:
 Indirizzi per estratti:
 Indirizzo: Hayashi, S NEC INformatec Syst Ltd, Dept Sci & Engn Anal Dept, Kawasaki, Kanagawa 2130012, Japan NEC INformatec Syst Ltd Kawasaki Kanagawa Japan 2130012 Japan



 Citazione:
 S. Hayashi et al., "Electromagnetic fields and its error distribution predicted from magnetic field measured around metallic enclosure by using inverseforward analysis", ELEC C JP 2, 83(3), 2000, pp. 3952
Abstract
Let us consider the situation in which an electromagnetic wave is leaking through an aperture on a metallic box so that an electromagnetic field distribution is formed outside the box. By measuring the magnetic field distribution on the surface S1 near the box surface, the current distribution on the metallic box surface can be estimated (inverse analysis). Next, the electromagnetic field distribution on an arbitrary surface S2 outside the boxcan be predicted from the product of the above current distribution and a coefficient matrix (forward analysis). In this paper, the greatest likelihood estimation method is used for the inverse analysis. When the electromagnetic field distributions on surface S2 are predicted from the nearby magnetic field distribution by the inverseforward analysis, there appear prediction error distributions that depend on the setting of the lattice meshes on surface S1, the box surface, and surface S2 in addition to the measurement errors. In this paper, the prediction error distributions dependent on the setting are obtained. In order to discuss the effectiveness of the above inverseforward analysis, the magnetic field distribution on surface S1 where the measurement was carried out is derived by forward analysis from the current distribution on the box as a special case. The results are compared with the measured values. The comparison reveals good agreement. In order to consider the maximum electromagnetic interference level to obtain themaximum possible measurement error distribution, the distributions where all measurement points have the same value are assumed and the prediction error distributions are computed. Based on this assumption, the measurement error distribution is expressed in terms of the product of the unit matrix with the constant sigma(0), indicating the standard deviation of the measured error distribution (measurement error matrix). Then, the predicted error distribution of the electric field obtained by inverseforward analysis is determined by the constant sigma(0) and the setting of the lattice meshes on surface S1, the box surface, and surface S2. Hence, if the maximum possible measurement error is assumed, the electromagnetic field distributions on an arbitrary surface can be computed with the associated prediction error. When some measure to reduce the leakage from a metal box is applied and its effect is studied, the prediction error distributions appear equally ifthe same lattice meshes as above are used in the measurement and calculations before and after such a provision is applied, and hence the effect of the errorreduction measure can be evaluated only from the electromagnetic distributions on the prediction surface S2. A model wave source simulating a metal box for electronic equipment with leakage was fabricated in an experiment. The magnetic field distribution near the model source was measured and the electromagnetic field distribution and its error distribution were predicted on a circular cylinder with a radius of 3.0 m. (C) 2000 Scripta Technica, Electron Comm Jpn Pt 2, 83(3): 3952, 2000.
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Documento generato il 30/11/20 alle ore 16:28:33