Due to the high cost of experimental EMI measurements significant attention has been focused on numerical simulation. Classical methods such as Method of Moment or Finite Difference Time Domain are not well suited for this type of problem, as they require a fine discretisation of space and failed to take into account uncertainties. In this paper, the authors show that the Statistical Energy Analysis is well suited for this type of application. The SEA is a statistical approach employed to solve high frequency problems of electromagnetically reverberant cavities at a reduced computational cost. The key aspects of this approach are (i) to consider an ensemble of system that share the same gross parameter, and (ii) to avoid solving Maxwell's equations inside the cavity, using the power balance principle. The output is an estimate of the field magnitude distribution in each cavity. The method is applied on a typical aircraft structure.
Prediction of the electromagnetic field distribution in a typical aircraft using the statistical energy analysis
2016-05-01
304992 byte
Conference paper
Electronic Resource
English
TBL Modeling for Aircraft Interior Noise Prediction Using Statistical Energy Analysis
SAE Technical Papers | 2013
|Engineering Index Backfile | 1942
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NTIS | 1999
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