Brüns, Heinz-DietrichHeinz-DietrichBrünsVogt, AlexanderAlexanderVogtFindeklee, ChristianChristianFindekleeSchröder, ArneArneSchröderMagdowski, MathiasMathiasMagdowskiRobinson, MartinMartinRobinsonHeidler, FridolinFridolinHeidlerSchuster, ChristianChristianSchuster2019-10-082019-10-082017-11-02IEEE Electromagnetic Compatibility Magazine 3 (6): 8093837 45-54 (2017)http://hdl.handle.net/11420/3512A variety of numerical techniques is used in electromagnetic compatibility (EMC) for the numerical analysis of practical problems. The most important are the finite-difference timedomain technique, the finite-element method, the transmissionline-matrix method and the method of moments. All approaches have their strengths and weaknesses and cannot be applied to all kinds of problems with the same degree of efficiency, measured in memory consumption and computation time necessary. In this paper, it is shown that the method of moments (MoM) can be applied to a variety of scenarios, each of which would form a challenging problem to all of the mentioned numerical techniques. It is shown that a customization of the MoM to the specific problems at hand can be accomplished. All examples shown have been computed using the academic code CONCEPT-II developed at Hamburg University of Technology (TUHH).en2162-2264201734554IEEEbroadband antenna optimizationH-matriceslightningmagnetic resonance imaging (MRI)Method of momentsnumerical modelingradar cross section (RCS)reverberation chamberstochastic electromagnetic fieldsTechnikJournal Article10.1109/MEMC.0.8093837Other