This is interesting in many radar applications. This enables the simulation of an arbitrarily polarized wave incident, or an incident from different directions. Their properties can be set by means of an excitation list. Importing more than one farfield enables the computation of the coupling between several antennas, or of the total farfield including all antennas.įor scattering simulations, many excitation sources can be run in parallel. This makes the calculation of an installed antenna's farfield possible, even for an electrically very large structure such as a ship. These farfields can be computed by other CST MWS solvers including the transient and frequency domain solvers. The asymptotic solver can now use farfields as excitation sources. With the latest CST STUDIO SUITE 2010 service pack, significant functional enhancements have been made available to our customers. This solver is based on the shooting bouncing ray method. Computer Simulation Technology (CST) presents substantial improvements to the CST MICROWAVE STUDIO (CST MWS) Asymptotic Solver at MTT-S IMS 2010.Įngineers simulating electrically large structures, either for radar cross section analysis or for antenna placement studies, benefitted from the introduction of an asymptotic solver in CST MICROWAVE STUDIO version 2010.
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