The keyword in the actual panorama of large antenna farm and scattering problems modelling is ldquoaccuracyrdquo or, in other words, the concept of ldquohigh fidelity modellingrdquo, the only way to cut development and/or prototyping costs. The integral equation (IE) approach is typically used to manage antenna problems where the accuracy is a basic requirement, through the Method of Moment (IE-MoM) approach. It is well known, however, that standard MoM techniques are severely limited by the required computational efforts and condition numbers involved in the very electrically large and multi-scale problems usually of interest. In this communication the results of the application of Multi- resolution (MR) as physical based pre-conditioner on real-life large and multi-scale geometries in combinations whit MLFMA are presented.
Hybrid MoM approaches for high fidelity and effective modeling in large antenna farm and scattering problems / M. Bercigli; F. Vipiana, P. De Vita; A. Mori; A. Freni; G. Vecchi; R. Guidi; M. Bandinelli. - STAMPA. - 1:(2009), pp. 2132-2135. (Intervento presentato al convegno Antennas and Propagation, 2009. EuCAP 2009. 3rd European Conference on tenutosi a Berlin nel 23-27 March 2009).
Hybrid MoM approaches for high fidelity and effective modeling in large antenna farm and scattering problems
DE VITA, PAOLO;MORI, ALESSANDRO;FRENI, ANGELO;
2009
Abstract
The keyword in the actual panorama of large antenna farm and scattering problems modelling is ldquoaccuracyrdquo or, in other words, the concept of ldquohigh fidelity modellingrdquo, the only way to cut development and/or prototyping costs. The integral equation (IE) approach is typically used to manage antenna problems where the accuracy is a basic requirement, through the Method of Moment (IE-MoM) approach. It is well known, however, that standard MoM techniques are severely limited by the required computational efforts and condition numbers involved in the very electrically large and multi-scale problems usually of interest. In this communication the results of the application of Multi- resolution (MR) as physical based pre-conditioner on real-life large and multi-scale geometries in combinations whit MLFMA are presented.
I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
