Modelling and RCS analysis of curved electrically large structures with Frequency Selective Surfaces

## Abstract The hybrid volume‐surface integral equation approach is proposed to analyze the transmission and reflection characteristics of finite and curved frequency‐selective surfaces structures. The surface current and electric flux density are expanded by surface RWG and volume SWG basis functi

## Abstract In practical applications, frequency‐selective surfaces (FSSs) are finite, and sometimes even curved. In this paper, we present a hybrid volume‐surface integral‐equation approach to analyze the transmission and reflection characteristics of finite and curved FFS structures. The hybrid i

## Abstract In this paper an efficient means to control the reflection and transmission characteristics of wire‐based frequency‐selective surfaces (FSS) using linear‐lumped impedance loading is presented. We show that by varying the topology of the RLC loading circuits and the component values it i

This paper presents a novel method for the analysis of large classes of microwave and mm-wave passive components, including in-line waveguide filters, single-and multi-layer frequency selective surfaces, and open-ended waveguide array antennas. This method is based on the segmentation technique, whi