Title :
Neuronal architecture for waveguide inductive iris bandpass filter optimization
Author :
Mediavilla, A. ; Tazón, A. ; Pereda, J.A. ; Lázaro, M. ; Santamaría, I. ; Pantaleon, C.
Author_Institution :
Cantabria Univ., Santander, Spain
Abstract :
We present a simple and very accurate neuronal architecture approach matching, in a wide range of iris aperture, thickness and frequency, the numerical results obtained by using a precise high frequency electromagnetic simulator for symmetrical inductive irises in rectangular waveguide. For this purpose, a smoothed piecewise linear model has been chosen because this approach permits smooth transitions between linear regions through the use of logarithm of hyperbolic cosine functions, well suited for the frequency behavior of these inductive irises and circuit optimization. The model has been easily implemented into MMICAD(R), by using their MDL capability. Comparisons for high order high frequency waveguide filters for satellite applications has been made, showing an excellent agreement with full 3D electromagnetic HP-HFSS(R) simulations
Keywords :
band-pass filters; electronic engineering computing; microwave filters; neural net architecture; optimisation; simulation; waveguide filters; 3D electromagnetic simulations; hyperbolic cosine functions; inductive iris bandpass filter; iris aperture; neuronal architecture; optimization; rectangular waveguide; waveguide filters; Apertures; Band pass filters; Circuit simulation; Electromagnetic induction; Electromagnetic scattering; Electromagnetic waveguides; Frequency; Iris; Rectangular waveguides; Waveguide discontinuities;
Conference_Titel :
Neural Networks, 2000. IJCNN 2000, Proceedings of the IEEE-INNS-ENNS International Joint Conference on
Conference_Location :
Como
Print_ISBN :
0-7695-0619-4
DOI :
10.1109/IJCNN.2000.860804
