Title :
Large Planar Array Thinning Using Iterative FFT Techniques
Author :
Keizer, Will P M N
Author_Institution :
TNO Phys. & Electron. Lab., The Hague, Netherlands
Abstract :
A new approach for the synthesis of thinned periodic planar arrays featuring a minimum sidelobe level is presented. The method is based on the iterative Fourier technique to derive the array element excitations from the prescribed array factor using successive forward and backward Fourier transforms. Array thinning is accomplished by setting the amplitudes of a predetermined number of largest element excitations to unity and the others to zero during each iteration cycle. Basically it is the same method successfully applied earlier to the thinning of periodic linear arrays. The effectiveness of the iterative Fourier technique for thinning periodic planar arrays will be demonstrated for a number of large arrays (> 1500 element positions) with a circular aperture using various degree of thinning.
Keywords :
antenna radiation patterns; fast Fourier transforms; iterative methods; linear antenna arrays; planar antenna arrays; fast Fourier transform; iterative FFT technique; minimum sidelobe level; periodic linear array thinning; periodic planar array thinning; successive backward Fourier transform; successive forward Fourier transform; Antenna arrays; Apertures; Costs; Fast Fourier transforms; Fourier transforms; Iterative methods; Lighting; Linear antenna arrays; Planar arrays; Turning; Array antennas; fast Fourier transform (FFT); sidelobe control;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2009.2029382
