Title :
The array decomposition-fast multipole method [antenna arrays]
Author :
Kindt, R.W. ; Volakis, J.L.
Author_Institution :
Radiat. Lab., Michigan Univ., Ann Arbor, MI, USA
Abstract :
An innovative approach is presented for analyzing finite arrays of regularly spaced elements. Our approach is based on coupling an array decomposition technique with a multipole expansion for interacting distant elements. This hybrid technique results in Toeplitz storage for both near-zone matrices and far-zone translation operators, with FFT acceleration for the far-zone element interactions. The matrix storage is of the same order as a single array element, regardless of array size, hence removing the matrix storage bottleneck for large arrays. The total storage requirements of this method are only O(N), where N is the length of the solution vector. Hence, fast and rigorous analysis of very large finite arrays can be accomplished with limited resources.
Keywords :
Toeplitz matrices; antenna arrays; antenna theory; boundary integral equations; fast Fourier transforms; finite element analysis; FFT acceleration; Toeplitz storage; array decomposition-fast multipole method; far-zone translation operators; finite arrays; finite element-boundary integral method; interacting distant elements; matrix storage; multipole expansion; near-zone matrices; regularly spaced array elements; wideband tapered-slot antennas; Acceleration; Contracts; Convolution; Fast Fourier transforms; Finite element methods; Integral equations; Lattices; Matrix decomposition; Nearest neighbor searches; Surface treatment;
Conference_Titel :
Antennas and Propagation Society International Symposium, 2003. IEEE
Conference_Location :
Columbus, OH, USA
Print_ISBN :
0-7803-7846-6
DOI :
10.1109/APS.2003.1220106
