Title :
Numerical method for solving of synthesis problems of radiating systems on a prescribed power directivity pattern
Author_Institution :
Pidstryhach Inst. of Appl. Problems of Mech. & Math., NASU, Lviv, Ukraine
Abstract :
A numerical solution method is presented for nonlinear problems in radiator synthesis, based on a prescribed power directivity pattern (DP). A variational problem is considered in which both mean square deviation between the prescribed and synthesized DPs and constraints imposed on the norm of excitation sources are taken into account. An existence theorem is proved for quasi-solutions, and the corresponding Euler-Lagrange equation is derived to determine them. Convergence criteria are found, and the convergence of the iterative processes employed in computing the problem is proved. For a linear radiator, the theory of branching of solutions to nonlinear equations is invoked to determine the general solution structure used in the numerical analysis of the problem.
Keywords :
antenna radiation patterns; antenna theory; convergence of numerical methods; directive antennas; inverse problems; iterative methods; linear antennas; nonlinear equations; Euler-Lagrange equation; antenna theory; convergence criteria; excitation source norm; existence theorem; inverse problems; iterative processes; linear radiator; mean square deviation; nonlinear problems; numerical solution method; power directivity pattern; radiating system synthesis problems; variational problem; Antenna arrays; Artificial intelligence; Bifurcation; Electromagnetic scattering; Inverse problems; Lagrangian functions; Mathematics; Nonlinear equations; Numerical analysis; Smoothing methods;
Conference_Titel :
Antenna Theory and Techniques, 2003. 4th International Conference on
Print_ISBN :
0-7803-7881-4
DOI :
10.1109/ICATT.2003.1238843
