Title :
The Analysis of Thin Wires Using Higher Order Elements and Basis Functions
Author :
Champagne, Nathan J. ; Wilton, Donald R. ; Rockway, John D.
Author_Institution :
NASA Johnson Space Center, Houston, TX
Abstract :
A method of moments procedure for accurately resolving the currents on arbitrarily-shaped wire structures using higher order basis functions and higher order (curved) wire segments is presented. An advanced integration scheme for straight wires is modified for use on higher order wire segments. The results demonstrate that fewer higher order bases than the usual ten per wavelength may be used. This approach is expected to facilitate efforts to create algorithms for mesh (h-adaptive) and basis function (p-adaptive) adaptive schemes for arbitrarily-shaped wire structures
Keywords :
integration; method of moments; wire antennas; arbitrarily-shaped wire structures; basis functions; higher order elements; method of moments; thin wires analysis; Algorithm design and analysis; Contracts; Integral equations; Kernel; Laboratories; Moment methods; NASA; Power engineering and energy; Voltage; Wires; higher order basis functions; higher order elements; method of moments (MoM); wire;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2006.886538
