Title :
A New Pseudo Three-Dimensional Segment Method Analytical Ray Tracing (3-D SMART) Technique
Author :
Norman, R.J. ; Le Marshall, J. ; Carter, B.A. ; Chuan-Sheng Wang ; Gordon, Stascia ; Kefei Zhang
Author_Institution :
SPACE Res. Centre, RMIT Univ., Melbourne, VIC, Australia
Abstract :
The new pseudo three-dimensional (3-D) segment method analytical ray tracing technique (3-D SMART) is similar to the 2-D SMART technique however with the added ability to determine the effects of transverse refractive gradients on a ray path. In the past numerical ray tracing techniques using a form of Haselgrove´s equations were required for realistic 3-D ray tracing. This new 3-D SMART technique is considerably less computer resource intensive than numerical ray tracing techniques and thus is of particular importance for near real-time applications and the general case where it is necessary to trace a vast number of ray paths.
Keywords :
electromagnetic wave refraction; gradient methods; ionospheric electromagnetic wave propagation; radiowave propagation; ray tracing; 2D SMART; Haselgrove equation; numerical ray tracing; pseudo 3D SMART; ray path; segment method analytical ray tracing; transverse refractive gradient; Analytical models; Earth; Equations; Ionosphere; Mathematical model; Ray tracing; Refractive index; High frequency communications; ionosphere; radio wave propagation; ray tracing;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2012.2214194
