Title :
Experimental observation and statistics of multipath from terrain with application to overland height finding
Author_Institution :
Lincoln Lab., MIT, Lexington, MA, USA
fDate :
1/1/1999 12:00:00 AM
Abstract :
Data is presented from an airborne experiment designed to evaluate electromagnetic pulse scattering from a variety of terrain types for the application of overland height finding. The one-way propagation data was collected at ultrahigh frequency (UHF) and very high frequency (VHF) frequencies using a 3-MHz pulsed CW signal with the radars mounted on two aircraft. A statistical analysis of the data shows that the probability of a detectable ground reflection and the strength of that reflection vary as a function of the terrain roughness. We introduce a broad-band synthesis technique in which Fourier theory is used to generate a time-domain response from a CW propagation model. Results from this technique agree well with the experimental observations, but the lack of detailed terrain information does not allow exact reproduction of the fine details
Keywords :
CW radar; Fourier analysis; UHF radio propagation; VHF radio propagation; airborne radar; electromagnetic pulse; electromagnetic wave scattering; multipath channels; probability; radar altimetry; radar applications; radar detection; statistical analysis; 3 MHz; CW propagation model; Fourier theory; UHF; VHF; airborne experiment; aircraft radar; broad-band synthesis technique; detectable ground reflection; electromagnetic pulse scattering; experimental observation; multipath; one-way propagation data; overland height finding; probability; pulsed CW signal; statistical analysis; statistics; terrain; terrain roughness; time-domain response; ultrahigh frequency; very high frequency; Airborne radar; Aircraft; Electromagnetic propagation; Electromagnetic transients; Frequency; Probability; Reflection; Statistical analysis; Statistics; UHF propagation;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
