Abstract :
The antennas used in surface penetrating radar systems are, for reasons of portability, usually electrically small and consequently exhibit low gain. This has a profound effect on the performance of the overall system and is probably the only example of a radar system when antenna gain is, in general, so low. However, the bandwidth of the antennas is very much greater than that normally used in conventional radar systems, and surface penetrating radar generally demonstrate very high range resolution. The choice of antenna is generally straightforward. The resistively loaded dipole, bow-tie and TEM travelling wave antenna have been primarily used for the impulse based radar. Where matched filtering can be incorporated in impulse radar then either horn or frequency independent antennas can also be considered. All the classes of antenna discussed can be used in synthesised, FMCW or noise modulated radar. The front end design of ground probing radar is generally complicated by wide bandwidth and wide dynamic range. In the case of time domain radar the effect of mismatches within the radar front end can cause clutter which causes contamination of the data
Keywords :
CW radar; FM radar; antenna radiation patterns; microwave antennas; microwave measurement; nondestructive testing; radar antennas; FMCW radar; NDE; TEM travelling wave antenna; antenna design; bandwidth; bow-tie antenna; electrically small antennas; frequency independent antennas; front end design; ground probing radar; horn antennas; impulse based radar; low gain antennas; matched filtering; microwave techniques; noise modulated radar; nondestructive evaluation; radar clutter; resistively loaded dipole; surface penetrating radar systems; synthesised radar; system performance;
