In the literatures, Seifer found an ingenious way to Thus, the statistical properties of MR were studied in many literatures Have a comprehensive understanding of the angle measurement performance. For the monopulse radarĭesigners, it is useful to learn the statistical properties of MR to Is extracted from the monopulse ratio (MR), which is the ratio of theĭifference channel and the sum channel phasors. In the monopulse radar system, the angular information of a target Monopulse radars are widely applied in various scenarios. To all the advantages mentioned above, in recent years, the wideband Thus, the multipath interference is controlled significantly. Resolution to resolve the target and its image in the range profiles. The wideband radar can use its advantage of high Other hand, for the multipath propagation, the time delay of a target is Radar is used to restrain the angular glint effectively.
Very high, these scattering centers can be effectively separated withinĭifferent range resolution cells.
For wideband monopulse radar, since the range resolution is Ī complex target can be represented as a set of separate scatteringĬenters. The other hand, multipath propagation makes the target and its imageĪppear simultaneously in the main lobe of radar, which causes acuteĮrrors in the angle measurement of targets. The radar detection probability and the angle measurement accuracy. Lowers the signal-clutter-noise ratio (SCNR), which thereby decreases However, when monopulse radar is used to track the Monopulse radars are widely used in target trackingĪrea because of their superior angular accuracy and powerful antijamming Monopulse, which uses the sum and difference beams to estimate theĭirection of arrival (DOA) of targets, is a matured technique of targetĪngle measurement.
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