Title :
Pulse compression Eclipsing-Repair
Author :
Blunt, Shannon D. ; Gerlach, Karl ; Mokole, Eric L.
Author_Institution :
Electr. Eng. & Comput. Sci. Dept., Univ. of Kansas, Lawrence, KS
Abstract :
For radars operating with medium to high pulse repetition frequency (PRF), a loss in detection performance can result when the arrival of return echoes coincides with the transmission of a pulse, during which time the receiver is turned off. This so-called ldquoeclipsing lossrdquo is due to the partial reception of the reflected waveform corresponding to a given range cell. In this paper, the MMSE-based adaptive pulse compression (APC) algorithm is modified to account for pulse eclipsing effects in order to improve the resolution accuracy of the eclipsed regions. Simulation results for the subsequent eclipsing-repair APC (APC-ER) are compared to results obtained from matched filtering and mismatched filtering, both of which are known to degrade in the presence of eclipsing, where it is found that APC-ER significantly improves the estimation of the eclipsed region.
Keywords :
least mean squares methods; pulse compression; radar cross-sections; radar receivers; radar resolution; MMSE-based adaptive pulse compression; eclipsed region; eclipsing loss; pulse compression eclipsing repair; pulse eclipsing effect; pulse repetition frequency; pulse transmission; receiver; resolution accuracy; return echoes; Chirp modulation; Computer science; Degradation; Filtering; Frequency conversion; Matched filters; Performance loss; Propagation losses; Pulse compression methods; Radar detection; MMSE; eclipsing; mismatch filters; pulse compression;
Conference_Titel :
Radar Conference, 2008. RADAR '08. IEEE
Conference_Location :
Rome
Print_ISBN :
978-1-4244-1538-0
Electronic_ISBN :
1097-5659
DOI :
10.1109/RADAR.2008.4720725
