Performance of Novel Versions of CFAR Detection Schemes Processing M-Correlated Sweeps in Presence of Interferers

The detection of moving target (MTI) against clutter background represents one of the most important goals of a radar system. To achieve this objective,itisnecessarytosuppress or cancel the clutter returns with as small suppression of the target signal as possible. In this regard, MTI radar is capab...

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Veröffentlicht in:	Radioelectronics and communications systems 2019-04, Vol.62 (4), p.143-160
1. Verfasser:	El Mashade, Mohamed Bakry
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Schlagworte:	Adaptive algorithms Adaptive systems Algorithms Background noise Clutter Communications Engineering Correlation Engineering False alarms Microprocessors Military applications Networks Radar Radar equipment Signal processing Target detection
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description	The detection of moving target (MTI) against clutter background represents one of the most important goals of a radar system. To achieve this objective,itisnecessarytosuppress or cancel the clutter returns with as small suppression of the target signal as possible. In this regard, MTI radar is capable of detecting such type of targets in the presence of interferers. Radar MTI is of great interest in civil and military applications, where it reduces the returns from stationary or slowly moving clutter. Additionally, in order to make decisions on the target presence, the MTI processing may be applied with automatic detection. In this situation, the CFAR detection is a common style of adaptive algorithms employed in radar systems to detect target returns against a background of noise, clutter and interference. However, the presence of MTI complicates the analysis of the detection system performance since its output sequence is correlated even though its input sequence may be uncorrelated. Our goal in this paper is to analyze the performance of a radar signal processor that consists of a nonrecursive MTI followed by a square-law integrator and a new version of CFAR circuit detection; the operation of which is based on the hybrid combination of CA and TM algorithms. The processor performance is evaluated for the case where the background environment is assumed to be ideal (homogeneous) as well as in the presence of spurious target returns amongst the contents of the reference cells. The numerical results exhibit that the processor performance can be enhanced through either increasing the number of incoherently integrated pulses or decreasing the correlation among consecutive sweeps, given that the rate of false alarm is keeping constant.
doi_str_mv	10.3103/S0735272719040010
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Our goal in this paper is to analyze the performance of a radar signal processor that consists of a nonrecursive MTI followed by a square-law integrator and a new version of CFAR circuit detection; the operation of which is based on the hybrid combination of CA and TM algorithms. The processor performance is evaluated for the case where the background environment is assumed to be ideal (homogeneous) as well as in the presence of spurious target returns amongst the contents of the reference cells. 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Our goal in this paper is to analyze the performance of a radar signal processor that consists of a nonrecursive MTI followed by a square-law integrator and a new version of CFAR circuit detection; the operation of which is based on the hybrid combination of CA and TM algorithms. The processor performance is evaluated for the case where the background environment is assumed to be ideal (homogeneous) as well as in the presence of spurious target returns amongst the contents of the reference cells. The numerical results exhibit that the processor performance can be enhanced through either increasing the number of incoherently integrated pulses or decreasing the correlation among consecutive sweeps, given that the rate of false alarm is keeping constant.</abstract><cop>Moscow</cop><pub>Pleiades Publishing</pub><doi>10.3103/S0735272719040010</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0002-1852-3286</orcidid></addata></record>
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subjects	Adaptive algorithms Adaptive systems Algorithms Background noise Clutter Communications Engineering Correlation Engineering False alarms Microprocessors Military applications Networks Radar Radar equipment Signal processing Target detection
title	Performance of Novel Versions of CFAR Detection Schemes Processing M-Correlated Sweeps in Presence of Interferers
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