Author :
Conte, Ernesto ; Di Bisceglie, Maurizio ; Lops, Marco
Abstract :
The performance assessment of the clutter-map constant false-alarm rate (CFAR) procedure presented in Part I [1] is introduced. At first, the performance in the presence of point targets is investigated, subject to both Weibull and lognormal clutter, so as to elicit the influence of the system parameters. The study essentially relies on Monte-Carlo simulations, but approximations for the detection rate are also developed. Admittedly, a global figure of performance, the Average Threshold Deviation (ATD), is introduced and its worth as a design tool is validated. Next, the effect of extended as well as multiple targets is considered, showing that the system can be designed so as to avoid self-masking from either range-spread targets persisting on the same map cell, or spurious targets in close spatial proximity to the cell under test. Finally, the system robustness is demonstrated through a sensitivity study, aimed at investigating the effect of a possible mismatch between the design and the actual clutter distribution, that of the clutter correlation and of a thermal noise component in the overall disturbance.
Keywords :
Monte Carlo methods; Weibull distribution; approximation theory; log normal distribution; performance evaluation; radar clutter; radar detection; sensitivity analysis; thermal noise; Average Threshold Deviation; CFAR detection; Monte-Carlo simulation; Weibull clutter; approximations; clutter correlation; clutter distribution; clutter-map constant false-alarm rate detection; design tool; detection rate; lognormal clutter; mismatch; multiple targets; nonGaussian clutter; performance assessment; point targets; range-spread targets; self-masking; sensitivity; system robustness; thermal noise; Automatic testing; Bandwidth; Clutter; Detectors; Distributed amplifiers; Filtering; Filters; Frequency estimation; Frequency response; Noise robustness; Parameter estimation; Radar detection; Statistics; System testing;
