Title :
Quantification of the difference between detection and resolution thresholds for multiple closely spaced emitters
Author :
Lee, Harry ; Li, Fu
Author_Institution :
Atlantic Aerosp. Electron. Corp., Waltham, MA, USA
fDate :
6/1/1993 12:00:00 AM
Abstract :
The problem of estimating the parameters of multiple signals closely spaced in either space or frequency has been much researched because it is a difficult case for modern spectral analysis techniques. Based on empirical evidence, it has been noted by others that signal-to-noise ratio (SNR) detection thresholds typically are lower than resolution thresholds. That is, one can detect the occurrence of n closely spaced signals at SNRs lower than those at which one can resolve the signals and reliably estimate their parameters. The difference between detection and resolution thresholds is quantified for the direction-finding problem in which source locations are specified by a single angular coordinate (e.g., azimuth)
Keywords :
array signal processing; parameter estimation; signal detection; spectral analysis; SNR; array processing; detection thresholds; direction-finding problem; multiple closely spaced emitters; multiple signals; parameter estimation; resolution thresholds; signal-to-noise ratio; source locations; spectral analysis; Algorithm design and analysis; Detection algorithms; Frequency estimation; Geometry; Parameter estimation; Performance analysis; Signal resolution; Signal to noise ratio; Source separation; Spatial resolution;
Journal_Title :
Signal Processing, IEEE Transactions on
