Title :
On the Performance of Negentropy Approximations as Test Statistics for Detecting Sinusoidal RFI in Microwave Radiometers
Author :
Bradley, D. ; Morris, Joel M.
Author_Institution :
Digital Signal Process. Technol. Group, NASA Goddard Space Flight Center, Greenbelt, MD, USA
Abstract :
Radio-frequency interference (RFI) is a persistent threat to Earth-observing microwave radiometers. A number of test statistics are used for radiometric RFI detection. This paper presents a new RFI detection method that uses the information theoretic quantity known as negentropy. In particular, we study six negentropy-based test statistics and compare their performance against kurtosis, Jarque-Bera, Anderson-Darling, and Shapiro-Wilk normality tests for specific RFI signal models. The Neyman-Pearson decision rule is used to develop receiver operating characteristic curves for each test statistic. We show that although negentropy can be used to detect RFI, it does not outperform kurtosis, except for the kurtosis blind-spot case.
Keywords :
electric noise measurement; geophysical techniques; information theory; radiofrequency interference; radiometry; statistical analysis; Anderson-Darling normality test; Jarque-Bera normality test; Neyman-Pearson decision rule; Shapiro-Wilk normality test; earth observing microwave radiometer; information theoretic quantity; kurtosis normality test; negentropy approximation; radio frequency interference; sinusoidal RFI detection; test statistics; Approximation methods; Detectors; Entropy; Histograms; Microwave radiometry; Radiometers; Random variables; Entropy; information theory; interference; microwave radiometry;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2013.2266358
