Title :
Hierarchical digital modulation classification using cumulants
Author :
Swami, Ananthram ; Sadler, Brian M.
Author_Institution :
Army Res. Lab., Adelphi, MD, USA
fDate :
3/1/2000 12:00:00 AM
Abstract :
A simple method, based on elementary fourth-order cumulants, is proposed for the classification of digital modulation schemes. These statistics are natural in this setting as they characterize the shape of the distribution of the noisy baseband I and Q samples. It is shown that cumulant-based classification is particularly effective when used in a hierarchical scheme, enabling separation into subclasses at low signal-to-noise ratio with small sample size. Thus, the method can be used as a preliminary classifier if desired. Computational complexity is order N, where N is the number of complex baseband data samples. This method is robust in the presence of carrier phase and frequency offsets and can be implemented recursively. Theoretical arguments are verified via extensive simulations and comparisons with existing approaches
Keywords :
computational complexity; higher order statistics; modulation; pattern classification; carrier frequency offset; carrier phase offset; computational complexity; elementary fourth-order cumulants; hierarchical digital modulation classification; noisy baseband I samples; noisy baseband Q samples; sample size; separation; signal-to-noise ratio; Baseband; Computational complexity; Computational modeling; Digital modulation; Frequency; Noise shaping; Robustness; Shape; Signal to noise ratio; Statistical distributions;
Journal_Title :
Communications, IEEE Transactions on
