Title :
Search-efficient methods of detection of cyclostationary signals
Author :
Yeung, Grace K. ; Gardner, William A.
Author_Institution :
Mission Res. Corp., Monterey, CA, USA
fDate :
5/1/1996 12:00:00 AM
Abstract :
Conventional signal processing methods that exploit cyclostationarity for the detection of weak signals in noise require fine resolution in cycle frequency for long integration time. Hence, in cases of weak-signal detection and broadband search, problems in implementation, such as excessive computational complexity and storage and search arise. This paper introduces two new search-efficient methods of cycle detection, namely the autocorrelated cyclic autocorrelation (ACA) and the autocorrelated cyclic periodogram (ACP) methods. For a given level of performance reliability, the ACA and ACP methods allow much larger resolution width in cycle frequency to be used in their implementations, compared to the conventional methods of cyclic spectral analysis. Thus, the amount of storage and search can be substantially reduced. Analyses of the two methods, performance comparison, and computer simulation results are presented
Keywords :
computational complexity; correlation methods; radiocommunication; radiofrequency interference; search problems; signal detection; signal resolution; spectral analysis; ACA methods; ACP methods; autocorrelated cyclic autocorrelation; autocorrelated cyclic periodogram; broadband search; computational complexity; cycle detection; cycle frequency; cyclic spectral analysis; cyclostationary signals; detection; fine resolution; long integration time; noise; performance reliability; resolution width; search-efficient methods; signal processing methods; storage; weak signals; Autocorrelation; Computational complexity; Computer vision; Frequency estimation; Performance analysis; Radiometry; Signal detection; Signal processing; Signal resolution; Spectral analysis;
Journal_Title :
Signal Processing, IEEE Transactions on
