DocumentCode
1934861
Title
Implementation of the single cycle detector using the signal processing workstation
Author
Mills, Robert F.
Author_Institution
Telecommun. & Inf. Sci. Lab., Kansas Univ., Lawrence, KS, USA
fYear
1994
fDate
10-12 May 1994
Firstpage
393
Lastpage
400
Abstract
Detection of unknown signals is often accomplished using energy detection devices, such as the wideband, or total power, radiometer. While this is an effective approach for stationary signals and background noise, much attention has lately focused on the use of other detection methods, such as time-frequency analysis and spectral correlation. This paper investigates the simulation of a single cycle detector, which provides some immunity to the effects of interference and non-stationary noise backgrounds, through the exploitation of the cyclostationary properties of most communications signals. Comparisons of the single cycle detector and the radiometer are made through the use of receiver operating characteristics curves, obtained through simulations using COMDISCO´s signal processing workstation (SPW)
Keywords
digital simulation; interference (signal); noise; radiometers; radiometry; signal detection; signal processing; signal processing equipment; simulation; workstations; COMDISCO; background noise; communications signals; cyclostationary properties; energy detection devices; interference immunity; non-stationary noise backgrounds; receiver operating characteristics curves; signal processing workstation; simulation; single cycle detector; spectral correlation; stationary signals; time-frequency analysis; total power radiometer; wideband radiometer; Additive white noise; Computer vision; Detectors; Gaussian noise; Interference; Radiometry; Signal processing; Statistical analysis; Testing; Workstations;
fLanguage
English
Publisher
ieee
Conference_Titel
Tactical Communications Conference, 1994. Vol. 1. Digital Technology for the Tactical Communicator., Proceedings of the 1994
Conference_Location
Fort Wayne, IN
Print_ISBN
0-7803-2004-2
Type
conf
DOI
10.1109/TCC.1994.472106
Filename
472106
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