Title :
Laboratory performance of spread spectrum detectors
Author :
Hill, D.A. ; Felstead, E.B.
Author_Institution :
Defence Res. Establ., Ottawa, Ont., Canada
fDate :
8/1/1995 12:00:00 AM
Abstract :
The laboratory performance of four spread-spectrum (SS) detectors (full-band and partial-band radiometers, chip-rate detector (CRD) and squaring carrier detector) was measured for direct sequence (DS) and frequency hop (FH) SS signals, FH/DS hybrids, and time hop (TH) DS signals. Probability of detection as a function of input SNR for a constant false-alarm rate was measured for numerous combinations of SS waveform and detector. Theories were compiled from the literature and extended as necessary to provide a unified theoretical description. The results usually agreed with theory to within 1 dB. A constant-false-alarm-rate method was used to reduce the drift problem of radiometers. The fact that chip-rate and squaring-carrier detectors have a much reduced drift problem was confirmed. It is concluded that the four SS detectors used are relatively simple and inexpensive devices with laboratory detection performance close to theoretical
Keywords :
frequency hop communication; radio receivers; radiometers; signal detection; spread spectrum communication; FH/DS hybrids; chip-rate detector; constant false-alarm rate; direct sequence; drift problem; frequency hop; full-band radiometer; input SNR; laboratory performance; partial-band radiometer; probability; spread spectrum detectors; squaring carrier detector; time hop;
Journal_Title :
Communications, IEE Proceedings-
DOI :
10.1049/ip-com:19952059
