Convergence performance results associated with the transient of the performance measures (probabilities of false alarm and detection) for three multiple-observation binary adaptive detectors are presented. The multiple-observation binary adaptive detector consists of a selected single-observation adaptive detector followed by a binary integrator/detector (J out of M detector). Three types of single-observation adaptive detectors are considered: nonconcurrent mean level adaptive detection (MLAD), concurrent MLAD, and the generalized likelihood ratio test (GLRT). The desired input signal is modeled as a Swerling II target and the input noises as Gaussian random variables (RVs). Detection performance P/sub D/ of each binary adaptive detector is evaluated as a function of the number of input channels N, the number of independent input sample vectors-per-channel used to estimate the unknown input covariance matrix, the order of the binary detector M, the desired probability of false alarm P/sub F/, and the matched filter output signal-to-noise(SIN) power ratio. Tables of detection performance are provided that will aid in specifying the optimal J* for the J out of M detector and finding the number of input samples-per-channel K* necessary to achieve a 3 dB loss in optimal performance for a given P/sub D/, P/sub F/, M, N, and single-observation detector configuration. Significantly, it was found that K* and J* are relatively invariant of the single-observation detector configuration and the chosen P/sub D/. >
[1]
John V. Harrington.
An analysis of the detection of repeated signals in noise by binary integration
,
1955,
IRE Trans. Inf. Theory.
[2]
Karl Gerlach.
A mean level adaptive detector using nonconcurrent data
,
1994
.
[3]
Mischa Schwartz,et al.
A coincidence procedure for signal detection
,
1956,
IRE Trans. Inf. Theory.
[4]
George M. Dillard,et al.
Mean-Level Detection of Nonfluctuating Signals
,
1974,
IEEE Transactions on Aerospace and Electronic Systems.
[5]
K. Gerlach.
A comparison of two adaptive detection schemes
,
1994
.
[6]
I. Reed,et al.
Rapid Convergence Rate in Adaptive Arrays
,
1974,
IEEE Transactions on Aerospace and Electronic Systems.
[7]
Karl Gerlach,et al.
The effects of signal contamination on two adaptive detectors
,
1995
.
[8]
R. Worley.
Optimum thresholds for binary integration (Corresp.)
,
1968,
IEEE Trans. Inf. Theory.
[9]
B. O. Steenson,et al.
Detection Performance of a Mean-Level Threshold
,
1968,
IEEE Transactions on Aerospace and Electronic Systems.
[10]
E. J. Kelly.
An Adaptive Detection Algorithm
,
1986,
IEEE Transactions on Aerospace and Electronic Systems.