论文信息 - Confidence bounds for magnitude-squared coherence estimates

Confidence bounds for magnitude-squared coherence estimates

In underwater acoustics where signals are digitally processed at the outputs of two or more receiving sensors, it is desirable to estimate the coherence spectrum, both for detection and position estimation. A processing technique for computing arbitrary confidence bounds for stationary Gaussian signals is presented. New computationally difficult examples are given for 80 to 95% confidence with independent averages of 8, 16, 32, 64 and 128. A discussion of the computational difficulties together with algorithmic details are presented.

G. Clifford Carter | Everett H. Scannell

[1] G. Carter,et al. Estimation of the magnitude-squared coherence function via overlapped fast Fourier transform processing , 1973 .

[2] R. Haubrich. Earth noise, 5 to 500 millicycles per second: 1. Spectral stationarity, normality, and nonlinearity , 1965 .

[3] V. Benignus,et al. Estimation of coherence spectrum of non-Gaussian time series populations , 1969 .

[4] J. Gosselin. Comparative study of two-sensor(magnitude-squared coherence) and single-sensor(square-law) receiver operating characteristics , 1977 .

[5] G. Carter. Receiver operating characteristics for a linearly thresholded coherence estimation detector , 1977 .