Title :
On the linear minimum-mean-squared-error estimation of an undersampled wide-sense stationary random process
Author :
Matthews, Michael B.
Author_Institution :
Monterey Bay Aquarium Res. Inst., Moss Landing, CA, USA
fDate :
1/1/2000 12:00:00 AM
Abstract :
We consider the problem of linearly estimating, in the sense of minimum-mean-squared error, a wide-sense stationary process in noise given uniformly spaced samples where the sampling interval is such that significant aliasing occurs. We derive the corresponding aliased Wiener filter and provide a technique for determining a closed form for the necessary power spectral density functions. We conclude with an example where both signal and noise are modeled using a second-order innovations representation
Keywords :
Wiener filters; filtering theory; least mean squares methods; noise; parameter estimation; random processes; signal representation; signal sampling; spectral analysis; aliased Wiener filter; closed form functions; linear minimum-mean-squared-error estimation; noise; power spectral density functions; sampling interval; second-order innovations representation; undersampled wide-sense stationary random process; uniformly spaced samples; Chemical processes; Density functional theory; Frequency estimation; Moon; Oceans; Random processes; Sampling methods; Signal sampling; Technological innovation; Wiener filter;
Journal_Title :
Signal Processing, IEEE Transactions on
