The Generalized Wiener Process for Colored Noise

Author

Galleani, Lorenzo ; Cohen, Leon

Author_Institution

Politecnico di Torino

Volume

13

Issue

10

fYear

2006

Firstpage

608

Lastpage

611

Abstract

We define the generalized Wiener process as the output of a first-order differential equation when the input is an arbitrary stochastic input. This is in contrast to the standard Wiener process, where the input is white Gaussian noise. We obtain a simple explicit result for any input wide sense stationary random process, namely, that the Wigner spectrum of the output random process is the product of the power spectrum of the input process times a simple universal function of time and frequency. We also obtain the impulse response function wherein the output of the generalized process is expressed as the impulse response function integrated with the input random process. Various limiting values are derived. We apply the method to the case where the driving stochastic process has an exponentially decaying autocorrelation function

Keywords

Gaussian noise; correlation methods; differential equations; random processes; signal processing; time-frequency analysis; transient response; white noise; arbitrary stochastic process; autocorrelation function; colored noise; first-order differential equation; generalized Wiener process; impulse response function; time-frequency function; white Gaussian noise; wide sense stationary random process; Autocorrelation; Circuit noise; Clocks; Colored noise; Differential equations; Gaussian noise; Random processes; Stochastic processes; Stochastic resonance; Time frequency analysis; Nonstationary random processes; Wiener process; Wigner distribution; random differential equations; time-frequency;

fLanguage

English

Journal_Title

Signal Processing Letters, IEEE

Publisher

ieee

ISSN

1070-9908

Type

jour

DOI

10.1109/LSP.2006.876343

Filename

1703539