Title :
A bound involving n-dimensional instantaneous frequency
Author_Institution :
Dept. of Electr. & Comput. Eng., Texas Univ., Austin, TX, USA
fDate :
11/1/1991 12:00:00 AM
Abstract :
The author states and proves an integral inequality that bounds the absolute difference ε(x)=|m(x) -mˆ(x)| where m(x) is the response of a modulated n-dimensional real linear filter w to a complex exponential signal with n-dimensional instantaneous frequency Δu(x) and m(x)=|W[Δu(x)-u 0]| where W is the Fourier transform of w . The quantity of ε(x) provides an estimate of the error incurred by using mˆ(x) as an estimate of m(x), e.g., if Δu(x) is unknown. Such estimates may be applied to the problem of measuring the n-dimensional instantaneous frequency of certain nonstationary phase-modulated signals
Keywords :
Fourier transforms; filtering and prediction theory; phase modulation; signal processing; Fourier transform; complex exponential signal; integral inequality; n-dimensional instantaneous frequency; n-dimensional real linear filter; nonstationary phase-modulated signals; Chirp modulation; Fourier transforms; Frequency estimation; Frequency measurement; Frequency modulation; Integral equations; Nonlinear filters; Phase estimation; Phase measurement; Phase modulation;
Journal_Title :
Circuits and Systems, IEEE Transactions on
