Multichannel Relative-Entropy Spectrum Analysis.

Abstract

A new relative-entropy method is presented for estimating the power spectral density matrix for multichannel data, given correlation values for linear combinations of the channels, and given an initial estimate of the spectral density matrix. A derivation of the method from the relative-entropy principle is given. The basic approach is similar in spirit to Multisignal Relative Entropy Spectrum Analysis, but the results differ significantly because the present method does not arbitrarily require the final distributions of the various channels to be independent. For the special case of separately estimating the spectra of the signal and noise, given the correlations to their sum, Multichannel Relative Entropy Spectrum Analysis turns into a two stage procedure. First a smooth power spectrum model is fitted to the correlations of the signal plus noise. Then final estimates of the spectra and cross spectra are obtained through linear filtering. For the special case where p uniformly spaced correlations are known, and where the initial estimate of the signal plus noise spectrum is all-pole with order p or less, this method fits a standard Maximum Entropy autoregressive spectrum to the noisy correlations, then linearly filters to calculate the signal and noise spectra and cross spectra. Consideration is given to the case where only an initial estimate of the noise power spectrum is available. An illustrative numerical example is given. Keywords: Cross entropy; Relative entropy; Information theory; Spectrum analysis; Spectrum estimation; Spectral analysis.

Document Details

Document Type

Technical Report

Publication Date

Mar 25, 1986

Accession Number

ADA166625

Entities

Tags