High Resolution Spectrum Estimation for Digital Tracking Array

Abstract

To design a high resolution spectrum estimation module as part of a digital tracking array system, the theory and mathematical formulations of several high resolution spectrum estimation methods are presented. In the implementation of a spectrum estimation system, the received signal is first down-converted to baseband frequency using single channel or in-phase (I) and quad-phase (Q) channel down-converter before it is digitized using an analogto- digital (ADC) converter. Three distinct frequency estimation methods, namely multiple signal classification (MUSIC), estimation of signal parameters via rotational invariance techniques (ESPRIT), and multi-resolution spectrum sensing (MRSS), are simulated to detect the inherent frequencies of a test signal. The performances, such as estimation accuracy, frequency resolution, processing speed, observation time, and resilience to noise, are measured and evaluated. Comparing the simulation results, the MRSS out-performs the MUSIC and ESPRIT in terms of spectral resolution, estimation accuracy, and robustness to noise. Though the MRSS requires a higher observation time and processing time, the values remain significantly low at 13 micro and 2.4 micro, respectively, for SNR equals to -10 dB. Hence, the MRSS is proposed as the frequency estimation algorithm in the digital tracking array to provide accurate, robust, and high resolution spectrum estimation.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 2009

Accession Number

ADA514411

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