Title :
Joint estimation of time delay and Doppler ratio from broadband data using discrete estimation techniques
Abstract :
An innovative technique to detect and track a target that radiates predominantly broadband energy is presented. The signal is modeled as a broadband Gaussian process that is observed on two spatially distributed sensors. The noise at each sensor is assumed to be an independent, additive Gaussian process. The time series data observed at the sensors depends on both target Doppler and time delay. This study modeled both Doppler and time delay, using a discrete two-dimensional probability density function (PDF) to describe the statistical behavior of Doppler and time delay. Joint estimation of both parameters improves the signal-to-noise ratio at the output of the receiver, and therefore provides a more reliable estimate of differential time delay than if Doppler were ignored
Keywords :
Doppler effect; delays; parameter estimation; random noise; signal processing; statistical analysis; tracking; Doppler ratio estimation; additive Gaussian noise; broadband Gaussian process; broadband data; differential time delay; discrete estimation techniques; signal-to-noise ratio; target detection; target tracking; time delay estimation; time series data; two spatially distributed sensors; two-dimensional probability density function; Additive noise; Delay effects; Delay estimation; Gaussian noise; Gaussian processes; Parameter estimation; Probability density function; Signal processing; Signal to noise ratio; Target tracking;
Conference_Titel :
Acoustics, Speech, and Signal Processing, 1991. ICASSP-91., 1991 International Conference on
Conference_Location :
Toronto, Ont.
Print_ISBN :
0-7803-0003-3
DOI :
10.1109/ICASSP.1991.150635
