Title :
A robust correlation receiver for distance estimation
Author :
Eriksson, Håkan ; Börjesson, Per Ola ; Ödling, Per ; Holmer, Nils-Gunnar
Author_Institution :
Div. of Signal Process., Lulea Univ. of Technol., Sweden
Abstract :
Many methods for distance estimation, such as the ultrasonic pulse-echo method, involve the estimation of a time-of-flight (TOF). In this paper, a signal model is developed that, apart from the TOF, accounts for an unknown, linear frequency dependent distortion as well as for additive noise. We derive a TOF estimator for this model based on the criteria of maximum likelihood. The resulting receiver can be seen as an extension or generalization of the well known cross-correlation, or "matched filter", estimator described, e.g., by Nilsson. The novel receiver is found to be more robust against unknown pulse shape distortion than the cross-correlation estimator, giving less biased TOF estimates. Also, bias versus noise sensitivity can be controlled by proper model order selection.<>
Keywords :
acoustic noise; acoustic receivers; correlation methods; distance measurement; echo; sensitivity; ultrasonic applications; TOF; TOF estimates; TOF estimator; additive noise; cross-correlation; distance estimation; linear frequency dependent distortion; matched filter; maximum likelihood; model order selection; noise sensitivity; robust correlation receiver; signal model; time-of-flight; ultrasonic pulse-echo method; unknown pulse shape distortion; Acoustic distortion; Acoustic pulses; Acoustic transducers; Biomedical acoustics; Biomedical measurements; Delay estimation; Maximum likelihood estimation; Narrowband; Noise robustness; Shape;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
