Dl. Maskell et Gs. Woods, The estimation of subsample time delay of arrival in the discrete-time measurement of phase delay, IEEE INSTR, 48(6), 1999, pp. 1227-1231
Citations number
8
Categorie Soggetti
Instrumentation & Measurement
Journal title
IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT
Time delay estimation (TDE) techniques based upon the identification of the
extremum of the cross-correlation function, or some other statistic of two
signals, typically use some form of interpolation between points to obtain
a resolution finer than the sample period. Often these techniques introduc
e some bias because of mismatch between the interpolating function and the
actual discrete-time correlation function. We present a discrete; time TDE
suitable for measuring the delay between two periodic signals with a resolu
tion of a fraction of the sampling period. The technique is based upon a se
parate reference, external to the two measured signals, which is allowed to
vary with subsample increments of delay. Simulations show that the increme
ntal reference technique does not exhibit any significant bias and is super
ior to parabolic interpolation at both high and low SNR, The technique is s
uited to the measurement of group-delay or range of an object.