Performance bound for time delay and amplitude estimation from low rate samples of pulse trains

Authors

Ciprian R. Comsa, Universitatea Tehnica Gh. Asachi din IasI
Alexander M. Haimovich, New Jersey Institute of Technology

Document Type

Conference Proceeding

Publication Date

11-27-2012

Abstract

The problem considered is estimating the time delays and amplitudes of a train of pulses of known shape. It was recently shown that in the absence of noise, if the pulses are short relative to the interval separating them, the stream of pulses can be sampled at rates lower than the Nyquist rate without any loss of information. This paper investigates the performance of time delay and amplitude estimation from samples taken at low (sub-Nyquist) rates when the stream of pulses is affected by additive white Gaussian noise. To this end, the Cramér-Rao bound (CRB) is developed. For a particular setup, the CRB for time delay estimation is inverse proportional to the cube of the sampling rate, while the CRB for amplitude estimation is inverse proportional to the sampling rate. Numerical simulations confirm this result. © 2012 EURASIP.

Identifier

84869790816 (Scopus)

ISBN

[9781467310680]

Publication Title

European Signal Processing Conference

ISSN

22195491

First Page

455

Last Page

459

Recommended Citation

Comsa, Ciprian R. and Haimovich, Alexander M., "Performance bound for time delay and amplitude estimation from low rate samples of pulse trains" (2012). Faculty Publications. 18007.
https://digitalcommons.njit.edu/fac_pubs/18007