In this letter, all the previously proposed digital blind feedforward symbol timing estimators employing second-order statistics are casted into a unified framework. The finite sample mean-square error (MSE) expression for this class of estimators is established. Simulation results are also presented to corroborate the analytical results. It is found that the feedforward conditional maximum likelihood (CML) estimator and the square law nonlinearity (SLN) estimator with a properly designed prefilter perform the best and their performances coincide with the asymptotic conditional Cramer-Rao bound (CCRB), which is the performance lower bound for the class of estimators under consideration. © 2006 IEEE.link_to_subscribed_fulltex
This work provides a general framework for the design of second-order blind estimators without adopt...
The conditional maximum likelihood (CML) principle, well known in the context of sensor array proces...
Feedforward algorithms are investigated for estimating carrier frequency, carrier phase and symbol t...
Abstract — In this letter, all the previously proposed digital blind feedforward symbol timing estim...
This paper presents a general feedforward symbol-timing estimation framework based on the conditiona...
This paper deals with the problem of blind symbol timing estima-tion with M-ary phase-shift keying s...
A simple low-complexity algorithm is proposed for blind feedforward symbol timing estimation in time...
Carrier- and data-blind recovery of the sym- bol timing is of paramount importance in digital receiv...
By exploiting the received signal’s second-order cyclostationary statistics, blind algorithms have b...
This paper deals with the compensation of the self-noise (jitter) in a nondata aided (blind) feedfor...
This paper is concerned with the derivation of new estimators and performance bounds for the problem...
A low-complexity blind timing algorithm is proposed to estimate timing offset in OFDM systems when m...
This paper provides a systematic approach to the problem of nondata aided symbol-timing estimation f...
This paper presents three symbol timing estimation techniques, using DSP (digital signal processing)...
In this paper, an estimated weighting factor and two symbol timing estimators are proposed for timin...
This work provides a general framework for the design of second-order blind estimators without adopt...
The conditional maximum likelihood (CML) principle, well known in the context of sensor array proces...
Feedforward algorithms are investigated for estimating carrier frequency, carrier phase and symbol t...
Abstract — In this letter, all the previously proposed digital blind feedforward symbol timing estim...
This paper presents a general feedforward symbol-timing estimation framework based on the conditiona...
This paper deals with the problem of blind symbol timing estima-tion with M-ary phase-shift keying s...
A simple low-complexity algorithm is proposed for blind feedforward symbol timing estimation in time...
Carrier- and data-blind recovery of the sym- bol timing is of paramount importance in digital receiv...
By exploiting the received signal’s second-order cyclostationary statistics, blind algorithms have b...
This paper deals with the compensation of the self-noise (jitter) in a nondata aided (blind) feedfor...
This paper is concerned with the derivation of new estimators and performance bounds for the problem...
A low-complexity blind timing algorithm is proposed to estimate timing offset in OFDM systems when m...
This paper provides a systematic approach to the problem of nondata aided symbol-timing estimation f...
This paper presents three symbol timing estimation techniques, using DSP (digital signal processing)...
In this paper, an estimated weighting factor and two symbol timing estimators are proposed for timin...
This work provides a general framework for the design of second-order blind estimators without adopt...
The conditional maximum likelihood (CML) principle, well known in the context of sensor array proces...
Feedforward algorithms are investigated for estimating carrier frequency, carrier phase and symbol t...