By exploiting the received signal’s second-order cyclostationary statistics, blind algorithms have been recently proposed for joint estimation of the frequency offset and the symbol timing delay of a linearly modulated waveform transmitted through a flat-fading channel. The goal of this paper is to establish and analyze the asymptotic (large sample) performance of the Gini-Giannakis [4] and Ghogho-Swami-Durrani [3] estimators as a function of the pulse shape bandwidth and the oversampling factor. It is shown that the performance of these estimators improves as the pulse shape bandwidth increases, and the best performance is obtained by selecting small values for the oversampling factor. 1
We present a blind coarse timing offset estimation technique for CP-OFDM and ZP-OFDM transmission ov...
International audienceWe address the blind equalization of a telecommunication signal, the character...
The demand for reliable high rate and efficient communication is ever increasing. In this thesis we ...
A simple low-complexity algorithm is proposed for blind feedforward symbol timing estimation in time...
In this correspondence, we consider the problem of blind symbol timing (ST) estimation for pulse-sha...
A low-complexity blind timing algorithm is proposed to estimate timing offset in OFDM systems when m...
This paper is concerned with the performance analysis of a blind method for carrier frequency offset...
Carrier- and data-blind recovery of the sym- bol timing is of paramount importance in digital receiv...
This paper focuses on performance bounds for estimating the frequency and the phase of a received si...
In this letter we present new and simple closed form expressions for the true Cramer-Rao lower bound...
In this paper, an estimated weighting factor and two symbol timing estimators are proposed for timin...
We address the blind equalization of a telecommunica-tion signal, the characteristics of which are t...
This paper derives the Cramer--Rao bound (CRB) related to the estimation of the time delay of a line...
In this letter, all the previously proposed digital blind feedforward symbol timing estimators emplo...
We present two new blind symbol time and carrier frequency offset estimators for OFDM systems, in a ...
We present a blind coarse timing offset estimation technique for CP-OFDM and ZP-OFDM transmission ov...
International audienceWe address the blind equalization of a telecommunication signal, the character...
The demand for reliable high rate and efficient communication is ever increasing. In this thesis we ...
A simple low-complexity algorithm is proposed for blind feedforward symbol timing estimation in time...
In this correspondence, we consider the problem of blind symbol timing (ST) estimation for pulse-sha...
A low-complexity blind timing algorithm is proposed to estimate timing offset in OFDM systems when m...
This paper is concerned with the performance analysis of a blind method for carrier frequency offset...
Carrier- and data-blind recovery of the sym- bol timing is of paramount importance in digital receiv...
This paper focuses on performance bounds for estimating the frequency and the phase of a received si...
In this letter we present new and simple closed form expressions for the true Cramer-Rao lower bound...
In this paper, an estimated weighting factor and two symbol timing estimators are proposed for timin...
We address the blind equalization of a telecommunica-tion signal, the characteristics of which are t...
This paper derives the Cramer--Rao bound (CRB) related to the estimation of the time delay of a line...
In this letter, all the previously proposed digital blind feedforward symbol timing estimators emplo...
We present two new blind symbol time and carrier frequency offset estimators for OFDM systems, in a ...
We present a blind coarse timing offset estimation technique for CP-OFDM and ZP-OFDM transmission ov...
International audienceWe address the blind equalization of a telecommunication signal, the character...
The demand for reliable high rate and efficient communication is ever increasing. In this thesis we ...