A simple low-complexity algorithm is proposed for blind feedforward symbol timing estimation in time-varying flat-fading channels, assuming constant modulus signalling. Its important properties are brought out using asymptotic analysis. It is shown that at high Signal-to-Noise Ratios (SNRs), the algorithm results in a timing estimate with negligible bias. It also has a Mean-Square-Error (MSE) performance that is superior for short data records and small roll-off factors to that of the Square-Law-(SQL-) and the CycloStationarity-(CS-) based algorithms available to date. Computer simulations are presented to demonstrate effectiveness of the algorithm
Abstract ─ In this paper, symbol timing recovery for con-tinuous phase modulated signals is investig...
In non-cooperative communication, signal parameters are unknown at the receiver front-end. This envi...
This paper deals with the compensation of the self-noise (jitter) in a nondata aided (blind) feedfor...
This paper presents a general feedforward symbol-timing estimation framework based on the conditiona...
By exploiting the received signal’s second-order cyclostationary statistics, blind algorithms have b...
This paper deals with the problem of blind symbol timing estima-tion with M-ary phase-shift keying s...
A low-complexity blind timing algorithm is proposed to estimate timing offset in OFDM systems when m...
In this correspondence, we consider the problem of blind symbol timing (ST) estimation for pulse-sha...
Carrier- and data-blind recovery of the sym- bol timing is of paramount importance in digital receiv...
Abstract—The development of low-complexity blind techniques for equalization, timing and carrier off...
The development of low-complexity blind techniques for equalization, timing and carrier offset recov...
In this paper, we consider blind data detection for OFDM transmission over block fading channels. Sp...
In this letter, all the previously proposed digital blind feedforward symbol timing estimators emplo...
In this paper, an accurate and computationally efficient algorithm is proposed for estimating time-v...
Abstract—In this paper, we consider training-based symbol timing synchronization for continuous phas...
Abstract ─ In this paper, symbol timing recovery for con-tinuous phase modulated signals is investig...
In non-cooperative communication, signal parameters are unknown at the receiver front-end. This envi...
This paper deals with the compensation of the self-noise (jitter) in a nondata aided (blind) feedfor...
This paper presents a general feedforward symbol-timing estimation framework based on the conditiona...
By exploiting the received signal’s second-order cyclostationary statistics, blind algorithms have b...
This paper deals with the problem of blind symbol timing estima-tion with M-ary phase-shift keying s...
A low-complexity blind timing algorithm is proposed to estimate timing offset in OFDM systems when m...
In this correspondence, we consider the problem of blind symbol timing (ST) estimation for pulse-sha...
Carrier- and data-blind recovery of the sym- bol timing is of paramount importance in digital receiv...
Abstract—The development of low-complexity blind techniques for equalization, timing and carrier off...
The development of low-complexity blind techniques for equalization, timing and carrier offset recov...
In this paper, we consider blind data detection for OFDM transmission over block fading channels. Sp...
In this letter, all the previously proposed digital blind feedforward symbol timing estimators emplo...
In this paper, an accurate and computationally efficient algorithm is proposed for estimating time-v...
Abstract—In this paper, we consider training-based symbol timing synchronization for continuous phas...
Abstract ─ In this paper, symbol timing recovery for con-tinuous phase modulated signals is investig...
In non-cooperative communication, signal parameters are unknown at the receiver front-end. This envi...
This paper deals with the compensation of the self-noise (jitter) in a nondata aided (blind) feedfor...