Title :
Channel estimation for adaptive frequency-domain equalization
Author :
Morelli, Michele ; Sanguinetti, Luca ; Mengali, Umberto
Author_Institution :
Dept. of Inf. Eng., Univ. of Pisa, Italy
Abstract :
Frequency-domain equalization (FDE) is an effective technique for high-rate wireless communications because of its reduced complexity compared to conventional time-domain equalization (TDE). In this paper, we consider adaptive FDE for single-carrier (SC) systems with explicit channel and noise-power estimation. The channel response is estimated in the frequency domain following two different approaches. The first operates independently on each frequency bin while the second exploits the fading correlation across the signal bandwidth. Least-mean-square (LMS) and recursive-least-square (RLS) algorithms are employed to update the channel estimates. The noise power is estimated using a low-complexity algorithm based on ad hoc reasoning. Compared to other existing receivers employing adaptive FDE, the proposed schemes have better error-rate performance and can be used even in the presence of relatively fast fading.
Keywords :
adaptive equalisers; channel estimation; fading channels; frequency-domain analysis; least mean squares methods; recursive estimation; time-domain analysis; wireless channels; adaptive frequency-domain equalization; channel estimation; channel fading correlation; channel response; channel tracking; least-mean-square method; low-complexity algorithm; noise-power estimation; recursive-least-square algorithm; single-carrier system; time-domain equalization; wireless communication; Adaptive equalizers; Bandwidth; Channel estimation; Fading; Frequency domain analysis; Frequency estimation; Least squares approximation; Resonance light scattering; Time domain analysis; Wireless communication; Channel estimation; channel tracking; frequency-domain equalization (FDE);
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2005.853896
