Title :
Joint data detection and phase recovery for downlink MC-2D-CDMA systems
Author :
Fa, Rui ; Xiao, Pei
Author_Institution :
Dept. of Electron., Univ. of York, York, UK
fDate :
9/1/2009 12:00:00 AM
Abstract :
The performance of a downlink synchronous MCCDMA system with joint frequency-time domain spreading (MC-2D-CDMA) is investigated in this paper. We propose a two dimensional adaptive minimum mean square error (MMSE) receiver, which works in decision-directed mode after an initial training period. A subcarrier phase tracker, which comprises a bank of phase locked-loops (PLLs), is employed in the receiver to track the fading phase variability. Furthermore, a simplified phase tracker structure is proposed to reduce the system complexity. The performance of the data detector and the behavior of the phase tracker are analyzed theorectically in this paper and are shown to match the simulation results. Both analysis and simulation indicate that the proposed system outperforms the conventional MC-DS-CDMA systems by exploiting frequency diversity and facilitating subcarrier synchronization.
Keywords :
Rayleigh channels; code division multiple access; communication complexity; least mean squares methods; phase locked loops; time-frequency analysis; decision-directed mode; downlink MC-2D-CDMA systems; downlink synchronous MCCDMA system; fading phase variability; frequency diversity; frequency-selective Rayleigh fading; joint data detection; joint frequency-time domain spreading; multicarrier code division multiple access; phase locked-loops; phase recovery; simplified phase tracker structure; simulation results; subcarrier phase tracker; subcarrier synchronization; system complexity; two dimensional adaptive minimum mean square error receiver; Analytical models; Detectors; Downlink; Fading; Frequency diversity; Mean square error methods; Multicarrier code division multiple access; Performance analysis; Phase detection; Phase locked loops; MC-2D-CDMA, adaptive receiver, two dimensional spreading, phase locked loops, frequency-selective Rayleigh fading.;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2009.09.080131
