Title :
Prediction for time-varying SVD systems
Author :
Spiteri, S. ; Lebrun, G. ; Faulkner, M.
Author_Institution :
Australian Telecommun. Cooperative Res. Centre, Victoria Univ., Melbourne, Vic., Australia
Abstract :
The performance of a system using singular value decomposition (SVD) over a multiple-input multiple-output (MIMO) channel is dependent on the accuracy of the channel state information (CSI) at both the transmitter and receiver. In time division duplex (TDD) systems the reciprocal nature of a channel means that the CSI obtained during the uplink can be applied to data transmission on the downlink. However, for a time-varying channel the estimated CSI at the transmitter is incorrect due to an inherent delay between the estimation of the CSI and the transmission of data. This severely degrades typical SVD system performance. This paper proposes to reduce this degradation through prediction of the CSI. Prediction can also be applied to the preceding matrix. However, when using a finite impulse response (FIR) filter the best performance occurs when prediction is applied to the CSI followed by the SVD.
Keywords :
FIR filters; MIMO systems; data communication; matrix algebra; singular value decomposition; time division multiplexing; time-varying channels; CSI; FIR; MIMO; SVD systems; TDD; channel state information; data transmission; finite impulse response filter; multiple-input multiple-output channel; precoding matrix; singular value decomposition; time division duplex; time-varying channel; Channel state information; Data communication; Degradation; Delay estimation; Downlink; Finite impulse response filter; MIMO; Singular value decomposition; Time varying systems; Transmitters;
Conference_Titel :
Personal, Indoor and Mobile Radio Communications, 2004. PIMRC 2004. 15th IEEE International Symposium on
Print_ISBN :
0-7803-8523-3
DOI :
10.1109/PIMRC.2004.1368271
