Estimation of MC-DS-CDMA Fading Channels Based on Kalman Filtering with High Order Autoregressive Models

Estimation of MC-DS-CDMA Fading Channels Based on Kalman Filtering with High Order Autoregressive Models

This paper deals with the estimation of rapidly time- varying Rayleigh fading channels in synchronous multi-carrier direct-sequence code division multiple access (MC-DS-CDMA) systems. When the fading channel is approximated by an autoregressive (AR) process, it can be estimated by means of Kalman fi...

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Bibliographic Details
Published in:2006 Proceedings of the First Mobile Computing and Wireless Communication International Conference pp. 145 - 149
Main Authors: Hassasneh, W., Jamoos, A., Grivel, E., Nour, H.A.
Format: Conference Proceeding
Language:English
Published: IEEE 01-09-2006
Subjects:
Autocorrelation
Autoregressive processes
Bit error rate
Equations
Fading
Filtering
Jakes model
Kalman filters
Least squares approximation
MC-DS-CDMA
Multiaccess communication
Parameter estimation
Rayleigh fading channels
Resonance light scattering
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Summary:This paper deals with the estimation of rapidly time- varying Rayleigh fading channels in synchronous multi-carrier direct-sequence code division multiple access (MC-DS-CDMA) systems. When the fading channel is approximated by an autoregressive (AR) process, it can be estimated by means of Kalman filtering for instance. Nevertheless, this requires the a priori estimation of the AR parameters. One standard solution consists in first fitting the AR process autocorrelation function to the Jakes one and then solving the resulting Yule-Walker equations (YWE). However, due to the band-limited nature of the Jakes Doppler spectrum, severely ill-conditioned YWE are unavoidable for all but very small AR model orders. Therefore, previous studies focused only on 1 st and 2 nd order AR models. To overcome the ill-conditioning problem, a very small positive bias can be added to the main diagonal of the autocorrelation matrix in the YWE. Even if the resulting process is not band-limited and corresponds to an AR process+noise model, the approximation can be of interest. Indeed, according to our simulation results, high-order AR models+noise yield significant results in terms of spectrum approximation and bit error rate (BER). However, to reduce the computational cost, a 5 th order AR model can be considered.
ISBN:9789957486006
9957486004
DOI:10.1109/MCWC.2006.4375212