Decision feedback equalization for CDMA in indoor wireless communications

Commercial interest in Code Division Multiple Access (CDMA) systems has risen dramatically in the last few years. It yields a potential increase in capacity over other access schemes, because it provides protection against interference, multipath, fading, and jamming. Recently, several interference cancellation schemes for CDMA have been proposed but they require information about all interfering active users or some channel parameters. The authors present an adaptive fractionally spaced decision feedback equalizer (DFE) for a CDMA system in an indoor wireless Rayleigh fading environment. This system only uses information about the desired user's spreading code and a training sequence. An analysis on the optimum performance of the DFE receiver shows the advantages of this system over others in terms of capacity improvements. A simulation of this system is also presented to study the convergence properties and implementation considerations of the DFE receiver. Effects on the performance because of sudden birth and death of users in the CDMA system and bit error rate performance of the DFE receiver is also presented. >

[1]  David D. Falconer,et al.  Minimum Mean Square Equalization in Cyclostationary and Stationary Interference-Analysis and Subscriber Line Calculations , 1991, IEEE J. Sel. Areas Commun..

[2]  U. Madhow,et al.  Minimum mean squared error interference suppression for direct-sequence spread-spectrum code-division multiple-access , 1992, 1st International Conference on Universal Personal Communications - ICUPC '92 Proceedings.

[3]  G.L. Turin,et al.  Introduction to spread-spectrum antimultipath techniques and their application to urban digital radio , 1980, Proceedings of the IEEE.

[4]  U. Madhow,et al.  Error probability and near-far resistance of minimum mean squared error interference suppression schemes for CDMA , 1992, [Conference Record] GLOBECOM '92 - Communications for Global Users: IEEE.

[5]  Asrar U. H. Sheikh,et al.  DFE convergence for interference cancellation in spread spectrum multiple access systems , 1993, IEEE 43rd Vehicular Technology Conference.

[6]  Klein S. Gilhousen,et al.  On the system design aspects of code division multiple access (CDMA) applied to digital cellular and personal communications networks , 1991, [1991 Proceedings] 41st IEEE Vehicular Technology Conference.

[7]  Asrar U. H. Sheikh,et al.  Advances in Equalization and Diversity for Portable Wireless Systems , 1993 .

[8]  David D. Falconer,et al.  Cyclostationary Crosstalk Suppression by Decision Feedback Equalization on Digital Subscriber Loops , 1992, IEEE J. Sel. Areas Commun..

[9]  Asrar U. H. Sheikh,et al.  Equalization for interference cancellation in spread spectrum multiple access systems , 1992, [1992 Proceedings] Vehicular Technology Society 42nd VTS Conference - Frontiers of Technology.

[10]  Sergio Verdú,et al.  Near-far resistance of multiuser detectors in asynchronous channels , 1990, IEEE Trans. Commun..

[11]  Andrew J. Viterbi,et al.  On the capacity of a cellular CDMA system , 1991 .

[12]  Hideki Imai,et al.  Combination of an Adaptive Array Antenna and a Canceller of Interference for Direct-Sequence Spread-Spectrum Multiple-Access System , 1990, IEEE J. Sel. Areas Commun..

[13]  Craig K. Rushforth,et al.  A Family of Suboptimum Detectors for Coherent Multiuser Communications , 1990, IEEE J. Sel. Areas Commun..