Adaptive CDMA receiver implementation for multipath and multiuser environments

Author

Lucke, L. ; Nelson, L. ; Oie, H.

Author_Institution

Dept. of Electr. Eng., Minnesota Univ., Minneapolis, MN, USA

fYear

1996

fDate

30 Oct-1 Nov 1996

Firstpage

159

Lastpage

168

Abstract

We present serial and parallel architectures for an LMS adaptive filter implementation of the minimum-mean-square-error adaptive CDMA receiver. These architectures use fixed-point numbers to represent the variables and 2-bit representation of the input signal to reduce the complexity of the arithmetic operations. We simulate the bit error rate of these architectures to study their performance in near-far and multipath environments. The simulations are used to determine the optimal wordlengths. Simulation results show that the performance of this reduced-complexity digital adaptive filter is compatible with that of the analog one using sufficient numbers of bits and it is much better than that of the conventional matched filter

Keywords

adaptive filters; adaptive signal processing; cellular radio; code division multiple access; digital arithmetic; filtering theory; least mean squares methods; multipath channels; parallel architectures; pipeline arithmetic; radio receivers; 2-bit representation; LMS adaptive filter; adaptive CDMA receiver; arithmetic operations; bit error rate; cellular communications; fixed-point numbers; input signal; minimum mean square error; multipath environments; multiuser environments; near-far environments; optimal wordlengths; parallel architectures; reduced complexity digital adaptive filter; serial architectures; simulation results; simulations; Adaptive filters; Bit error rate; Demodulation; Equations; Error correction; Fixed-point arithmetic; Interference; Least squares approximation; Multiaccess communication; Time division multiple access;

fLanguage

English

Publisher

ieee

Conference_Titel

VLSI Signal Processing, IX, 1996., [Workshop on]

Conference_Location

San Francisco, CA

Print_ISBN

0-7803-3134-6

Type

conf

DOI

10.1109/VLSISP.1996.558320

Filename

558320