DocumentCode
3180877
Title
Communication capacity of sectored CDMA systems
Author
Xiao, Yang ; Han, Hui-hua ; Huang, Cai-hong ; Habermann, Joachim
Author_Institution
Inst. of Inf. Sci., Northern Jiaotong Univ., Beijing, China
Volume
2
fYear
2002
fDate
26-30 Aug. 2002
Firstpage
1286
Abstract
This paper shows that the communication capacity of CDMA systems can be enlarged further, by adopting array antennas, which involves a joint multiuser detection approach that is based on CDMA codes and their spatial information. In contrast to SDMA-CDMA systems the CDMA systems with array antennas in this paper do not have spatial coding, since it causes the frequent spatial handoff problem. Thus the new CDMA systems can be of much higher communication capacity than the CDMA systems which are not sectored. Analyzing the array pattern of array antennas, we show that the interference of other sectors, also multiple access interference (MAI), can be effectively suppressed by the array antennas for a CDMA system to be sectored by array antennas. The design and analysis of WLS multiuser detector in the new CDMA systems is presented to detect CDMA signals with different spatial information. Simulations show that a sectored CDMA system can be of better SINR (signal to inference plus noise ratio) and BER (bit error rate) performance even it has three times the users compared. to the number of cells of present CDMA systems.
Keywords
antenna arrays; antenna radiation patterns; cellular radio; channel capacity; code division multiple access; error statistics; interference suppression; multiuser detection; BER; CDMA codes; SINR; WLS multiuser detector; array antennas; array pattern; bit error rate; cells; communication capacity; interference suppression; joint multiuser detection; sectored CDMA systems; signal to inference plus noise ratio; spatial information; Antenna arrays; Bit error rate; Information analysis; Interference suppression; Multiaccess communication; Multiple access interference; Multiuser detection; Pattern analysis; Signal design; Signal to noise ratio;
fLanguage
English
Publisher
ieee
Conference_Titel
Signal Processing, 2002 6th International Conference on
Print_ISBN
0-7803-7488-6
Type
conf
DOI
10.1109/ICOSP.2002.1180027
Filename
1180027
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