DocumentCode
1445852
Title
A new receiver structure for asynchronous CDMA: STAR-the spatio-temporal array-receiver
Author
Affes, Sofiène ; Mermelstein, Paul
Author_Institution
INRS Telecommun., Verdun, Que., Canada
Volume
16
Issue
8
fYear
1998
fDate
10/1/1998 12:00:00 AM
Firstpage
1411
Lastpage
1422
Abstract
We propose a spatio-temporal array-receiver (STAR) for asynchronous code division multiple access (CDMA), using a new space/time structural approach. First, STAR performs blind identification and equalization of the propagation channel from each mobile transmitter. Second, it provides fast and accurate estimates of the number, relative magnitude, and delay of the multipath components. From this space/time separation, STAR reconstructs the identified channel with respect to a partially revealed space/time structure and reduces identification errors by the order of the ratio of the processing gain and the number of paths. Therefore, STAR offers a high potential for increasing capacity, with relatively low computational complexity. Simulations confirm the good multipath acquisition and tracking properties of STAR in the presence of strong interference and fast Doppler
Keywords
adaptive antenna arrays; array signal processing; blind equalisers; cellular radio; code division multiple access; computational complexity; delay estimation; direction-of-arrival estimation; multipath channels; receiving antennas; space-time adaptive processing; STAR; asynchronous CDMA; blind equalization; blind identification; cellular communications; code division multiple access; delay; fast Doppler; identification errors; interference; low computational complexity; mobile transmitter; multipath acquisition; multipath components; partially revealed space/time structure; processing gain; propagation channel; receiver structure; relative magnitude; simulations; smart antennas; space/time separation; space/time structural approach; spatio-temporal array-receiver; tracking properties; Array signal processing; Blind equalizers; Delay estimation; Frequency domain analysis; Frequency synchronization; Multiaccess communication; Phase change materials; Space technology; Spread spectrum communication; Wireless communication;
fLanguage
English
Journal_Title
Selected Areas in Communications, IEEE Journal on
Publisher
ieee
ISSN
0733-8716
Type
jour
DOI
10.1109/49.730450
Filename
730450
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