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Multiple Finger Expansion for Blind Interference Canceller in the Presence of Subchip-Spaced Multipath Components  

Quek, Tony Q. S. (Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology)
Suzuki, Hiroshi (Department of Communications and Integrated Systems, Tokyo Institute of Technology)
Fukawa, Kazuhiko (Department of Communications and Integrated Systems, Tokyo Institute of Technology)
Publication Information
Journal of Communications and Networks / v.6, no.1, 2004 , pp. 26-34 More about this Journal
Abstract
A blind interference canceller in the presence of subchipspaced multipath channels for direct-sequence code division multiple access (DS-CDMA) down-link system is considered. This technique is based on combining the existing blind interference canceller with a technique that involves assigning subchip-tap spacing to the Rake receiver. The proposed receiver minimizes the receiver’s output energy subject to a constraint in order to mitigate the multiple access interference (MAI) along each multipath component, and then suboptimally combining all the multipath components. Moreover, it is able to mitigate the mismatch problem when subchip-spaced multipath components arrive at the blind interference canceller. It is known that optimal combining techniques perform a decorrelation operation before combining, which requires both knowledge and computational complexity. In the following, we have adopted a simpler but suboptimum approach in the combining of the suppressed signals at the output of our proposed receiver. Computer simulation results verify the effectiveness of the proposed receiver to handle subchip-spaced multipath components and still suppresses MAI significantly.
Keywords
Blind interference canceller; rake; MAI; mismatch problem subchip-spaced multipath channels;
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