Adaptive recursive algorithm for complementary subspace-based blind multiuser detection

A novel blind adaptive multiuser detection scheme, the linear decorrelating detector (LDD), based on a concept of the complementary subspace is proposed. Under this scheme, the information bits can be estimated from the received signal with the prior knowledge of the desired user's signature wa...

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Vydáno v:IEEE transactions on circuits and systems. 2, Analog and digital signal processing Ročník 48; číslo 12; s. 1132 - 1136
Hlavní autoři: Wen, Jyh-Horng, Wen, Chao-Kai
Médium: Journal Article
Jazyk:angličtina
Vydáno: New York IEEE 01.12.2001
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Témata:
Chaos
Computational complexity
Decorrelation
Detectors
Interference
Multiaccess communication
Multiuser detection
Power system reliability
Studies
Time division multiple access
Timing
ISSN:1057-7130, 1558-125X
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Shrnutí:A novel blind adaptive multiuser detection scheme, the linear decorrelating detector (LDD), based on a concept of the complementary subspace is proposed. Under this scheme, the information bits can be estimated from the received signal with the prior knowledge of the desired user's signature waveform and its timing. The technique has two key elements: a geometric notion of the LDD and the subspace-based concept to estimate the orthogonal complement of the interfering space. It is then shown that the LDD can be formulated in terms of the interference space constructed from the received signal, and the desired user's signature waveform. The interference space components can be adaptively estimated using the modified power-based methods with only O((K-1) N) flops of computation at each iteration, where N is the processing gain, and K is the number of active users in the channel. The novel blind adaptive detector offers lower computational complexity. The proposed blind multiuser detection offers the optimal near-far resistance, low computational complexity, and resistance against the orthogonality error of the estimated interference space.
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ISSN:1057-7130
1558-125X
DOI:10.1109/82.988938