DocumentCode :
1369822
Title :
On Full Diversity Space–Time Block Codes With Partial Interference Cancellation Group Decoding
Author :
Guo, Xiaoyong ; Xia, Xiang-Gen
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Delaware, Newark, DE, USA
Volume :
55
Issue :
10
fYear :
2009
Firstpage :
4366
Lastpage :
4385
Abstract :
In this paper, we propose a partial interference cancellation (PIC) group decoding strategy/scheme for linear dispersive space-time block codes (STBC) and a design criterion for the codes to achieve full diversity when the PIC group decoding is used at the receiver. A PIC group decoding decodes the symbols embedded in an STBC by dividing them into several groups and decoding each group separately after a linear PIC operation is implemented. It can be viewed as an intermediate decoding between the maximum likelihood (ML) receiver that decodes all the embedded symbols together, i.e., all the embedded symbols are in a single group, and the zero-forcing (ZF) receiver that decodes all the embedded symbols separately and independently, i.e., each group has and only has one embedded symbol, after the ZF operation is implemented. The PIC group decoding provides a framework to adjust the complexity-performance tradeoff by choosing the sizes of the information symbol groups. Our proposed design criterion (group independence) for the PIC group decoding to achieve full diversity is an intermediate condition between the loosest ML full rank criterion of codewords and the strongest ZF linear independence condition of the column vectors in the equivalent channel matrix. We also propose asymptotic optimal (AO) group decoding algorithm which is an intermediate decoding between the MMSE decoding algorithm and the ML decoding algorithm. The design criterion for the PIC group decoding can be applied to the AO group decoding algorithm because of its asymptotic optimality. It is well-known that the symbol rate for a full rank linear STBC can be full, i.e., nt, for nt transmit antennas. It has been recently shown that its rate is upper bounded by 1 if a code achieves full diversity with a linear receiver. The intermediate criterion proposed in this paper provides the possibility for codes of rates between nt and 1 that achieve full diversity with the PIC group decodin- g. This therefore provides a complexity-performance-rate tradeoff. Some design examples are given.
Keywords :
block codes; decoding; diversity reception; interference suppression; linear codes; space-time codes; PIC group decoding; ZF linear independence; asymptotic optimal group decoding algorithm; full diversity space-time block codes; linear dispersive space-time block codes; maximum likelihood receiver; partial interference cancellation group decoding; zero-forcing receiver; Algorithm design and analysis; Block codes; Channel capacity; Dispersion; Filter bank; Interference cancellation; Maximum likelihood decoding; Nonlinear filters; Vectors; Wireless communication; Full diversity; group decoding; linear dispersion codes; partial interference cancellation; space–time block codes; zero-forcing;
fLanguage :
English
Journal_Title :
Information Theory, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9448
Type :
jour
DOI :
10.1109/TIT.2009.2027502
Filename :
5238734
Link To Document :
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