This paper presents a new framework for designing decentralized rank-1 pre-coders in MIMO interference channel. The proposed pre-coders aim to separate the received signal points corresponding to different bits into distinct clusters at every receiver. This is accomplished by minimizing the overlaps between conditional probability density functions (PDFs) given the sent bits, which is shown to be equivalent to maximizing the weighted Euclidean distance between the signal points. This formulation is shown to be synonymous to minimizing an upper bound to the probability of error or maximizing the approximated Bhattacharya distances of the conditional PDFs. When full channel state information (CSI) is given at all transmitters and receivers, our design is shown to offer significant performance gain over a wide range of SNR when compared to other pre-coder designs in the literature. We also extend our pre-coder design to the case when transmitters only have partial CSI in an arbitrary form. When the partial CSI is given in the form of quantized levels of channel coefficients, our design is shown to retain considerable performance gain as we partition the channel coefficients with finer resolutions.


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    Title :

    MIMO Pre-Coder Design Based on Weighted Euclidean Distance Maximization in Interference Channel


    Contributors:
    Luo, Peng (author) / Pang, Bo (author) / Kim, Yong Jin Daniel (author)


    Publication date :

    2018-08-01


    Size :

    428981 byte





    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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