High-Diversity Bandwidth-Efficient Space-Time Block Coded Differential Spatial Modulation

Abstract

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By choosing indexes of antennas, differential spatial modulation (DSM) transmits additional data bits without increasing power consumption, radio-frequency circuits, and pilot overhead. Space-time block coded DSM (STBC-DSM) is a DSM scheme combined with STBC to enhance diversity. In our earlier work, we propose a bandwidth-efficient STBC-DSM (BE-STBC-DSM) scheme, which interleaves the transmitted symbols. However, the transmit diversity order of existing STBC-DSM schemes is only two. In this paper, we propose an STBC-DSM scheme whose transmit diversity order is four, called high-diversity BE-STBC-DSM (HD-BE-STBC-DSM), by replacing the $2\times 2$ STBC with a full-diversity $4\times 4$ STBC in BE-STBC-DSM. Because the interleaving patterns in the original BE-STBC-DSM cannot be utilized in HD-BE-STBC-DSM, we need to find new interleaving patterns for HD-BE-STBC-DSM. We propose a novel interleaving type, intra-block interleaving, and propose a new design method that differs from the BE-STBC-DSM method. In addition, we propose inter-block interleaving and search patterns of inter-block interleaving. Compared with other DSM schemes with the same diversity order, HD-BE-STBC-DSM is much more spectrally efficient. In addition, HD-BE-STBC-DSM offers the best error performance at high signal-to-noise ratios among all STBC-DSM schemes.

Keywords

• Differential spatial modulation
• diversity
• space-time block code