English

Rank-one Detector for Kronecker-Structured Constant Modulus Constellations

Signal Processing 2020-06-05 v2

Abstract

To achieve a reliable communication with short data blocks, we propose a novel decoding strategy for Kronecker-structured constant modulus signals that provides low bit error ratios (BERs) especially in the low energy per bit to noise power spectral density ratio (Eb/N0)(E_b/N_0). The encoder exploits the fact that any M-PSK constellation can be factorized as Kronecker products of lower or equal order PSK constellation sets. A construction of two types of schemes is first derived. For such Kronecker-structured schemes, a conceptually simple decoding algorithm is proposed, referred to as Kronecker-RoD (rank-one detector). The decoder is based on a rank-one approximation of the "tensorized" received data block, has a built-in noise rejection capability and a smaller implementation complexity than state-of-the-art detectors. Compared with convolutional codes with hard and soft Viterbi decoding, Kronecker-RoD outperforms the latter in BER performance at same spectral efficiency.

Keywords

Cite

@article{arxiv.2001.02743,
  title  = {Rank-one Detector for Kronecker-Structured Constant Modulus Constellations},
  author = {Fazal-E-Asim and André L. F. de Almeida and Martin Haardt and Charles C. Cavalcante and Josef A. Nossek},
  journal= {arXiv preprint arXiv:2001.02743},
  year   = {2020}
}
R2 v1 2026-06-23T13:06:25.611Z