Abstract
The application of OFDM within a multi-user downlink scenario is considered. Thereby, two problems occur. First, due to OFDM, the transmit signal exhibits a large peak-to-average power ratio (PAR). Second, the multi-user interferences have to be equalized (or precoded) at the transmitter side. In this article, we address combined precoding and PAR reduction. As precoding schemes sorted Tomlinson-Harashima precoding (sTHP) and its lattice-reduction-aided variant (LRA-THP) are considered. In order to reduce the PAR, we review the scheme selected sorting (SLS), which is a combined approach of PAR reduction and precoding with sTHP. Based on this idea, the novel PAR reduction scheme selected basis (SLB) is introduced which combines PAR reduction with the precoding approach LRA-THP. It can be shown that SLB achieves very good PAR reduction performance and hardly influences the error performance. Both schemes, SLB and SLS, are compared with simplified selected mapping (sSLM), the only PAR reduction scheme from the SLM family, which can be applied in multi-user downlink scenarios. The comparison is done on the basis that the respective schemes exhibit the same computational complexity. In terms of PAR reduction performance, it turns out that sSLM outperforms SLS, whereas the performance of sSLM and SLB is similar. Noteworthy, the great benefit of SLB or SLS is that no side information has to be communicated to the receiver as it is necessary with sSLM. Moreover, using SLB, full diversity error rate performance is possible with only low-PAR transmit signals.
Highlights
Orthogonal frequency-division multiplexing (OFDM) [1] is a very popular scheme for equalizing the temporal interferences caused by frequency-selective channels
In this article we introduce a combination of peak-to-average power ratio (PAR) reduction with latticereduction aided THP (LRA-THP)
Selected basis The idea of generating signal candidates with selected sorting may straightforwardly be extended to the case of LRA-THP as well, where the pure permutation is replaced by an unimodular matrix Zopt,d
Summary
Orthogonal frequency-division multiplexing (OFDM) [1] is a very popular scheme for equalizing the temporal interferences caused by frequency-selective channels. Review of selected mapping in multi-antenna environments In the literature, selected mapping (SLM) [2] is one of the most popular techniques for PAR reduction in OFDM systems The idea behind this scheme is, given the original OFDM frame, to generate several, say USLM, different signal representations via USLM different bijective mappings. Compared to sSLM, assuming perfect transmission of the side information, this scheme will exhibit a small loss in error performance as suboptimal sorting orders are used to generate the signal candidates. Selected basis The idea of generating signal candidates with selected sorting may straightforwardly be extended to the case of LRA-THP as well, where the pure permutation is replaced by an unimodular matrix Zopt,d.
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