Title :
Least-squares iterative PAR reduction for point-to-point large-scale MIMO-OFDM systems
Author :
Wakeel, Abdul ; Henkel, Werner
Author_Institution :
Transm. Syst. Group (TrSyS), Jacobs Univ. Bremen, Bremen, Germany
Abstract :
This paper addresses peak-to-average ratio (PAR) reduction in orthogonal frequency division multiplexing (OFDM) based large-scale multiple-input multiple-output (MIMO) systems. We propose a new technique for PAR reduction in point-to-point scenarios. The last eigenchannels of a massive MIMO channel are often very weak. Not using them for data transmission will offer redundancy for PAR reduction. These eigenchannels are used to approximate the peaks which exceed a given target value in a least squares fashion. This approximate exceedence model is then subtracted from the original signal in time domain for PAR reduction. It has been shown through simulation results that a considerable gain can be obtained with the proposed method with marginal increase in the average power and almost negligible loss in the channel capacity.
Keywords :
MIMO communication; OFDM modulation; iterative methods; least squares approximations; wireless channels; approximate exceedence model; channel capacity; data transmission; eigenchannels; large-scale multiple-input multiple-output systems; least-squares iterative PAR reduction; massive MIMO channel; orthogonal frequency division multiplexing; peak-to-average ratio; point-to-point large-scale MIMO-OFDM systems; time domain; Least squares approximations; MIMO; Peak to average power ratio; Signal processing algorithms; Time-domain analysis; Vectors; Large-scale multiple-input multiple-output (MIMO); least squares estimation; orthogonal frequency division multiplexing (OFDM); peak-to-average ratio (PAR); precoding; singular value decomposition (SVD);
Conference_Titel :
Communications (ICC), 2014 IEEE International Conference on
Conference_Location :
Sydney, NSW
DOI :
10.1109/ICC.2014.6884053
