Title :
Reduced-rank widely linear precoding in Massive MIMO systems with I/Q imbalance
Author :
Zhang, Wensheng ; de Lamare, Rodrigo C. ; Ming Chen
Author_Institution :
Nat. Mobile Commun. Res. Lab. (NCRL), Southeast Univ., Nanjing, China
Abstract :
We present reduced-rank widely linear precoding algorithms for Massive MIMO systems with I/Q imbalance (IQI). With a large number of transmit antennas, the imperfection I/Q branches at the transmitter has a significant impact on the downlink performance. We develop linear precoding techniques using an equivalent real-valued model to mitigate IQI and multiuser interference. In order to reduce the computational complexity required by the matrix inverse, a widely linear reduced-rank precoding strategy based on the Krylov subspace (KS) is devised. Simulation results show that the proposed methods work well under IQI, and the KS precoding algorithm performs almost as well as the full-rank precoder while requiring much lower complexity.
Keywords :
MIMO communication; computational complexity; matrix inversion; multiuser channels; precoding; radiofrequency interference; transmitting antennas; I-Q imbalance; IQI interference mitigation; KS precoding algorithm; Krylov subspace; computational complexity reduction; downlink performance; equivalent real-valued model; massive MIMO systems; matrix inverse; multiuser interference mitigation; reduced-rank widely linear precoding algorithms; transmit antennas; Antennas; Bit error rate; Complexity theory; Downlink; MIMO; Signal to noise ratio; Vectors; I/Q imbalance; Krylov subspace; Massive MIMO; widely linear precoding;
Conference_Titel :
Signal Processing Conference (EUSIPCO), 2014 Proceedings of the 22nd European
Conference_Location :
Lisbon
