Title :
Capacity Bounds for MIMO Microwave Backhaul Links Affected by Phase Noise
Author :
Durisi, Giuseppe ; Tarable, Alberto ; Camarda, Christian ; Devassy, Rahul ; Montorsi, Guido
Author_Institution :
Dept. of Signals & Syst., Chalmers Univ. of Technol., Gothenburg, Sweden
Abstract :
We present bounds and a closed-form high-SNR expression for the capacity of multiple-antenna systems affected by Wiener phase noise. Our results are developed for the scenario where a single oscillator drives all the radio-frequency circuitries at each transceiver (common oscillator setup), the input signal is subject to a peak-power constraint, and the channel matrix is deterministic. This scenario is relevant for line-of-sight multiple-antenna microwave backhaul links with sufficiently small antenna spacing at the transceivers. For the 2×2 multiple-antenna case, for a Wiener phase-noise process with standard deviation equal to 6°, and at the medium/high SNR values at which microwave backhaul links operate, the upper bound reported in the paper exhibits a 3dB gap from a lower bound obtained using 64-QAM. Furthermore, in this SNR regime the closed-form high-SNR expression is shown to be accurate.
Keywords :
MIMO communication; microwave antenna arrays; oscillators; quadrature amplitude modulation; stochastic processes; transceivers; 64-QAM; MIMO microwave backhaul links; SNR values; Wiener phase-noise process; antenna spacing; capacity bounds; channel matrix; closed-form high-SNR expression; line-of-sight multiple-antenna microwave backhaul links; microwave backhaul links; multiple-antenna case; multiple-antenna systems capacity; oscillator drives; oscillator setup; peak-power constraint; phase noise; radio-frequency circuitries; standard deviation; transceiver; MIMO; Microwave circuits; Microwave oscillators; Phase noise; Signal to noise ratio; Upper bound; Phase noise; Wiener process; capacity; microwave backhaul links;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2014.012014.130745
