Title :
Efficient matrix volume control to maximize correlated MIMO channel capacity
Author :
Iqba, Naveed ; Schneider, Christian ; Ahmad, Waqas
Author_Institution :
Ilmenau Univ. Of Technol., Ilmenau, Germany
Abstract :
Within this contribution we have focused on selection of number of active RF chains under particular channel correlation and SNR dynamics. Study is based on maximizing the volume of the submatrix to be selected. We have proposed a maximum volume submatrix selection (MVC) procedure, that determines the cardinality of number of transmit antennas to be used followed by low complexity greedy subset selection algorithm. Cardinality of the transmit antennas is determined such that mutual information is maximized under particular modulation order. We have observed that for low correlation setups higher number of RF chains are required as compared to high correlation dynamics. Monte carlo simulations validate that performance of our proposed MVC algorithm is very close to optimal water-filling solution for capacity maximization.
Keywords :
MIMO communication; Monte Carlo methods; antenna arrays; channel capacity; matrix algebra; transmitting antennas; MVC procedure; Monte carlo simulations; SNR dynamics; active RF chains; capacity maximization; correlated MIMO channel capacity; low complexity greedy subset selection algorithm; matrix volume control; maximum volume submatrix selection procedure; modulation order; optimal water-filling solution; transmit antennas; Correlation; MIMO; Radio frequency; Receiving antennas; Signal to noise ratio; Transmitting antennas; Antenna subset selection; Link adaptation; capacity maximization; correlation; multiple inputs multiple outputs (MIMO); spatial multiplexing;
Conference_Titel :
Communication, Networks and Satellite (COMNETSAT), 2014 IEEE International Conference on
Print_ISBN :
978-1-4799-5190-1
DOI :
10.1109/COMNETSAT.2014.7050515
