TY - GEN
T1 - Weighted sum-rate optimization for multiuser MIMO systems
AU - Shi, Shuying
AU - Schubert, Martin
AU - Boche, Holger
PY - 2007
Y1 - 2007
N2 - This paper focuses on transceiver design for sumrate optimization in multiuser MIMO systems with linear processing. Two design criteria are considered: one is to maximize the weighted sum-rate under a total power constraint and the other one is to minimize the total transmit power with a sum-rate requirement. We propose iterative algorithms, which perform optimization in an alternating manner in both virtual uplink and downlink channels. Each iteration contains the optimization of the uplink power, uplink receive Alter and downlink receive Alter. The power optimization to maximize the sum-rate is carried out by minimizing the product of MSEs, which can be formulated as a Geometric Programming (GP) problem. The proposed algorithms are proved to be convergent and outperform the existing schemes. Additionally, we show that this alternating optimization approach can be extended to the case with successive interference cancellation (SIC) in the uplink and interference precompensation (IPC) in the downlink as well. Simulation results show that the global optimum of sum-rate is achieved for all tested scenarios.
AB - This paper focuses on transceiver design for sumrate optimization in multiuser MIMO systems with linear processing. Two design criteria are considered: one is to maximize the weighted sum-rate under a total power constraint and the other one is to minimize the total transmit power with a sum-rate requirement. We propose iterative algorithms, which perform optimization in an alternating manner in both virtual uplink and downlink channels. Each iteration contains the optimization of the uplink power, uplink receive Alter and downlink receive Alter. The power optimization to maximize the sum-rate is carried out by minimizing the product of MSEs, which can be formulated as a Geometric Programming (GP) problem. The proposed algorithms are proved to be convergent and outperform the existing schemes. Additionally, we show that this alternating optimization approach can be extended to the case with successive interference cancellation (SIC) in the uplink and interference precompensation (IPC) in the downlink as well. Simulation results show that the global optimum of sum-rate is achieved for all tested scenarios.
KW - Multiuser MIMO
KW - Sum-rate maximization
KW - Transceiver design
UR - http://www.scopus.com/inward/record.url?scp=44049101364&partnerID=8YFLogxK
U2 - 10.1109/CISS.2007.4298342
DO - 10.1109/CISS.2007.4298342
M3 - Conference contribution
AN - SCOPUS:44049101364
SN - 1424410371
SN - 9781424410378
T3 - Forty-first Annual Conference on Information Sciences and Systems, CISS 2007 - Proceedings
SP - 425
EP - 430
BT - Forty-first Annual Conference on Information Sciences and Systems, CISS 2007 - Proceedings
T2 - 41st Annual Conference on Information Sciences and Systems, CISS 2007
Y2 - 14 March 2007 through 16 March 2007
ER -