Add to ORKGWe address the problem of jointly optimizing linear transmit and receive filters for a multi-user MIMO system, under the assumption that all users have individual Minimum-Mean-Square-Error (MMSE) requirements. Each user can perform spatial multiplexing with several data streams (layers). All users and layers are coupled by interference, so the choice of filters is intricately interwoven with the power allocation strategy. The design goal is to minimize the total power subject to MMSE constraints. This results in a non-convex problem formulation, for which we propose an iterative al-gorithm. The iteration consists of alternating optimization of powers, transmit filters and receive filters. We prove that the total required power obtained by t...
This correspondence revisits the joint transceiver optimization problem for multiple-input multiple-...
We study the geometry of the feasible MSE region of multiuser MIMO systems with fixed transmitters a...
We maximize the performance of multiple-input multiple-output (MIMO) multiple access channels (MAC) ...
We address the problem of jointly optimizing linear transmit and receive filters for a multi-user MI...
We study the problem of mean square error (MSE) transceiver design for point-to-multipoint transmiss...
Cooperative transmission with multiple base stations is a way to overcome the interference limitatio...
This paper focuses on linear transceiver design for rate optimization in multiuser Gaussian multple-...
This paper investigates the problem of transceiver design with individual rate constraints for multi...
We address the problem of linear mean square error (MSE) transmitter design for point-to-multipoint ...
ABSTRACT: This paper addresses the joint transmit and receive optimization and linear processing for...
This paper focuses on transceiver design for sumrate optimization in multiuser MIMO systems with lin...
This dissertation designs linear transceivers for the multiuser downlink in multiple-input multiple-...
This dissertation designs linear transceivers for the multiuser downlink in multiple-input multiple-...
We address the problem of Mean Square Error (MSE) transceiver design for point-to-multipoint transmi...
This correspondence revisits the joint transceiver optimization problem for multiple-input multiple-...
This correspondence revisits the joint transceiver optimization problem for multiple-input multiple-...
We study the geometry of the feasible MSE region of multiuser MIMO systems with fixed transmitters a...
We maximize the performance of multiple-input multiple-output (MIMO) multiple access channels (MAC) ...
We address the problem of jointly optimizing linear transmit and receive filters for a multi-user MI...
We study the problem of mean square error (MSE) transceiver design for point-to-multipoint transmiss...
Cooperative transmission with multiple base stations is a way to overcome the interference limitatio...
This paper focuses on linear transceiver design for rate optimization in multiuser Gaussian multple-...
This paper investigates the problem of transceiver design with individual rate constraints for multi...
We address the problem of linear mean square error (MSE) transmitter design for point-to-multipoint ...
ABSTRACT: This paper addresses the joint transmit and receive optimization and linear processing for...
This paper focuses on transceiver design for sumrate optimization in multiuser MIMO systems with lin...
This dissertation designs linear transceivers for the multiuser downlink in multiple-input multiple-...
This dissertation designs linear transceivers for the multiuser downlink in multiple-input multiple-...
We address the problem of Mean Square Error (MSE) transceiver design for point-to-multipoint transmi...
This correspondence revisits the joint transceiver optimization problem for multiple-input multiple-...
This correspondence revisits the joint transceiver optimization problem for multiple-input multiple-...
We study the geometry of the feasible MSE region of multiuser MIMO systems with fixed transmitters a...
We maximize the performance of multiple-input multiple-output (MIMO) multiple access channels (MAC) ...