Add to ORKGThis paper addresses the joint design problem of bit allocation and decision feedback equalizer (DFE) transceiver for multi-input multi-output (MIMO) broadcast (BC) channels. Channel state information (CSI) is assumed to be available both at the transmitter and receivers. The transceiver is designed by minimizing maximum symbol error rate (MAX-SER) under the total power and bitrate constraints. The bit allocation, precoder, feed-forward matrices and feedback matrices are the optimization variables. For the two-user case, a particular class of joint triangularization (JT) can be applied to obtain the optimal design for the problem, which is the optimal JT minimum Max-SER BC DFE transceiver (JTMMS). For arbitrary number of users, the suboptim...
In wireless communications, the use of multiple antennas for both transmission and reception is asso...
In wireless communications, the use of multiple antennas for both transmission and reception is asso...
This paper considers the joint design of bit loading, precoding and receive filters for a multiple-i...
This paper addresses the joint design problem of bit allocation and decision feedback equalizer (DFE...
This paper addresses the joint design problem of bit allocation and decision feedback equalizer (DFE...
This paper addresses the joint design problem of bit allocation and decision feedback equalizer (DFE...
This paper studies the joint design problem of a decision feedback equalizer (DFE) transceiver and b...
This paper considers the joint design problem of linear precoder, decision feedback equalizer (DFE) ...
This paper studies the joint design problem of a decision feedback equalizer (DFE) transceiver and b...
This paper considers the joint design problem of linear precoder, decision feedback equalizer (DFE) ...
This paper considers two joint design problems of linear precoder, decision feedback equalizer (DFE)...
Abstract—The transceiver optimization problem for MIMO channels has been considered in the past with...
This paper considers MIMO transceivers with linear precoders and decision feedback equalizers (DFEs)...
The transceiver optimization problem for MIMO channels has been considered in the past with linear ...
The transceiver optimization problem for MIMO channels has been considered in the past with linear ...
In wireless communications, the use of multiple antennas for both transmission and reception is asso...
In wireless communications, the use of multiple antennas for both transmission and reception is asso...
This paper considers the joint design of bit loading, precoding and receive filters for a multiple-i...
This paper addresses the joint design problem of bit allocation and decision feedback equalizer (DFE...
This paper addresses the joint design problem of bit allocation and decision feedback equalizer (DFE...
This paper addresses the joint design problem of bit allocation and decision feedback equalizer (DFE...
This paper studies the joint design problem of a decision feedback equalizer (DFE) transceiver and b...
This paper considers the joint design problem of linear precoder, decision feedback equalizer (DFE) ...
This paper studies the joint design problem of a decision feedback equalizer (DFE) transceiver and b...
This paper considers the joint design problem of linear precoder, decision feedback equalizer (DFE) ...
This paper considers two joint design problems of linear precoder, decision feedback equalizer (DFE)...
Abstract—The transceiver optimization problem for MIMO channels has been considered in the past with...
This paper considers MIMO transceivers with linear precoders and decision feedback equalizers (DFEs)...
The transceiver optimization problem for MIMO channels has been considered in the past with linear ...
The transceiver optimization problem for MIMO channels has been considered in the past with linear ...
In wireless communications, the use of multiple antennas for both transmission and reception is asso...
In wireless communications, the use of multiple antennas for both transmission and reception is asso...
This paper considers the joint design of bit loading, precoding and receive filters for a multiple-i...