This contribution investigates semi-blind adaptive spatial filtering or equalisation for multiple-input multiple-output (MIMO) systems that employ high-throughput quadrature amplitude modulation (QAM) signalling. A minimum number of training symbols, equal to the number of receivers (we assume that the number of transmitters is no more than that of receivers), are first utilized to provide a rough least squares channel estimate of the system's MIMO channel matrix for the initialization of the spatial equalizers' weight vectors. A constant modulus algorithm aided soft decision-directed blind algorithm, originally derived for blind equalization of single-input single-output and single-input multiple-output systems employing high-order QAM sig...
grantor: University of TorontoIn short burst wireless communications, a training sequence ...
Future wireless communication systems are desired to support high data rates and high quality ...
The paper proposes a concurrent constant modulus algorithm (CMA) and soft decision-directed (SDD) sc...
A novel semi-blind space-time equaliser (STE) is proposed for dispersive multiple-input multiple-out...
Semi-blind spatial equalisation is considered for multiple-input multiple-output (MIMO) systems that...
A semi-blind adaptive space–time equaliser (STE) has recently been proposed based on a concurrent gr...
This contribution considers semi-blind adaptive equalization for communication systems that employ h...
A semi-blind adaptive beamforming scheme is proposed for wireless systems that employ high-throughpu...
We propose a semi-blind adaptive beamforming approach for wireless systems that employ high-throughp...
Equalization techniques counterbalance the distortion and additive white Gaussian noise (AWGN) in...
Semi-blind joint maximum likelihood (ML) channel estimation and data detection is proposed for multi...
This paper proposes a space-time semi-blind equalizer (ST-SBE) for dispersive multiple-input multipl...
In this paper, we concentrate on the direct semi-blind spatial equalizer design for MIMO systems wit...
A low-complexity semi-blind scheme is proposed for joint channel estimation and data detection on sp...
An algorithm for blind channel equalization is presented for 16 and 32 Star QAM, namely, Dual Disper...
grantor: University of TorontoIn short burst wireless communications, a training sequence ...
Future wireless communication systems are desired to support high data rates and high quality ...
The paper proposes a concurrent constant modulus algorithm (CMA) and soft decision-directed (SDD) sc...
A novel semi-blind space-time equaliser (STE) is proposed for dispersive multiple-input multiple-out...
Semi-blind spatial equalisation is considered for multiple-input multiple-output (MIMO) systems that...
A semi-blind adaptive space–time equaliser (STE) has recently been proposed based on a concurrent gr...
This contribution considers semi-blind adaptive equalization for communication systems that employ h...
A semi-blind adaptive beamforming scheme is proposed for wireless systems that employ high-throughpu...
We propose a semi-blind adaptive beamforming approach for wireless systems that employ high-throughp...
Equalization techniques counterbalance the distortion and additive white Gaussian noise (AWGN) in...
Semi-blind joint maximum likelihood (ML) channel estimation and data detection is proposed for multi...
This paper proposes a space-time semi-blind equalizer (ST-SBE) for dispersive multiple-input multipl...
In this paper, we concentrate on the direct semi-blind spatial equalizer design for MIMO systems wit...
A low-complexity semi-blind scheme is proposed for joint channel estimation and data detection on sp...
An algorithm for blind channel equalization is presented for 16 and 32 Star QAM, namely, Dual Disper...
grantor: University of TorontoIn short burst wireless communications, a training sequence ...
Future wireless communication systems are desired to support high data rates and high quality ...
The paper proposes a concurrent constant modulus algorithm (CMA) and soft decision-directed (SDD) sc...