Abstract — Blind equalization is one challenging problem for multiple-input multiple-output systems, to which indepen-dent component analysis (ICA) is applicable. However direct application of ICA could yield low convergence speed and poor performance. In this paper we propose two semi-blind ICA-based algorithms, which incorporate information both from the training and unknown sequences. During each iterative/adaptive step, the training information is utilized to supervise the unconstrained blind ICA-based measure. Simulation results show that the two proposed semi-blind approaches can outperform both the training-based and conventional ICA method. Furthermore we report a special case of MIMO systems which does not require the algorithm of ...
grantor: University of TorontoIn short burst wireless communications, a training sequence ...
This paper proposes two novel blind receivers for Multiple-Input Multiple-Output (MIMO) Orthogonal F...
Blind space–time equalization of multiuser time-dispersive digital communication channels consists o...
The blind equalization of multi-input multi-output (MIMO) digi-tal communication channels is address...
Abstract—In this paper, a novel semi-blind receiver based on independent component analysis (ICA) is...
The identification and equalization of single-input digital communica-tion channels can be accomplis...
This thesis proposes novel blind and semi-blind receivers for Multiple-Input Multiple-Output (MIMO) ...
This paper introduces a blind multiuser detection algorithm for MIMO channels. The receiver is requi...
In this work the problem of blind equalization of multiple-input multiple-output (MIMO) systems is f...
We propose a novel blind equalization structure based on in-dependent component analysis (ICA) for m...
Full-duplex communications systems that transmit and receive simultaneously suffer self-interference...
This contribution investigates semi-blind adaptive spatial filtering or equalisation for multiple-in...
This paper investigates adaptive blind equalization for multiple- input and multiple-output (MIMO) c...
Abstract: In the single-user scenario of data communications, the identification and equalization of...
In this paper, we concentrate on the direct semi-blind spatial equalizer design for MIMO systems wit...
grantor: University of TorontoIn short burst wireless communications, a training sequence ...
This paper proposes two novel blind receivers for Multiple-Input Multiple-Output (MIMO) Orthogonal F...
Blind space–time equalization of multiuser time-dispersive digital communication channels consists o...
The blind equalization of multi-input multi-output (MIMO) digi-tal communication channels is address...
Abstract—In this paper, a novel semi-blind receiver based on independent component analysis (ICA) is...
The identification and equalization of single-input digital communica-tion channels can be accomplis...
This thesis proposes novel blind and semi-blind receivers for Multiple-Input Multiple-Output (MIMO) ...
This paper introduces a blind multiuser detection algorithm for MIMO channels. The receiver is requi...
In this work the problem of blind equalization of multiple-input multiple-output (MIMO) systems is f...
We propose a novel blind equalization structure based on in-dependent component analysis (ICA) for m...
Full-duplex communications systems that transmit and receive simultaneously suffer self-interference...
This contribution investigates semi-blind adaptive spatial filtering or equalisation for multiple-in...
This paper investigates adaptive blind equalization for multiple- input and multiple-output (MIMO) c...
Abstract: In the single-user scenario of data communications, the identification and equalization of...
In this paper, we concentrate on the direct semi-blind spatial equalizer design for MIMO systems wit...
grantor: University of TorontoIn short burst wireless communications, a training sequence ...
This paper proposes two novel blind receivers for Multiple-Input Multiple-Output (MIMO) Orthogonal F...
Blind space–time equalization of multiuser time-dispersive digital communication channels consists o...
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