We analyze the impact of transmitter and receiver spatial correlation on the performance of a multiple-input multiple-output (MIMO) system which applies an orthogonal space-time block code with no channel state information at the transmitter and perfect channel state information at the receiver. We derive a general formula for the bit error rate of a MIMO system with arbitrary number of transmit and receive antennas as a function of the correlation at the transmitter and the receiver. We prove that the diversity advantage is given by M/spl middot/N if M is the rank of the transmit correlation matrix and N the rank of the receive correlation matrix, respectively
An analysis of the exact bit error rate (BER) performance of orthogonal space-time block codes (OSTB...
We study the impact of channel spatial correlation on the ergodic capacity of multiple-input multipl...
It has been shown recently that multiple-input multiple-output (MIMO) fading channels could experien...
In this paper, impact on the bit-error rate performance of orthogonal space-time block codes (O-STBC...
The symbol error performance of spatially correlated multi-antenna systems is analyzed herein. When ...
The symbol error performance of spatially correlated multi-antenna systems is analyzed herein. When ...
The impact of transmission design and spatial correlation on the symbol error rate (SER) is analyzed...
Abstract:- In this paper we introduce a technique of eigenbeamforming based on the channel correlati...
Spatial multiplexing and space-time codes are competing ways of extracting capacity from MIMO wirele...
Wireless Multiple Input Multiple Output (MIMO) systems provide much better performance than conventi...
In order to obtain full spatial diversity available in a multiple-input multiple-output (MIMO) syste...
The channel capacity and the performance of MIMO systems in the presence of fading correlation and a...
Abstract—The potential benefits of multiple-antenna systems may be limited by two types of channel d...
In this paper, a model of space-frequency block coded multiple input multiple output orthogonal freq...
This paper reports on investigations into the effects of spatial correlation on channel estimation a...
An analysis of the exact bit error rate (BER) performance of orthogonal space-time block codes (OSTB...
We study the impact of channel spatial correlation on the ergodic capacity of multiple-input multipl...
It has been shown recently that multiple-input multiple-output (MIMO) fading channels could experien...
In this paper, impact on the bit-error rate performance of orthogonal space-time block codes (O-STBC...
The symbol error performance of spatially correlated multi-antenna systems is analyzed herein. When ...
The symbol error performance of spatially correlated multi-antenna systems is analyzed herein. When ...
The impact of transmission design and spatial correlation on the symbol error rate (SER) is analyzed...
Abstract:- In this paper we introduce a technique of eigenbeamforming based on the channel correlati...
Spatial multiplexing and space-time codes are competing ways of extracting capacity from MIMO wirele...
Wireless Multiple Input Multiple Output (MIMO) systems provide much better performance than conventi...
In order to obtain full spatial diversity available in a multiple-input multiple-output (MIMO) syste...
The channel capacity and the performance of MIMO systems in the presence of fading correlation and a...
Abstract—The potential benefits of multiple-antenna systems may be limited by two types of channel d...
In this paper, a model of space-frequency block coded multiple input multiple output orthogonal freq...
This paper reports on investigations into the effects of spatial correlation on channel estimation a...
An analysis of the exact bit error rate (BER) performance of orthogonal space-time block codes (OSTB...
We study the impact of channel spatial correlation on the ergodic capacity of multiple-input multipl...
It has been shown recently that multiple-input multiple-output (MIMO) fading channels could experien...