We propose an efficient multiple-input multiple-output concept based on space-time turbo coded modulation and layered spatial multiplexing architectures for cellular multicarrier code-division multiple access systems. We design appropriate receiver algorithms, and compare their performance to competing schemes in a single-cell system. We then evaluate the performance of the scheme in a seven-cell system with universal frequency reuse. The proposed MIMO scheme improves throughput significantly compared to the corresponding single-antenna communications even in the presence of spatial correlation
Dans la recherche de modulations adaptées à la voie descendante des systèmes cellulaires 4G, les sys...
Future cellular networks are expected to support new communication paradigms such as machine-type co...
In this contribution we propose and investigate a multiple-input multiple-output space-division, cod...
For the single-user communications pragmatic yet powerful methods known as layered space-time (LST) ...
We study several transmission techniques utilizing efficient forward error correction coding (FEC), ...
In this paper, we evaluate the performance of single- and multi-antenna multi-carrier code division ...
We evaluate the performance of single- and multi-antenna multi-carrier code division multiple access...
One of the most promising candidates for the air interface of the upcoming multiuser broadband commu...
The combination of multiple antennas and multi-carrier code division multiple-access (MC-CDMA) is a ...
The combination of multiple antennas and multi-carrier code division multiple-access (MC-CDMA) is a ...
International audienceThis paper investigates the combination of spatial multiplexing and overloadin...
This paper proposes a structure that combines iterative equalization and turbo decoding, denoted as ...
The advent of multiple-input–multiple-output (MIMO) space-time coded wireless systems has recently e...
Future wireless communication systems deployment, including fourth generation (4G) cellular systems,...
Space-time coding can increase channel capacity by using the space and time diversity technique. Mul...
Dans la recherche de modulations adaptées à la voie descendante des systèmes cellulaires 4G, les sys...
Future cellular networks are expected to support new communication paradigms such as machine-type co...
In this contribution we propose and investigate a multiple-input multiple-output space-division, cod...
For the single-user communications pragmatic yet powerful methods known as layered space-time (LST) ...
We study several transmission techniques utilizing efficient forward error correction coding (FEC), ...
In this paper, we evaluate the performance of single- and multi-antenna multi-carrier code division ...
We evaluate the performance of single- and multi-antenna multi-carrier code division multiple access...
One of the most promising candidates for the air interface of the upcoming multiuser broadband commu...
The combination of multiple antennas and multi-carrier code division multiple-access (MC-CDMA) is a ...
The combination of multiple antennas and multi-carrier code division multiple-access (MC-CDMA) is a ...
International audienceThis paper investigates the combination of spatial multiplexing and overloadin...
This paper proposes a structure that combines iterative equalization and turbo decoding, denoted as ...
The advent of multiple-input–multiple-output (MIMO) space-time coded wireless systems has recently e...
Future wireless communication systems deployment, including fourth generation (4G) cellular systems,...
Space-time coding can increase channel capacity by using the space and time diversity technique. Mul...
Dans la recherche de modulations adaptées à la voie descendante des systèmes cellulaires 4G, les sys...
Future cellular networks are expected to support new communication paradigms such as machine-type co...
In this contribution we propose and investigate a multiple-input multiple-output space-division, cod...