In this paper we propose a novel low-complexity Maximum Likelihood (ML) space-time detection method, which can be regarded as an advanced extension of the Complex Sphere Decoder (CSD). We demonstrate that as opposed to the previously published variants of the CSD, the proposed technique may be employed in the so-called "over-loaded" scenario, where the number of transmit antennas exceeds that of the receive antennas. The proposed method achieves the optimum performance of the ML detector even in heavily over-loaded scenarios, while the associated computational complexity is only moderately increased
The search for the closest lattice point arises in many communication problems, and is known to be N...
Recently, considerable attention has been focused on the deployment of smart antennas technology, or...
International audienceIn this paper, Sphere Decoding (SD) algorithms for Spatial Modulation (SM) are...
Abstract- In this paper we propose a novel low-complexity Maximum Likelihood (ML) space-time detecti...
In this contribution we explore a novel Optimized Hierarchy Reduced Search Algorithm (OHRSA)-aided s...
Abstract—In this paper we propose a novel Space Division Multiplexing (SDM) detection method. The pr...
In this paper we propose a novel low-complexity Log-MAP space-time detection method, which can be re...
The mobile wireless communication systems has been growing fast and continuously over the past two d...
In this letter, a novel iterative multiple-input multiple-output (MIM)O detector reminiscent of sphe...
In this thesis, firstly we introduce various reduced-complexity near-optimum Sphere Detection (SD) a...
International audienceIn Spatial Multiplexing MIMO systems, many powerful non-linear detection techn...
Abstract — In this paper we propose a novel Space Division Multiplexing (SDM) detection method. The ...
A symbol detector for wireless systems using space division multiple access (SDMA) and orthogonal fr...
In this paper, a OFDM transceiver system including aDepth-first Stack based Sequential decoding solu...
AbstractFor communication standards with high transfer rates (WiMAX, WiFi, LTE), which use MIMO (Mul...
The search for the closest lattice point arises in many communication problems, and is known to be N...
Recently, considerable attention has been focused on the deployment of smart antennas technology, or...
International audienceIn this paper, Sphere Decoding (SD) algorithms for Spatial Modulation (SM) are...
Abstract- In this paper we propose a novel low-complexity Maximum Likelihood (ML) space-time detecti...
In this contribution we explore a novel Optimized Hierarchy Reduced Search Algorithm (OHRSA)-aided s...
Abstract—In this paper we propose a novel Space Division Multiplexing (SDM) detection method. The pr...
In this paper we propose a novel low-complexity Log-MAP space-time detection method, which can be re...
The mobile wireless communication systems has been growing fast and continuously over the past two d...
In this letter, a novel iterative multiple-input multiple-output (MIM)O detector reminiscent of sphe...
In this thesis, firstly we introduce various reduced-complexity near-optimum Sphere Detection (SD) a...
International audienceIn Spatial Multiplexing MIMO systems, many powerful non-linear detection techn...
Abstract — In this paper we propose a novel Space Division Multiplexing (SDM) detection method. The ...
A symbol detector for wireless systems using space division multiple access (SDMA) and orthogonal fr...
In this paper, a OFDM transceiver system including aDepth-first Stack based Sequential decoding solu...
AbstractFor communication standards with high transfer rates (WiMAX, WiFi, LTE), which use MIMO (Mul...
The search for the closest lattice point arises in many communication problems, and is known to be N...
Recently, considerable attention has been focused on the deployment of smart antennas technology, or...
International audienceIn this paper, Sphere Decoding (SD) algorithms for Spatial Modulation (SM) are...