Abstract—Optimum ordering strategies for the coded Vertical Bell Labs Layered Space-Time (V-BLAST) architecture with capacity achieving temporal codes on each stream are analytically studied, including 4 different power/rate allocation strategies among data streams. Compact closed-form solutions are obtained for the case of zero-forcing (ZF) V-BLAST with two transmit antennas and necessary optimality conditions are found for the general case. The optimal rate allocation is shown to have a major impact (stronger streams are detected last) while the optimal power allocation does not alter the original Foschini ordering (stronger streams are detected first). Sufficient conditions for the optimality of the greedy ordering are established: it is...
Several optimization strategies for instantaneous rate and/or power allocation in the coded V-BLAST ...
An analytical framework for performance analysis and optimization of coded V-BLAST is developed. Ave...
Turbo-coded Vertical Bell Labs Layered Space-Time Architecture (V-BLAST) is a multiple-antenna syste...
Abstract—Optimum ordering strategies for the coded Vertical Bell Labs Layered Space-Time (V-BLAST) a...
Abstract—Optimum ordering strategies for the coded V-BLAST with capacity achieving temporal codes on...
The optimum ordering strategies for the coded V-BLAST system with capacity achieving temporal codes ...
We explore a novel approach to perform decoding-order optimization in the vertical Bell Labs layered...
Abstract—This letter proposes a new optimal ordering method which minimizes error propagation in the...
Wireless communication using Multiple Input Multiple Output (MIMO) systems increases efficiency for ...
Previous studies have shown that per-antenna rate and power control can greatly increase the data th...
Optimal ordering procedure, which is computationally complex in the conventional vertical Bell-labs ...
The next generation wireless communication systems are expected to support a wide range of high-qual...
Several instantaneous optimization strategies for rate and/or power allocation in the coded V-BLAST ...
An analytical approach to the performance analysis of the Vertical Bell Laboratories Space-Time (V-B...
An analytical framework for minimizing the outage probability of a coded spatial multiplexing system...
Several optimization strategies for instantaneous rate and/or power allocation in the coded V-BLAST ...
An analytical framework for performance analysis and optimization of coded V-BLAST is developed. Ave...
Turbo-coded Vertical Bell Labs Layered Space-Time Architecture (V-BLAST) is a multiple-antenna syste...
Abstract—Optimum ordering strategies for the coded Vertical Bell Labs Layered Space-Time (V-BLAST) a...
Abstract—Optimum ordering strategies for the coded V-BLAST with capacity achieving temporal codes on...
The optimum ordering strategies for the coded V-BLAST system with capacity achieving temporal codes ...
We explore a novel approach to perform decoding-order optimization in the vertical Bell Labs layered...
Abstract—This letter proposes a new optimal ordering method which minimizes error propagation in the...
Wireless communication using Multiple Input Multiple Output (MIMO) systems increases efficiency for ...
Previous studies have shown that per-antenna rate and power control can greatly increase the data th...
Optimal ordering procedure, which is computationally complex in the conventional vertical Bell-labs ...
The next generation wireless communication systems are expected to support a wide range of high-qual...
Several instantaneous optimization strategies for rate and/or power allocation in the coded V-BLAST ...
An analytical approach to the performance analysis of the Vertical Bell Laboratories Space-Time (V-B...
An analytical framework for minimizing the outage probability of a coded spatial multiplexing system...
Several optimization strategies for instantaneous rate and/or power allocation in the coded V-BLAST ...
An analytical framework for performance analysis and optimization of coded V-BLAST is developed. Ave...
Turbo-coded Vertical Bell Labs Layered Space-Time Architecture (V-BLAST) is a multiple-antenna syste...