We propose a modified layered structure for multiple-input multiple-output systems, where the layer detection order is fixed and the data rate for each layer is allocated based on the detection order and channel statistics. Using a Gaussian approximation of the layer capacities, we derive an asymptotic optimum data-rate-allocation approach. For optimum data-rate allocation, the amount of backoff from the mean layer capacity is proportional to the standard deviation of the layer capacity. With statistical data-rate allocation, only limited channel feedback is needed to update channel statistics at the transmitter. Simulation results show significant performance improvement with the proposed algorithm. We also find that the performance gap be...
Abstract—Optimum ordering strategies for the coded Vertical Bell Labs Layered Space-Time (V-BLAST) a...
In this paper we jointly consider statistical precoding and statistical bit allocation for transmiss...
52 pagesIn 802.11 systems, Rate Adaptation (RA) is a fundamental mechanism allowing transmitters to ...
We propose a modified layered structure for multiple-input multiple-output systems, where the layer ...
We propose a modified layered structure for multiple-input multiple-output (MIMO) systems, where the...
Abstract—In this letter, we jointly consider statistical precoding and statistical bit allocation fo...
The study of the class of new spatial multiplexing architectures (SMAs) is continued. As introduced ...
Abstract—This work examines a transmission system which adapts a finite set of code rates and a cont...
We characterize the power allocation that maximizes the rate per unit bandwidth supported with arbit...
Different from most previous work in statistical multiplexing that consider only fixed transmission ...
The simultaneous use of multiple transmit and receive antennas can unleash very large capacity incre...
The i.i.d. rate of a channel is the mutual information rate between the channel input and the channe...
Abstract—Optimum ordering strategies for the coded Vertical Bell Labs Layered Space-Time (V-BLAST) a...
In this paper we propose an information theoretic framework for studying coding and throughput optim...
Abstract-In this paper we propose an information theoretic framework for studying coding and through...
Abstract—Optimum ordering strategies for the coded Vertical Bell Labs Layered Space-Time (V-BLAST) a...
In this paper we jointly consider statistical precoding and statistical bit allocation for transmiss...
52 pagesIn 802.11 systems, Rate Adaptation (RA) is a fundamental mechanism allowing transmitters to ...
We propose a modified layered structure for multiple-input multiple-output systems, where the layer ...
We propose a modified layered structure for multiple-input multiple-output (MIMO) systems, where the...
Abstract—In this letter, we jointly consider statistical precoding and statistical bit allocation fo...
The study of the class of new spatial multiplexing architectures (SMAs) is continued. As introduced ...
Abstract—This work examines a transmission system which adapts a finite set of code rates and a cont...
We characterize the power allocation that maximizes the rate per unit bandwidth supported with arbit...
Different from most previous work in statistical multiplexing that consider only fixed transmission ...
The simultaneous use of multiple transmit and receive antennas can unleash very large capacity incre...
The i.i.d. rate of a channel is the mutual information rate between the channel input and the channe...
Abstract—Optimum ordering strategies for the coded Vertical Bell Labs Layered Space-Time (V-BLAST) a...
In this paper we propose an information theoretic framework for studying coding and throughput optim...
Abstract-In this paper we propose an information theoretic framework for studying coding and through...
Abstract—Optimum ordering strategies for the coded Vertical Bell Labs Layered Space-Time (V-BLAST) a...
In this paper we jointly consider statistical precoding and statistical bit allocation for transmiss...
52 pagesIn 802.11 systems, Rate Adaptation (RA) is a fundamental mechanism allowing transmitters to ...