Add to ORKGWe construct signal constellations for differential transmission with multiple basestation antennas. The signals are derived using the theory of fixed-point-free groups and are especially suitable for mobile cellular applications because they do not require the handset to have more than one antenna or to know the time-varying propagation environment. Yet we achieve full transmitter diversity and excellent performance gains over a single-antenna system
Differential space-time modulation has been recently proposed in the literature for multiple-antenna...
One method for communicating with multiple antennas is to encode the transmitted data differentially...
Fully-diverse constellations, i.e., a set of unitary matrices whose pairwise differences are nonsing...
We construct signal constellations for differential transmission with multiple basestation antennas....
Multiple antennas can greatly increase the data rate and reliability of a wireless communication lin...
Multiple antennas can greatly increase the data rate and reliability of a wireless communication li...
Fully-diverse constellations, i.e., a set of unitary matrices whose pairwise differences are nonsing...
Fully diverse constellations, i.e., sets of unitary matrices whose pairwise differences are nonsingu...
Fully-diverse constellations, i.e., a set of unitary matrices whose pairwise differences are nonsing...
Abstract—Space–time coding and modulation exploit the presence of multiple transmit antennas to impr...
In this paper, we present a class of unitary signal constellations used for differential space-time ...
Fully diverse constellations, i.e., a set of unitary matrices whose pairwise differences are nonsing...
The matrix-based differential encoding invoked by Differential Space-Time Modulation (DSTM) typicall...
Abstract—Fully diverse constellations, i.e., sets of unitary ma-trices whose pairwise differences ar...
In [1], a differential space-time modulation scheme (based on unitary matrices) are presented that c...
Differential space-time modulation has been recently proposed in the literature for multiple-antenna...
One method for communicating with multiple antennas is to encode the transmitted data differentially...
Fully-diverse constellations, i.e., a set of unitary matrices whose pairwise differences are nonsing...
We construct signal constellations for differential transmission with multiple basestation antennas....
Multiple antennas can greatly increase the data rate and reliability of a wireless communication lin...
Multiple antennas can greatly increase the data rate and reliability of a wireless communication li...
Fully-diverse constellations, i.e., a set of unitary matrices whose pairwise differences are nonsing...
Fully diverse constellations, i.e., sets of unitary matrices whose pairwise differences are nonsingu...
Fully-diverse constellations, i.e., a set of unitary matrices whose pairwise differences are nonsing...
Abstract—Space–time coding and modulation exploit the presence of multiple transmit antennas to impr...
In this paper, we present a class of unitary signal constellations used for differential space-time ...
Fully diverse constellations, i.e., a set of unitary matrices whose pairwise differences are nonsing...
The matrix-based differential encoding invoked by Differential Space-Time Modulation (DSTM) typicall...
Abstract—Fully diverse constellations, i.e., sets of unitary ma-trices whose pairwise differences ar...
In [1], a differential space-time modulation scheme (based on unitary matrices) are presented that c...
Differential space-time modulation has been recently proposed in the literature for multiple-antenna...
One method for communicating with multiple antennas is to encode the transmitted data differentially...
Fully-diverse constellations, i.e., a set of unitary matrices whose pairwise differences are nonsing...