A VLSI decoder for a new type of constellations adapted to the Rayleigh Fading Channel
Wireless Networks - Special issue VLSI in wireless networks
Algebraic number theory and code design for Rayleigh fading channels
Communications and Information Theory
Multilevel codes for OFDM-like modulation over underspread fading channels
EURASIP Journal on Applied Signal Processing
IEEE Transactions on Signal Processing
On the design of delay-tolerant distributed space-time codes with minimum length
IEEE Transactions on Wireless Communications
IEEE Transactions on Information Theory
IEEE Transactions on Information Theory
Orthogonal space-time block codes with sphere packing
IEEE Transactions on Information Theory
International Journal of Modelling and Simulation
A systematic design of full diversity multiuser space-frequency codes
IEEE Transactions on Signal Processing
Signal space diversity techniques with fast decoding based on MDS codes
IEEE Transactions on Communications
Design of new concatenated space-time block codes using odd transmit antennas
PWC'06 Proceedings of the 11th IFIP TC6 international conference on Personal Wireless Communications
A novel cooperative relay scheme employing fountain codes and rotated constellations
International Journal of Wireless and Mobile Computing
Wireless Personal Communications: An International Journal
A Novel Nonlinear Constellation Precoding for OFDM Systems with Subcarrier Grouping
Wireless Personal Communications: An International Journal
Hi-index | 755.02 |
A unified framework is presented in order to build lattice constellations matched to both the Rayleigh fading channel and the Gaussian channel. The method encompasses the situations where the interleaving is done on the real components or on two-dimensional signals. In the latter case, a simple construction of lattices congruent to the densest binary lattices with respect to the Euclidean distance is proposed. It generalizes, in a sense to be clarified later, the structural construction proposed by Forney (1991). These constellations are next combined with coset codes. The partitioning rules and the gain formula are similar to those used for the Gaussian channel