This paper deals with full-diversity schemes for MIMO systems in a slowly-varying fading environment. We consider LDPC codes expressly designed for block-fading channels (rootcheck LDPC) and we couple them with spatial multiplexing, to show that they achieve diversity gain, unlike traditional LDPC codes. At the receiver, we consider an iterative turbo-like receiver, both with the optimal demodulator and a suboptimal one, based on linear MMSE filtering. To improve the performance of the latter one, a power unbalance between transmit antennas is introduced. Simulation results and semianalytical techniques like EXIT charts show that our optimized schemes do achieve full diversity.
Optimal and suboptimal receivers for maximal-rate root-LDPC codes over MIMO block-fading channels
Tarable Alberto
2011
Abstract
This paper deals with full-diversity schemes for MIMO systems in a slowly-varying fading environment. We consider LDPC codes expressly designed for block-fading channels (rootcheck LDPC) and we couple them with spatial multiplexing, to show that they achieve diversity gain, unlike traditional LDPC codes. At the receiver, we consider an iterative turbo-like receiver, both with the optimal demodulator and a suboptimal one, based on linear MMSE filtering. To improve the performance of the latter one, a power unbalance between transmit antennas is introduced. Simulation results and semianalytical techniques like EXIT charts show that our optimized schemes do achieve full diversity.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
