Combined ZF and ML Decoder for Uplink Scheduling in Multi-User MIMO LTE Networks
Résumé
In this paper, we propose a transceiver structure
for the multi-user MIMO uplink channel of the Long Term
Evolution (LTE) networks. This transceiver structure is based
on the use of an adequate encoder at the transmitter side, to
take advantage of the multiple transmit antenna diversity, and
a combination of a joint zero forcing (ZF) and a maximum
likelihood (ML) decoder at the receiver side. Based on this
transceiver design, we show how to extend an opportunistic multiuser
spatial multiplexing allocation to the whole LTE bandwidth
with respect to Single Carrier Frequency Division Multiple
Access (SC-FDMA) constraints. The evaluated rate performances
of the proposed transceiver in a scheduling uplink LTE context
outperform the ones of other well known decoders.