Abstract
The in-band full-duplex buffer-aided relaying is a spectral-efficient technology for extending the range of reliable communication. In this context, we introduce a novel joint buffer-aware rate allocation and antenna selection algorithm to schedule the network transmissions. The closed-form expression for the average throughput of the network is derived under Nakagami-m fading environment. Through Monte-Carlo simulations, we demonstrate that our proposed buffer-aware approach significantly outperforms the conventional schemes with prefixed antenna allocation considering two benchmarks operating based on the receive-antenna-selection (RAS)/transmit antenna selection (TAS) and maximum-ratio-combining (MRC)/TAS. The overlapping results in the presented simulation examples corroborates our theoretical analysis.
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