Performance of Cooperative NOMA with MRT/RAS in Nakagami-m Fading Channels with Channel Estimation Errors

TL;DR

This paper evaluates the outage performance of a cooperative NOMA network with MRT/RAS over Nakagami-m fading channels, considering channel estimation errors, and demonstrates the scheme's robustness and performance gains through analytical and simulation results.

Contribution

It provides a new analytical framework for outage probability in cooperative NOMA with MRT/RAS under Nakagami-m fading and channel estimation errors, including bounds and high-SNR analysis.

Findings

MRT/RAS significantly improves outage probability.

The scheme is more robust to channel estimation errors than single antenna setups.

Analytical results match Monte Carlo simulations.

Abstract

This paper studies the performance of a downlink non-orthogonal multiple access (NOMA) based cooperative network with maximal ratio transmission/receive antenna selection (MRT/RAS) over Nakagami-m fading channels in the presence of channel estimation errors (CEEs). In the system, a base station communicates with multiple mobile users through a half duplex channel state information based amplify-and-forward relay. All nodes are equipped with multiple antennas and the hybrid diversity technique MRT/RAS is employed in both hops. The outage behavior of the system is investigated by driving closed-form expression for outage probability (OP). In addition, the corresponding lower and upper bounds of the derived OP are obtained. Moreover, the behavior of the system is studied in high signal-to-noise ratio region by obtaining an error floor value in the presence of CEE as well as achieving diversity and array gains in the absence of CEE. Finally, the analytical results in the presence and absence of the CEEs are verified by the Monte Carlo simulations. Results show that the MRT/RAS scheme enhances the OP significantly and is much more robust to the CEEs in comparison with the single antenna case.