Outage probability minimization based power control and channel allocation in underlay D2D‐NOMA for IoT networks

Abstract: The emergence of Internet-of-Things (IoT) aims to improve modern life by inter-connecting many smart devices, technologies, and applications. It, however, drastically increases mobile traffic and requires large wireless spectrum. Therefore, for a better spectrum utilization to support this massive connectivity along with low latency and close proximity based communication, non-orthogonal multiple access enabled underlay device-to-device (D2D-NOMA) is envisioned as a key technology for IoT deployment. Hence, in… Show more

“…Nonorthogonal multiple access (NOMA) is recognized as a promising technology for beyond 5G wireless communications with superior spectrum efficiency, user fairness, and high connectivity 1–4 . Hence, applications like internet of things, unmanned aerial vehicles, and satellite communication focus on integrating NOMA for future deployments 5–9 . The basic key idea of the power domain NOMA system is to serve multiple users over the same resources (time/frequency) based on power domain multiplexing at the transmitter node and successive interference cancelation (SIC) at the receiver node 10–12 …”

ASER analysis of generalized hexagonal QAM schemes for NOMA systems over Nakagami‐m fading channels

“…Nonorthogonal multiple access (NOMA) is recognized as a promising technology for beyond 5G wireless communications with superior spectrum efficiency, user fairness, and high connectivity 1–4 . Hence, applications like internet of things, unmanned aerial vehicles, and satellite communication focus on integrating NOMA for future deployments 5–9 . The basic key idea of the power domain NOMA system is to serve multiple users over the same resources (time/frequency) based on power domain multiplexing at the transmitter node and successive interference cancelation (SIC) at the receiver node 10–12 …”

ASER analysis of generalized hexagonal QAM schemes for NOMA systems over Nakagami‐m fading channels

Frequency Division Duplex Based Cooperative VFD: Outage Analysis and Relay Power Allocation

Ergodic Rate Analysis and Optimization of Full-Duplex STAR-RIS Communication Systems