Throughput Assessment of Non-Linear Energy Harvesting Secondary IoT Network With Hardware Impairments and Randomly Located Licensed Users in Nakagami-m Fading

In this treatise, we present a throughput assessment of a small area ad-hoc networks comprising of non-linear hamlet of thing (IoT) energy-harvesting device (ED) around one relay node (RN) amidst randomly located primary users (PUs) and hardware impairments. The relay is connected to an access point (AP), which is directly connected to the internet. Hardware impairment exists between EDs and the RN and between RN and AP as well. Multiple input multiple output (MIMO) link between the relay and the AP has been considered to boost throughput. Such a small area ad-hoc network comprising of EDs. RN and AP is considered to operate as an underlay network, where Ellis harvest energy from various PU and transmit data using the same frequency band used by PUs. Such an ad-hoc network is useful in small scale commercial establishment. The key contribution of this work is that we have analytically evaluated the average throughput of an ED.

Automated summary

This paper presents a throughput assessment of a small area ad-hoc network consisting of IoT energy-harvesting devices, relay nodes, and access points, which can be useful in commercial establishments. The key contribution of this work is the analytical evaluation of the average throughput of an energy-harvesting device.