Open AccessThreshold-based Wireless-based NOMA Systems over Log-Normal Channels: Ergodic Outage Probability of Joint Time Allocation and Power Splitting Schemes
Author(s) -
Hoang Thien Van,
Quyet-Nguyen Van,
Danh Hong Le,
Lukas Sevcik,
Nguyen Hoang Duy,
Hoang-Sy Nguyen,
Miroslav Vozňák
Publication year - 2021
Publication title -
elektronika ir elektrotechnika
Language(s) - English
Resource type - Journals
eISSN - 2029-5731
pISSN - 1392-1215
DOI - 10.5755/j02.eie.28971
Subject(s) - noma , ergodic theory , computer science , wireless , fading , throughput , power (physics) , wireless network , joint (building) , monte carlo method , computer network , matlab , mathematics , engineering , channel (broadcasting) , telecommunications , statistics , telecommunications link , physics , operating system , architectural engineering , mathematical analysis , quantum mechanics
Due to the development of state-of-the-art fifth-generation communication (5G) and Internet-of-Things (IoT), the demands for capacity and throughput of wireless networks have increased significantly. As a promising solution for this, a radio access technique, namely, non-orthogonal multiple access (NOMA) has been investigated. Particularly, in this paper, we analyse the system performance of a joint time allocation and power splitting (JTAPS) protocol for NOMA-based energy harvesting (EH) wireless networks over indoor scenarios, which we modelled with log-normal fading channels. Accordingly, for the performance analysis of such networks, the analytical expression of a metric so-called “ergodic outage probability” was derived. Then, thanks to Monte Carlo simulations done in Matlab, we are able to see how different EH power splitting (PS) and EH time switching (TS) factors influence the ergodic outage probability. Last, but not least, we plot the simulation results along with the theoretical results for comparison studies.