Impact of channel partitioning and relay placement on resource allocation in OFDMA Cellular networks

TL;DR

This paper investigates how channel partitioning and relay placement affect resource allocation in OFDMA cellular networks, aiming to improve QoS for cell-edge users through optimized relay deployment and spectrum management.

Contribution

It introduces new schemes for channel partitioning and fixed relay node placement considering path-loss, SINR, and shadowing effects to enhance cell-edge user performance.

Findings

Higher spectral efficiency achieved

Increased data rates at cell edges

Improved QoS for edge users

Abstract

Tremendous growth in the demand for wireless applications such as streaming audio/videos, Skype and video games require high data rate irrespective of user's location in the cellular network. However, the Quality of Service (QoS) of users degrades at the cell boundary. Relay enhanced multi-hop cellular network is one of the cost effective solution to improve the performance of cell edge users. Optimal deployment of Fixed Relay Nodes (FRNs) is essential to satisfy the QoS requirement of edge users. We propose new schemes for channel partitioning and FRN placement in cellular networks. Path-loss, Signal to Interference and Noise Ratio (SINR) experienced by users, and effects of shadowing have been considered. The analysis gives more emphasis on the cell-edge users (worst case scenario). The results show that these schemes achieve higher system performance in terms of spectral efficiency and also increase the user data rate at the cell edge.