Improving the performance of cell edge users with fractional coordinated fair scheduling

“…In [5], FFR with sectorization and coordinated fair scheduling scheme is used to improve the cell edge users and to maintain fairness in resource allocation among users. Rizwan Ghaffar et al, [6], have investigated the downlink performance of cell-edge users by using propose interference suppression strategy and FFR scheme of 1.5 for edge users.…”

Traditional Macro-tower to Heterogeneous Cellular Networks: A Survey

“…In [5], FFR with sectorization and coordinated fair scheduling scheme is used to improve the cell edge users and to maintain fairness in resource allocation among users. Rizwan Ghaffar et al, [6], have investigated the downlink performance of cell-edge users by using propose interference suppression strategy and FFR scheme of 1.5 for edge users.…”

Traditional Macro-tower to Heterogeneous Cellular Networks: A Survey

“…One allocated power for all the UEs before RBs, while the other allocated power and RBs simultaneously. Abiri and Mehrjoo [18] proposed a fractional coordinated fair scheduling scheme, which took advantage of diversity in space to always transmit to UEs with good channel conditions while maintaining UE fairness by α-fair criterion. In [19], we proposed the idea of combining current channel states with previously achieved spectral efficiencies.…”

Practical framework for ultra‐fair dynamic interference coordination in mobile communication systems

“…In [14], cell-edge user performance is analysed with frequency reuse (FR) schemes and BS coordination strategy among cells is presented. In [15], fractional frequency reuse (FFR) with sectorisation is used to improve the cell-edge user's performance and coordinated fair scheduling scheme is proposed to maintain fairness in resource allocation among users. In [16], the downlink performance of celledge user's is investigated with FFR scheme of 1.5 for edge users and an interference suppression strategy is proposed.…”

ICI effects on user mobility with different FR schemes in a multi‐cell cellular network