Author :
Kim, Sang Won ; Sung, Wonjin ; Jang, Ju Wook
Author_Institution :
Dept. of Electron. Eng., Sogang Univ., Seoul, South Korea
Abstract :
Frequency reuse among relay stations (RSs) in a down- link access zone is widely adopted for throughput enhancement in IEEE 802.16j relay networks. Since the areas covered by the RSs or the base station (BS) may overlap, some mobile stations (MSs) at the border between two neighboring transmitting stations (RS or BS) using an identical frequency band may suffer severe interference or outage. This co-channel interference within the cell degrades the quality of service (QoS) fairness among the MSs as well as the system throughput. Exclusive use of a frequency band division (orthogonal resource allocation) among RSs can solve this problem but would cause degradation of the system throughput. We observe a trade-off between system through- put and QoS fairness in the previously reported schemes based on frequency reuse. In this paper, we propose a new frequency reuse scheme that achieves high system throughput with a high fairness level in QoS, positioning our scheme far above the trade-off curve formed by previous schemes. We claim that our scheme is beneficial for applications in which a high QoS level is required even for the MSs at the border. Exploiting the features of a directional antenna in the BS, we create a new zone in the frame structure. In the new zone, the RSs can serve the subordinate MSs at the border and prone to interference. In a 3-RS topology, where the RSs are located at points 120° apart from one another, the throughput and Jain fairness index are 10.64 Mbps and 0.62, respectively. On the other hand, the throughput for the previously reported overlapped and orthogonal allocation schemes is 8.22 Mbps (fairness: 0.48) and 3.99 Mbps (fairness: 0.80), respectively. For a 6-RS topology, our scheme achieves a throughput of 18.38 Mbps with a fairness of 0.68; however, previous schemes with frequency reuse factors of 1, 2, 3, and 6 achieve a throughput of 15.24 Mbps (fairness: 0.53), 12.42 Mbps (fairness: 0.71), 8.84 Mbps (fairness: 0.88), and 4.5- Mbps (fairness: 0.88), respectively.
Keywords :
WiMax; cochannel interference; directive antennas; frequency allocation; mobile radio; quality of service; telecommunication network reliability; telecommunication network topology; 3-RS topology; 6-RS topology; Jain fairness index; QoS fairness; base station; bit rate 12.42 Mbit/s; bit rate 15.24 Mbit/s; bit rate 18.38 Mbit/s; bit rate 18.84 Mbit/s; bit rate 3.99 Mbit/s; bit rate 8.22 Mbit/s; cochannel interference; directional antenna; downlink access zone; frame structure; frequency band division; frequency reuse scheme; identical frequency band; mobile stations; orthogonal resource allocation; quality of service fairness; relay stations; throughput enhancement; transmitting stations; two-hop IEEE 802.16 relay networks; Directional antennas; IEEE 802.16 Standards; Interference; Relays; Resource management; Throughput; Topology; Co-channel interference; WiMAX; frame structure; frequency reuse; relay; wireless networks;
