Abstract
In this article, we address the resource allocation problem for the downlink of a large network multiple input multiple output orthogonal frequency division multiplexing system with 3-sector base stations. The system is statically divided into a number of disjoint clusters of sectors. A two-step resource allocation scheme is proposed involving the inter-cluster and the intra-cluster levels. As a first step or inter-cluster level, two cooperative frequency reuse approaches are designed to mitigate the inter-cluster interference. A user partition method is proposed to divide the users of each cluster into cluster-edge and cluster-center users. To balance the cell-edge and the cell-average performance, a fairness jug function is introduced to determine the frequency partition of the cooperative frequency reuse approaches. Then, as a second step or intra-cluster level, a utility-based joint scheduling and power allocation algorithm is proposed for each cluster, to maximize the sum utility of all users in the cluster under per-sector power constraints. Zero-forcing joint transmission is used across multiple sectors within the same cluster. Simulation results show that the proposed scheme can efficiently reduce the inter-cluster interference and provide considerable performance improvement in terms of both the cell-edge and cell-average user data rate. The proposed two-step resource allocation scheme can be implemented independently in each cluster without inter-cluster information exchange, which is an attractive property for practical systems, since it reduces both the network signaling overhead and the computational complexity.
Highlights
Driven by the demands to support data applications at higher throughput and spectral efficiency, orthogonal frequency division multiplexing (OFDM) based multiple access is being considered as a promising technique for the future wireless networks
A user partition method based on the long term channel gain is introduced to divide the users of each cluster into cluster-edge users (CEU) and cluster-center users (CCU)
6 Conclusions The resource allocation problem has been considered for the downlink of a clustered network multiple input multiple output (MIMO) orthogonal frequency division multiple access (OFDMA) system
Summary
Driven by the demands to support data applications at higher throughput and spectral efficiency, orthogonal frequency division multiplexing (OFDM) based multiple access is being considered as a promising technique for the future wireless networks. Concentrating on an arbitrary time slot, the sectors within cluster c provide joint transmission for the scheduled users (denoted by S(c,n)) on each subchannel n based on the available CSI. In order to avoid inter-cluster information exchange and the interdependency issues among clusters, the remaining intercluster interference is not considered in the SINR expression, i.e., the signal to noise ratio (SNR) of user k on subchannel n in cluster c based on the zero forcing joint transmission given in (4) is derived as pck,n/σ 2. Considering different sizes of the cluster-center frequency set G, Figure 4 shows the CDF of the user average data rate including all CEU in the system and the CDF curves including all CCU in the system for Scheme-1.
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