Abstract
In this article, we propose a semi-distributed resource allocation framework for the resource optimization in multi-cell uplink cooperative orthogonal frequency division multiplexing systems. Specifically, we model the resource allocation framework as an optimal problem. This optimization problem is divided into two steps. First, using integer programming, we achieve the joint relay selection and subcarrier allocation based on maximizing system sum rate in a centralized way. Second, the distributed power allocation is achieved based on game theory, for cooperative and non-cooperative users, respectively. For cooperative mobile stations, an improved utility is proposed to regulate power allocation in the two time slots. Besides the existence of Nash equilibrium (NE), a new approach for the strict mathematical proof of the uniqueness of NE is proposed. Simulation results demonstrate that the proposed algorithm successfully combines the merits of centralized and distributed framework. It can effectively make use of relays to enhance the sum rate of users as well as achieve the fairness among users.
Highlights
Owing to its potential to realize high-rate and reliable communications over wireless channels, cooperative orthogonal frequency division multiplexing (OFDM) technology has drawn extensive attention in recent years as a critical 4G technology
We model the resource allocation framework as an optimal problem. This optimization problem is divided into two steps
Using integer programming, we achieve the joint relay selection and subcarrier allocation based on maximizing system sum rate in a centralized way
Summary
Owing to its potential to realize high-rate and reliable communications over wireless channels, cooperative orthogonal frequency division multiplexing (OFDM) technology has drawn extensive attention in recent years as a critical 4G technology. The resource allocation algorithm developed by Lang et al [8] aims at minimizing the users’ transmitting power in a multi-cell OFDMA system based on game theory under the constraint of the peak value of power. Yu et al [9] propose a game approach for distributed power allocation in a multi-cell downlink cooperative OFDMA system, but the relay selection and subcarrier allocation are not considered. Simulation results demonstrate that the proposed algorithm successfully combines the merits of centralized and distributed framework It can effectively make use of relays to enhance the sum rate of users as well as achieve the fairness among users.
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