Abstract
In this paper, we propose a novel buffer-state-based relaying selection scheme in the context of cooperative cognitive radio networks (CRNs), supporting the primary and secondary networks. In the proposed scheme, both the effects of inter-network interference and fading are successfully suppressed by introducing a flexible link selection algorithm in the secondary network. More specifically, by relying on the broadcast nature of wireless communication channels between a source node and relay nodes in the secondary network, the associated source packet is shared among multiple relay nodes. This allows us to benefit from the additional degree of freedom. Furthermore, we consider the priority for link selection based on the buffer state of each relay node in the secondary network. This contributes to the avoidance of detrimental empty and full buffer states. Moreover, analytical bounds of the outage probability and the average packet delay are derived for the proposed scheme based on the Markov chain model, in order to verify the numerical results. The overhead required for a central coordinator of the secondary network to monitor channel state information and buffer states are also investigated. Our numerical results demonstrate that the proposed scheme achieves better outage and packet-delay performance than the conventional max-ratio-based scheme in the buffer-aided CRN.
Highlights
In wireless communications, the concept of relay selection and cooperation has been introduced for exploiting the diversity gain [1], [2]
channel state information (CSI) and buffer states of the SR nodes are collected at the central coordinator, i.e., the secondary destination (SD) node, in order to carry out link selection based on monitored information, which is updated in each time slot
NUMERICAL RESULTS we provide the numerical results of the outage probability and the average packet delay of the proposed scheme, in order to characterize the achievable performance of the proposed scheme while comparing them with those of the benchmark scheme
Summary
The concept of relay selection and cooperation has been introduced for exploiting the diversity gain [1], [2]. The effects of outdated channel state information (CSI) on the outage probability in the buffer-aided CRN were investigated in [20], where a closed-form expression of the outage probability was derived. Against this background, the novel contributions of this paper are as follows. 2) Another contribution of this paper is that we introduce the concept of BSB relay selection into the proposed scheme This allows us to avoid detrimental empty and full buffer states, maximizing the number of available links.
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