Abstract
We consider a cognitive radio network in which a multiple-access secondary system coexists with an automatic repeat request (ARQ)-based primary system under heavy primary traffic. To achieve spectrum sharing without degrading the performance of the primary system, the secondary transmitters alternate between cooperation and access modes based on a credit system. In the cooperation mode, the secondary transmitters serve as potential relays among which the best one is selected to help forward the primary packet, thus accumulating credits. These credits will then allow the secondary transmitters to gain spectrum access by exploiting the ARQ mechanism of the primary system.Our results show that with a cluster of closely located secondary transmitters, the proposed spectrum sharing protocol achieves an equal average throughput for the primary system compared to the case without spectrum sharing, while providing access opportunities for the secondary system. Furthermore, by increasing the number of secondary transmitters or decreasing the distance between secondary transmitters and secondary receiver, an overall higher throughput can be achieved for the secondary system, without affecting the analytical results for the upper bounds of primary throughput under cooperation mode, and secondary throughput under access mode are also derived.
Highlights
Spectrum is a valuable resource in wireless communication systems
With the proposed automatic repeat request (ARQ)-based spectrum sharing protocol, it is apparent that the same overall average throughput ηTP = ηP is achieved for the primary system compared to the case without relay, while providing secondary spectrum access
We presented an ARQ-based spectrum sharing protocol to achieve spectrum access for multiple secondary transmitters coexisting with a primary system
Summary
Spectrum is a valuable resource in wireless communication systems. Around the world, the frequency spectrum is tightly regulated by fixed spectrum assignment policies which partition the spectrum into a large number of frequency bands and legally limit the applications, users, and operators within each band [1]. E4 represents the outage occurrence, and its probability is given by where the first term O0O1M0 O denotes the first event that the primary packet fails in the first transmission from PT to PR and all the secondary transmitters STi, ∀i ∈ M fail to decode the primary packet, and the retransmission of the packet from PT to PR fails again.
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