Joint channel and user selection for transmission and sensing in cognitive radio networks

2012 7th International ICST Conference on Cognitive Radio Oriented Wireless Networks and Communications (CROWNCOM) Pub Date : 2012-06-18 DOI:10.4108/ICST.CROWNCOM.2012.248393

Salim Eryigit, T. Tuğcu

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引用次数: 2

Abstract

Cooperation among several secondary users for successful spectrum sensing defines an upper bound on the number of channels that can be sensed. Consequently, the maximum utilization is bounded by the number of sensing nodes rather than the availability of the channels. Hence, a subset of the channels should be selected based on the traffic requirements, and the secondary users should be assigned to those channels for the sensing task. In addition, secondary users experience different channel conditions due to interference, noise, and geographical location. Therefore, a secondary user should be assigned to a channel for which its sensing metrics are satisfactory. In this paper, we consider the problem of channel and user selection for cooperative sensing task. We model the mentioned channel selection and user assignment problem as a non-linear optimization problem and solve it using two alternative objectives to achieve increased throughput and number of satisfied users.

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认知无线网络中传输和感知的联合信道和用户选择

几个辅助用户之间的合作为成功的频谱感知定义了可以感知的信道数量的上限。因此，最大利用率取决于感知节点的数量，而不是通道的可用性。因此，应根据业务需求选择信道子集，并将辅助用户分配给这些信道以完成感知任务。此外，由于干扰、噪声和地理位置的原因，二次用户会经历不同的信道状况。因此，应该将辅助用户分配到其感知指标令人满意的信道。本文研究了协同感知任务的信道和用户选择问题。我们将上述信道选择和用户分配问题建模为非线性优化问题，并使用两个可选目标来解决该问题，以实现增加吞吐量和满意用户数量。

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2012 7th International ICST Conference on Cognitive Radio Oriented Wireless Networks and Communications (CROWNCOM)

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