Multi-channel multi-stage spectrum sensing: Link layer performance and energy consumption

2011 IEEE International Symposium on Dynamic Spectrum Access Networks (DySPAN) Pub Date : 2011-05-03 DOI:10.1109/DYSPAN.2011.5936203

Wesam Gabran, P. Pawełczak, D. Cabric

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引用次数: 6

Abstract

We present a cross-layer analysis of multi-stage spectrum sensing protocols used in multi-channel Opportunistic Spectrum Access (OSA) communication. By developing a novel analytical tool, we are able to assess the energy consumed by OSA communication. Furthermore, we present the relationship between the energy consumption of the multi-stage spectrum sensing protocol, the average throughput of OSA communication and the collision probability between the primary and secondary users. The analysis framework takes the following factors into consideration: number of sensing stages, primary and secondary user traffic, physical layer sensing techniques and sensing time, as well as detailed description of transmit, receive and sensing circuitry. We conclude that multi-stage spectrum sensing is beneficial from the energy consumption and throughput standpoint. In specific, by controlling the sensing time and the number of sensing stages, the multi-stage spectrum sensing protocol can reduce the energy consumption while meeting required throughput and collision constraints.

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多通道多级频谱感知:链路层性能和能耗

我们提出了多通道机会频谱接入(OSA)通信中使用的多阶段频谱感知协议的跨层分析。通过开发一种新的分析工具，我们能够评估OSA通信所消耗的能量。进一步给出了多级频谱感知协议的能耗、OSA通信的平均吞吐量与主从用户之间的碰撞概率之间的关系。分析框架考虑了以下因素:感知级数、主次用户流量、物理层感知技术和感知时间，以及对发射、接收和感知电路的详细描述。我们得出结论，从能耗和吞吐量的角度来看，多级频谱传感是有益的。具体来说，通过控制感知时间和感知阶段数，多级频谱感知协议可以在满足吞吐量和碰撞约束的前提下降低能耗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 IEEE International Symposium on Dynamic Spectrum Access Networks (DySPAN)

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