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引用次数: 41
摘要
频谱短缺被认为是阻碍无线通信发展的一个可能的障碍。动态频谱接入(DSA)被提出作为一种可能的解决方案。本文研究了频谱占用统计对mac层感知性能的影响。也就是说,我们考虑占空比和时间段长度的分布,在此期间通道是繁忙或空闲的(ON-和off -周期)。我们使用从广泛测量中提取的频谱占用数据,并从我们之前拟合到测量轨迹的精确模型中生成。我们表明,如果开和关周期持续时间倾向于更长,利用这些分布上的知识的自适应算法将获得显著的性能提升。如果长度较短,增强将是有限的。此外,调查更多频道的好处也随着频谱占用统计数据的变化而变化。在更快速变化的条件下,与更长的ON- and - off周期相比,增加用于传感的资源可以获得更多的改进。
Evaluation of Adaptive MAC-Layer Sensing in Realistic Spectrum Occupancy Scenarios
Spectrum scarcity has been discussed as a possible road block that may slow down the growth of wireless communications. Dynamic Spectrum Access (DSA) has been proposed as a possible solution. In this paper, we study the impact of the spectrum occupancy statistics on the MAC-layer sensing performance. Namely, we consider the duty cycle and the distributions of the lengths of time periods during which a channel is busy or idle (ON- and OFF-periods). We use spectrum occupancy data extracted from extensive measurements and generated from accurate models that we previously fitted to our measured traces. We show that if the ON- and OFF-period durations tend to be longer adaptive algorithms that exploit knowledge on these distributions will achieve significant performance gains. If the lengths are shorter the enhancements will be limited. Additionally, also the benefit from investigating more channels changes with the spectrum occupancy statistics. Under more rapidly changing conditions, adding resources for sensing yields more improvements compared to scenarios with longer ON- and OFF-periods.
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