认知IEEE 802.15.3c MAC在定向争用访问周期的饱和吞吐量

2010 IEEE 72nd Vehicular Technology Conference - Fall Pub Date : 2010-10-04 DOI:10.1109/VETECF.2010.5594318

D. Wong, F. Chin

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引用次数: 3

摘要

网络之间的共存是60ghz免授权频段面临的新挑战。本文给出了在存在竞争时间分配周期(CTAP)的情况下，IEEE 802.15.3c认知MAC在定向竞争访问周期(D-CAP)下的饱和吞吐量的近似解析公式。该分析框架适用于N种器件，包括微网络控制器(PNC)。状态转移图用二维离散马尔可夫链建模。马尔可夫链的一个维度是退退阶段，第二个维度是退退计数器的值。饱和吞吐量由常规子cap (RS-CAP)的吞吐量与RS-CAP的吞吐量的加权比率的乘积近似，RS-CAP的吞吐量减去在当前RS-CAP结束之前传输数据包所需的时间，波束扇区中设备数量的概率，波束扇区数量和假警报概率。给出了典型参数值对应的饱和吞吐量的数值结果。这些结果表明，当WPAN中设备数量较大时，认知IEEE 802.15.3c MAC在使用单载波模式的D-CAP中具有优势。

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Saturated Throughput of a Cognitive IEEE 802.15.3c MAC in the Directional Contention Access Period

Coexistence between networks is an emerging challenge in the 60 GHz unlicensed band. An approximate analytical formulation of the saturated throughput of a cognitive IEEE 802.15.3c MAC in the directional contention access period (D-CAP) in the presence of contention time allocation period (CTAP) is presented in this paper. The analytical framework is formulated for N devices, including the pico-net controller (PNC). The state transition diagram is modeled by a two-dimensional discrete-time Markov chain. One dimension of the Markov chain is for the backoff stage and the second dimension is for the value of the backoff counter. The saturated throughput is approximated by the product of a weighted ratio of the throughput of the regular sub-CAP (RS-CAP) and the throughput of the RS-CAP minus the period necessary to transmit a packet before the end of the current RS-CAP, the probability of the number of devices in a beam sector, the number of beam sectors and the probability of false alarm. Numerical results of the saturated throughput corresponding to typical parameter values are presented. These results show the advantage of the cognitive IEEE 802.15.3c MAC in the D-CAP using the single carrier mode when the number of devices in the WPAN is large.

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2010 IEEE 72nd Vehicular Technology Conference - Fall

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