We study the average Age of Information (AoI) and peak AoI (PAoI) of a dual-queue status update system that monitors a common stochastic process. Although the double queue parallel transmission is instrumental in reducing AoI, the out of order of data arrivals also imposes a significant challenge to the performance analysis. We consider two settings: the M-M system where the service time of two servers is exponentially distributed; the M-D system in which the service time of one server is exponentially distributed and that of the other is deterministic. For the two dual-queue systems, closed-form expressions of average AoI and PAoI are derived by resorting to the graphic method and state flow graph analysis method. Our analysis reveals that compared with the single-queue system with an exponentially distributed service time, the average PAoI and the average AoI of the M-M system can be reduced by 33.3% and 37.5%, respectively. For the M-D system, the reduction in average PAoI and the average AoI are 27.7% and 39.7%, respectively. Numerical results show that the two dual-queue systems also outperform the M/M/2 single queue dual-server system with optimized arrival rate in terms of average AoI and PAoI.
翻译:我们研究了监测共同随机过程的双卵状态更新系统(AoI)和顶峰AoI(PaoI)的平均信息年龄(AoI)和峰值AoI(PaoI)的平均信息年龄。虽然双队平行传输有助于减少AoI,但数据抵达量的偏差也给绩效分析带来重大挑战。我们考虑到两个环境:M-M系统,其中两个服务器的服务时间分布指数指数化;M-D系统,其中一个服务器的服务时间是指数化分布的,另一个服务器的服务时间是确定性的。对于两个双队系统,平均AoI和PaoI的封闭式表达方式是通过采用图形方法和状态流图分析方法得出的。我们的分析显示,与指数分布服务时间的单队系统相比,平均PaoI和M-M系统的平均AoI可以分别减少33.3%和37.5%。平均AoI和平均AoI系统减少27.7%和39.7%。Numical结果显示,与双星/双式AIS系统相比,双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双式双
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