We study age-agnostic scheduling in a non-preemptive status update system with two sources sending time-stamped information packets at random instances to a common monitor through a single server. The server is equipped with a waiting room holding the freshest packet from each source called "single-buffer per-source queueing". The server is assumed to be work-conserving and when the waiting room has two waiting packets (one from each source), a probabilistic scheduling policy is applied so as to provide Age of Information (AoI) differentiation for the two sources of interest. Assuming Poisson packet arrivals and exponentially distributed service times, the exact distributions of AoI and also Peak AoI (PAoI) for each source are first obtained. Subsequently, this analytical tool is used to numerically obtain the optimum probabilistic scheduling policy so as to minimize the weighted average AoI/PAoI by means of which differentiation can be achieved between the two sources. In addition, a pair of heuristic age-agnostic schedulers are proposed on the basis of heavy-traffic analysis and comparatively evaluated in a wide variety of scenarios, and guidelines are provided for scheduling and AoI differentiation in status update systems with two sources.
翻译:我们在一个非先发制人的状态更新系统中研究年龄不可感知的时间安排,有两个来源通过单一服务器随机地向一个普通显示器发送有时间标记的信息包,服务器配备了一个等候室,每个来源的“单缓冲/源排队”,每个来源的“单缓冲/源排队”,服务器假定是工作的,等待室有两个等待包(每个来源一个)时,适用一种概率性时间安排政策,为这两个来源提供信息年龄(AoI)的区别。假设Poisson 包到达和指数分布的服务时间,首次获得每个来源的AoI和Peak AoI(PaoI)的确切分布。随后,这一分析工具用于从数字上获得最佳的概率性时间安排政策,以便尽可能减少加权平均AoI/PaoI(每个来源一个),从而实现两个来源之间的差别。此外,还根据重交式分析以及两个来源的快速分发服务时间分配,提出了一套超时序式年龄排队列,同时对各种情况进行对比评估。