年龄感知随机混合系统:稳定性、解决方案和应用

Ali Maatouk;Mohamad Assaad;Anthony Ephremides
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引用次数: 0

摘要

本文分析了通过随机混合系统(SHS)工具建模的状态更新系统。与以往的研究不同,我们允许系统的过渡动态是信息时代(AoI)的多项式函数。这种依赖性使我们能够囊括许多应用,并为研究更复杂的系统打开了大门。然而,这种对 AoI 的依赖也带来了技术和分析上的困难,我们将在本文中加以解决。具体来说,我们首先展示了通过 SHSs 工具建模的年龄过程的几个特征。然后,我们提供一个框架来建立这些过程的拉格朗日稳定性和正递归性。在此基础上,我们提供了一种计算年龄过程第 $m$ -th 矩的方法。有趣的是,这种技术允许我们通过求解一组简单的线性方程来近似计算平均年龄。利用这种方法,我们还提供了一种顺序凸近似方法,通过校准系统参数来优化平均年龄。最后,我们考虑了与年龄相关的 CSMA 环境,在这种环境中,后退持续时间取决于瞬时年龄。利用我们的分析,我们将其性能与无年龄限制的 CSMA 进行了对比,并展示了前者提供的年龄性能增益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Age-Aware Stochastic Hybrid Systems: Stability, Solutions, and Applications
In this paper, we analyze status update systems modeled through the Stochastic Hybrid Systems (SHSs) tool. Contrary to previous works, we allow the system’s transition dynamics to be polynomial functions of the Age of Information (AoI). This dependence allows us to encapsulate many applications and opens the door for more sophisticated systems to be studied. However, this same dependence on the AoI engenders technical and analytical difficulties that we address in this paper. Specifically, we first showcase several characteristics of the age processes modeled through the SHSs tool. Then, we provide a framework to establish the Lagrange stability and positive recurrence of these processes. Building on this, we provide an approach to compute the $m$ -th moment of the age processes. Interestingly, this technique allows us to approximate the average age by solving a simple set of linear equations. Equipped with this approach, we also provide a sequential convex approximation method to optimize the average age by calibrating the parameters of the system. Finally, we consider an age-dependent CSMA environment where the back-off duration depends on the instantaneous age. By leveraging our analysis, we contrast its performance to the age-blind CSMA and showcase the age performance gain provided by the former.
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CiteScore
8.20
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