Trading Throughput for Freshness: Freshness-aware Traffic Engineering and In-Network Freshness Control

IF 0.7 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS
Shih-Hao Tseng, Soojean Han, A. Wierman
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引用次数: 2

Abstract

With the advent of the Internet of Things (IoT), applications are becoming increasingly dependent on networks to not only transmit content at high throughput but also deliver it when it is fresh, i.e., synchronized between source and destination. Existing studies have proposed the metric age of information (AoI) to quantify freshness and have system designs that achieve low AoI. However, despite active research in this area, existing results are not applicable to general wired networks for two reasons. First, they focus on wireless settings, where AoI is mostly affected by interference and collision, while queueing issues are more prevalent in wired settings. Second, traditional high-throughput/low-latency legacy drop-adverse (LDA) flows are not taken into account in most system designs; hence, the problem of scheduling mixed flows with distinct performance objectives is not addressed. In this article, we propose a hierarchical system design to treat wired networks shared by mixed flow traffic, specifically LDA and AoI flows, and study the characteristics of achieving a good tradeoff between throughput and AoI. Our approach to the problem consists of two layers: freshness-aware traffic engineering (FATE) and in-network freshness control (IFC). The centralized FATE solution studies the characteristics of the source flow to derive the sending rate/update frequency for flows via the optimization problem LDA-AoI Coscheduling. The parameters specified by FATE are then distributed to IFC, which is implemented at each outport of the network’s nodes and used for efficient scheduling between LDA and AoI flows. We present a Linux implementation of IFC and demonstrate the effectiveness of FATE/IFC through extensive emulations. Our results show that it is possible to trade a little throughput (5% lower) for much shorter AoI (49% to 71% shorter) compared to state-of-the-art traffic engineering.
用吞吐量交换新鲜度:新鲜度感知流量工程和网络内新鲜度控制
随着物联网(IoT)的出现,应用程序越来越依赖于网络,不仅要以高吞吐量传输内容,还要在内容新鲜时提供内容,即在源和目的地之间同步。现有的研究已经提出了度量信息年龄(AoI)来量化新鲜度,并有实现低AoI的系统设计。然而,尽管这一领域的研究非常活跃,但由于两个原因,现有的结果并不适用于一般的有线网络。首先,他们关注无线设置,其中AoI主要受到干扰和碰撞的影响,而排队问题在有线设置中更为普遍。其次,传统的高吞吐量/低延迟遗留drop-adverse (LDA)流在大多数系统设计中没有被考虑;因此,没有解决具有不同性能目标的混合流的调度问题。在本文中,我们提出了一种分层系统设计来处理由混合流流量(特别是LDA和AoI流)共享的有线网络,并研究了在吞吐量和AoI之间实现良好权衡的特性。我们解决这个问题的方法包括两层:新鲜度感知流量工程(FATE)和网络内新鲜度控制(IFC)。集中式FATE解决方案研究源流的特性,通过优化问题LDA-AoI协同调度,推导出流的发送速率/更新频率。FATE指定的参数随后被分发给IFC, IFC在网络节点的每个输出端口实现,并用于在LDA和AoI流之间进行有效调度。我们提出了IFC的Linux实现,并通过广泛的仿真证明了FATE/IFC的有效性。我们的结果表明,与最先进的交通工程相比,可以用少量吞吐量(降低5%)换取更短的AoI(缩短49%至71%)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.10
自引率
0.00%
发文量
9
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