一种高效的毛细机型通信随机接入方案

K. Ashrafuzzaman, A. Fapojuwo
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引用次数: 2

摘要

在毛细管机器类型的通信中,随机多址是链路层的自然选择,因为涉及到大量间歇性的、事件驱动的通信。然而,这方面的一个主要挑战来自预期的大规模网络。考虑基于载波感知的多址随机访问协议,其中基础设施支持以协调节点的形式提供,本文提出了一个框架,以帮助在面对分组流量的时间变化时保持有效的协议性能。协调器根据协议性能的某些分析特征,通过在线算法动态确定一个及时的争用参数,并机会地通知终端节点。与基于二进制指数回退的解决方案相比,该方案产生的吞吐量、公平性和延迟变化性能在相同设置下始终接近于最优协议。
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On an Efficient Random Access Scheme for Capillary Machine Type Communication
In capillary machine type communications, random multi-access lends itself as a natural choice at the link layer due to the largely intermittent, event-driven traffic involved. A major challenge to that end arises, however, from the anticipated large scale of the network. Considering a carrier sense multiple access based random access protocol where infrastructural support is available in the form of a coordinator node, this paper presents a framework to help sustain efficient protocol performance when faced with temporal variation in packet traffic. The coordinator dynamically determines a timely contention parameter by means of an online algorithm based on certain analytic characterizations of the protocol performance, and the end-nodes get opportunistically notified of it. Throughput, fairness and delay-variation performance produced by the proposed scheme turns out to be consistently close to an optimal protocol in identical settings, in contrast with that of the binary exponential backoff based solutions.
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