自组网中与邻居终端的自主重传控制

Taku Yamazaki, R. Yamamoto, T. Miyoshi, Y. Tanaka
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引用次数: 1

摘要

在自组织网络中,无线电干扰和终端移动会导致帧丢失。当连续出现丢帧时,一般数据链路层协议认为是链路故障,然后通知网络层协议。在传统的路由协议中,即使源终端仍然有到目的终端的有效路由,源终端也会在收到通知后启动路由发现过程,以便从链路故障中恢复过来。但是,路由发现需要路由请求泛洪,泛洪会消耗有限的网络资源,也会降低传输效率。为了解决这些问题,提出了几种重传和中继控制方法。在这些方法中,传输路由的相邻终端侦听已发送的帧,并利用侦听到的帧自主重传丢失的帧。然而,传统的重传方法在突发丢帧间隔下存在传输效率低下的缺点。此外,传统的继电控制方法在稀疏帧损失下存在处理开销大、自适应慢的问题。在本文中,我们提出了一种有效且轻量级的方法,使相邻终端考虑丢失的频率自适应重传丢失的帧。计算机仿真验证了该方法的性能和有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Autonomous retransmission control with neighbour terminals for ad hoc networks
In ad hoc networks, radio interference and terminal' mobility can cause frame losses. When the frame losses occur continuously, general datalink layer protocols regard it as a link failure and then notify it to network layer protocols. In conventional routing protocols, a source terminal initiates route discovery process to recover from the link failures on receiving the notifications even if the source terminal still has a valid route to a destination terminal. However, the route discovery requires a route request flooding and the flooding may consume limited network resources of ad hoc networks and that also degrades transmission efficiency. For solving the problems, several retransmission and relay control methods have been proposed. In these methods, neighbour terminals of a transmission route overhear transmitted frames and retransmit lost frames autonomously by using the overheard frames. However, the conventional retransmission methods have a disadvantage that they degrade the transmission efficiency under bursty frame loss interval. Moreover, conventional relay control methods suffer from a processing overhead and a slow adaptation problem under a sparse frame loss. In this paper, we propose an efficient and lightweight method that neighbour terminals adaptively retransmit lost frames considering a frequency of the losses. Computer simulations clarify the performances and the effectiveness of the proposed method.
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