maxprop DTN路由中消息丢弃控制源中继(MDC-SR)的性能分析

2017 International Conference on Control, Electronics, Renewable Energy and Communications (ICCREC) Pub Date : 2017-09-01 DOI:10.1109/ICCEREC.2017.8226701

Aditya Nikolas Putra, Y. L. Vidya, A. W. Tody

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引用次数: 1

摘要

我们知道，容忍延迟网络(DTN)在每个节点上没有端到端的路径，因此会导致数据传输延迟的大量增加。为了克服这个问题，选择了“Store-Carry-Forward”范式，该范式用于将节点接收到的消息传递给其他节点。在该过程中，每个节点都有缓冲区，需要对每个节点进行缓冲区管理，以增加消息的传递概率，减少消息的丢失。在本文中，我们将在MaxProp路由上实现消息丢弃控制源中继(MDC-SR)缓冲区管理。MaxProp使用较小的缓冲区时性能较低。测试MDC-SR性能的场景是在MDC-SR方案中使用一些上限(UB)，使用随机消息大小的基于最短路径映射的移动。

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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Performance analysis of Message Drop Control Source Relay (MDC-SR) in maxprop DTN routing

As we know delay tolerant network (DTN) doesn't have an end-to-end path on each node, therefore it can cause an increase in data transmission delay by a huge amount. To overcome that problem, the “Store-Carry-Forward” paradigm is chosen, the paradigm is used to carry the message received by a node to other nodes. In that process, buffer is involved on each node and the process needs a buffer management on each node to increase the delivery probability and decrease the drop on message. On this paper we will be implementing the Message Drop Control Source Relay (MDC-SR) buffer management on MaxProp routing. MaxProp has a low performance using a small buffer. The scenario used in testing the performance of MDC-SR is by using some Upper Bound (UB) in the MDC-SR scheme using the Shortest Path Map Based Movement with random message size.

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2017 International Conference on Control, Electronics, Renewable Energy and Communications (ICCREC)

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