VINE: Zero-Control-Packet Routing for Ultra-Low-Capacity Mobile Ad Hoc Networks

MILCOM 2019 - 2019 IEEE Military Communications Conference (MILCOM) Pub Date : 2019-11-01 DOI:10.1109/MILCOM47813.2019.9020768

Ayush Dusia, R. Ramanathan, Warren Ramanathan, Christophe Servaes, A. Sethi

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引用次数: 5

Abstract

We consider the problem of routing short-burst data in Mobile Ad Hoc Networks (MANETs) characterized by ultra-low data rates. Existing routing protocols exhibit poor scalability in such low-capacity regimes due to their use of control packets. We present a novel on-demand zero-control-packet routing protocol called VINE that computes cost gradients to nodes by inspecting packet headers of the received data packets, which are then used to forward the future data packets. VINE provides data reliability via per-hop implicit acknowledgments and end-to-end acknowledgments. We describe VINE and derive an expression for its communication complexity. We present ns3 simulation results across a wide range of network sizes, densities, and traffic that show that VINE significantly outperforms AODV across all of these scenarios, with up to ~2.5x higher delivery ratio. VINE also provides better security by eliminating scope for control attacks. VINE has been implemented on the goTenna Pro mesh networking device for the military and public safety markets.

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VINE:超低容量移动自组织网络的零控制分组路由

研究了以超低数据速率为特征的移动自组网(manet)中短突发数据的路由问题。现有的路由协议由于使用控制包，在这种低容量的情况下表现出较差的可伸缩性。我们提出了一种新的按需零控制包路由协议，称为VINE，它通过检查接收到的数据包的包头来计算节点的成本梯度，然后用于转发未来的数据包。VINE通过每跳隐式确认和端到端确认提供数据可靠性。我们描述VINE，并推导出其通信复杂性的表达式。我们展示了在广泛的网络规模、密度和流量范围内的ns3模拟结果，表明VINE在所有这些场景下都明显优于AODV，交付率高达2.5倍。VINE还通过消除控制攻击的范围来提供更好的安全性。VINE已经在用于军事和公共安全市场的goTenna Pro网状网络设备上实施。

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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MILCOM 2019 - 2019 IEEE Military Communications Conference (MILCOM)

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