A Novel Multi-Channel MAC Protocol Based on Adaptive Backoff for Airborne Networks

2018 10th International Conference on Communication Software and Networks (ICCSN) Pub Date : 2018-07-01 DOI:10.1109/iccsn.2018.8488288

Weilun Liu, Hengyang Zhang, B. Zheng, Weiting Gao, Jing Liu, Zhikang Qin

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Abstract

In order to provide the high reliability, low Iatency and the optimal system throughput performances of transmission traffic from multiple aircrafts when performing intelligence reconnaissance, situation awareness and other missions for airborne networks, we propose a novel multi-channel media access control protocol based on adaptive backoff in this paper. The protocol adopts an adaptive backoff algorithm to adjust jitter window according to channel loads in real time, an optimal channel access mechanism to achieve the optimal system throughput and a multi-channel mechanism to reduce the packet mean delay. By establishing a queuing model and a two-dimensional Markov chain model for backoff process, the probability of packets allowed to access channels and access threshold can be obtained. We also solve the mathematical expressions of successful transmission rate, mean delay and system throughput, and verify the correctness of the derivations through simulations. Simulation results show that the protocol can meet the performance requirements of high reliability and large system throughput for airborne networks.

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基于自适应后退的机载网络多通道MAC协议

为了保证机载网络在执行情报侦察、态势感知等任务时多机传输业务的高可靠性、低时延和最佳的系统吞吐量性能，提出了一种基于自适应后退的多通道媒体访问控制协议。该协议采用自适应后退算法根据信道负载实时调整抖动窗口，采用最优信道访问机制实现最优系统吞吐量，采用多信道机制降低数据包平均时延。通过建立退避过程的排队模型和二维马尔可夫链模型，得到了允许数据包访问通道的概率和访问阈值。求解了成功传输速率、平均时延和系统吞吐量的数学表达式，并通过仿真验证了推导的正确性。仿真结果表明，该协议能够满足机载网络对高可靠性和大系统吞吐量的性能要求。

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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2018 10th International Conference on Communication Software and Networks (ICCSN)

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