Improving the Worst-Case Delay Analysis of an AFDX Network Using an Optimized Trajectory Approach

Bauer H.; Scharbarg J.-L.; Fraboul C.

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Improving the Worst-Case Delay Analysis of an AFDX Network Using an Optimized Trajectory Approach

机译：使用优化轨迹方法改进AFDX网络的最坏情况延迟分析

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Avionics Full Duplex Switched Ethernet (AFDX) standardized as ARINC 664 is a major upgrade for avionics systems. The mandatory certification implies a worst-case delay analysis of all the flows transmitted on the AFDX network. Up to now, this analysis is done thanks to a tool based on a Network Calculus approach. The more recent Trajectory approach has been proposed for the computation of worst-case response time in distributed systems. This paper shows how the worst-case delay analysis of the AFDX can be improved using an optimized Trajectory approach. The Network Calculus and the Trajectory approaches are compared on a real avionics AFDX configuration. Moreover, an evaluation of an upper bound of the pessimism of each approach is proposed.

机译：航空电子全双工交换以太网（AFDX）标准化为ARINC 664，是航空电子系统的重大升级。强制性认证意味着对AFDX网络上传输的所有流进行最坏情况的延迟分析。到目前为止，借助基于网络演算方法的工具可以完成此分析。已经提出了最新的轨迹方法来计算分布式系统中最坏情况的响应时间。本文展示了如何使用优化的弹道方法来改善AFDX的最坏情况延迟分析。在实际的航空电子AFDX配置上比较了网络微积分和轨迹方法。此外，提出了对每种方法的悲观主义上限的评估。

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来源
《Industrial Informatics, IEEE Transactions on》 |2010年第4期|p.521-533|共13页
作者
Bauer H.; Scharbarg J.-L.; Fraboul C.;
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作者单位

Airbus France, Toulouse, France;

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原文格式 PDF
正文语种 eng
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关键词
Aircraft; Ethernet networks; analytical model; real-time systems; upper bound;

机译：飞机;以太网络;分析模型;实时系统;上限;

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专利

1. Worst-case flow model of VL for worst-case delay analysis of AFDX [J] . Liu C., Wang T., Zhao C., Electronics Letters . 2012,第6期

机译：用于AFDX最坏情况延迟分析的VL最坏情况流模型
2. Applying Trajectory approach with static priority queuing for improving the use of available AFDX resources [J] . Henri Bauer, Jean-Luc Scharbarg, Christian Fraboul Real-time systems . 2012,第1期

机译：将轨迹方法与静态优先级排队一起应用，以改善可用AFDX资源的使用
3. Stability analysis on delayed neural networks based on an improved delay-partitioning approach [J] . Li T., Song A., Xue M., Journal of Computational and Applied Mathematics . 2011,第9期

机译：基于改进的延迟划分方法的延迟神经网络稳定性分析
4. Using memo recursive computation in the Trajectory approach for the worst-case delay analysis of AFDX networks [C] . Zhao Luxi, Xiong Huagang, Li Qiao, 2011 International Conference on Electrical and Control Engineering . 2011

机译：在轨迹方法中使用备忘录递归计算进行AFDX网络的最坏情况延迟分析
5. An Optimized Hidden Node Handling Approach for Improving the Coverage and Network Efficiency in Wireless Multimedia Sensor Networks. [D] . Alanazi, Adwan. 2017

机译：一种优化的隐藏节点处理方法，可提高无线多媒体传感器网络的覆盖范围和网络效率。
6. Improving Worst-Case Delay Analysis for Traffic of Additional Stream Reservation Class in Ethernet-AVB Network [O] . Lin Zhao, Feng He, Ershuai Li, 2018

机译：改进以太网-AVB网络中附加流预留类流量的最坏情况时延分析
7. A Revised Trajectory Approach for the Worst-Case Delay Analysis of an AFDX Network [O] . Xueqian Tang, Qiao Li, Guangshan Lu, 2019

机译：AFDX网络最差延迟分析的修订轨迹方法

Improving the Worst-Case Delay Analysis of an AFDX Network Using an Optimized Trajectory Approach

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