Fieldbus based integrated communication and control systems-architectural implications

Proceedings of 4th IEEE International Workshop on Advanced Motion Control - AMC '96 - MIE Pub Date : 1996-03-18 DOI:10.1109/AMC.1996.509306

J. Decotignie, D. Auslander, M. Moreaux

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引用次数: 7

Abstract

Fieldbusses are often used in control applications with feedback loops using the fieldbus for input and output operations. Intuitively, it is felt that communication delays may degrade the achievable feedback performance. In this paper, we use the modified synchronous model to calculate the different constraints imposed by fieldbusses on periodic distributed applications when predictable communications are required. We then apply these results to two different control architectures, feedback and feedforward systems. It appears that feedback systems with sensor to actuator delay below the sampling period duration lead to an inefficient use of processing resources and heavily constrain the transfers on the fieldbus. We present two possible implementations of feedforward and feedback systems which, under the same load conditions on the fieldbus, exhibit a much better use of resources. We also show that the message transfer laxity may always be kept large enough by proper selection of the implementation. Finally, these results are illustrated in the architecture of a computer numerical controller for machine-tools.

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基于现场总线的集成通信和控制系统——体系结构意义

现场总线通常用于具有反馈回路的控制应用程序中，使用现场总线进行输入和输出操作。直观地认为，通信延迟可能会降低可实现的反馈性能。在本文中，我们使用改进的同步模型来计算当需要可预测通信时，现场总线对周期性分布式应用程序施加的不同约束。然后我们将这些结果应用于两种不同的控制体系结构，反馈和前馈系统。传感器到执行器延迟低于采样周期持续时间的反馈系统似乎导致处理资源的低效使用，并严重限制了现场总线上的传输。我们提出了两种可能的前馈和反馈系统的实现，在现场总线上相同的负载条件下，表现出更好的资源利用。我们还表明，通过正确选择实现，可以始终保持足够大的消息传输松弛性。最后，这些结果在机床计算机数控系统的结构中得到了说明。

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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Proceedings of 4th IEEE International Workshop on Advanced Motion Control - AMC '96 - MIE

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