Tool Integration for Automated Synthesis of Distributed Embedded Controllers

Debayan Roy, Licong Zhang, Wanli Chang, Dip Goswami, B. Vogel‐Heuser, S. Chakraborty
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引用次数: 2

Abstract

Controller design and their software implementations are usually done in isolated design spaces using respective COTS design tools. However, this separation of concerns can lead to long debugging and integration phases. This is because assumptions made about the implementation platform during the design phase—e.g., related to timing—might not hold in practice, thereby leading to unacceptable control performance. In order to address this, several control/architecture co-design techniques have been proposed in the literature. However, their adoption in practice has been hampered by the lack of design flows using commercial tools. To the best of our knowledge, this is the first article that implements such a co-design method using commercially available design tools in an automotive setting, with the aim of minimally disrupting existing design flows practiced in the industry. The goal of such co-design is to jointly determine controller and platform parameters in order to avoid any design-implementation gap , thereby minimizing implementation time testing and debugging. Our setting involves distributed implementations of control algorithms on automotive electronic control units ( ECUs ) communicating via a FlexRay bus. The co-design and the associated toolchain Co-Flex jointly determines controller and FlexRay parameters (that impact signal delays) in order to optimize specified design metrics. Co-Flex seamlessly integrates the modeling and analysis of control systems in MATLAB/Simulink with platform modeling and configuration in SIMTOOLS/SIMTARGET that is used for configuring FlexRay bus parameters. It automates the generation of multiple Pareto-optimal design options with respect to the quality of control and the resource usage, that an engineer can choose from. In this article, we outline a step-by-step software development process based on Co-Flex tools for distributed control applications. While our exposition is automotive specific, this design flow can easily be extended to other domains.
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分布式嵌入式控制器自动合成的工具集成
控制器设计及其软件实现通常在独立的设计空间中使用各自的COTS设计工具完成。然而,这种关注点分离可能导致长时间的调试和集成阶段。这是因为在设计阶段对实现平台做了假设。(与时间有关)在实践中可能不成立,从而导致不可接受的控制性能。为了解决这个问题,文献中提出了几种控制/体系结构协同设计技术。然而,由于缺乏使用商业工具的设计流程,它们在实践中的采用受到了阻碍。据我们所知,这是第一篇在汽车环境中使用商业上可用的设计工具实现这种协同设计方法的文章,其目的是尽量减少对行业中现有设计流程的干扰。这种协同设计的目标是共同确定控制器和平台参数,以避免任何设计与实现的差距,从而最大限度地减少实现时间的测试和调试。我们的设置涉及通过FlexRay总线通信的汽车电子控制单元(ecu)上的控制算法的分布式实现。协同设计和相关工具链Co-Flex共同确定控制器和FlexRay参数(影响信号延迟),以优化指定的设计指标。Co-Flex将MATLAB/Simulink中的控制系统建模和分析与SIMTOOLS/SIMTARGET中的平台建模和配置无缝集成,用于配置FlexRay总线参数。它可以根据控制质量和资源使用情况自动生成多个pareto最优设计选项,工程师可以从中进行选择。在本文中,我们概述了基于Co-Flex工具的分布式控制应用程序的逐步软件开发过程。虽然我们的说明是特定于汽车的,但是这个设计流程可以很容易地扩展到其他领域。
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