A Flexible Task Design for Industrial Embedded Systems

IECON 2020 The 46th Annual Conference of the IEEE Industrial Electronics Society Pub Date : 2020-10-18 DOI:10.1109/IECON43393.2020.9254835

Niclas Ericsson, J. Åkerberg, M. Björkman, T. Lennvall, S. Larsson, Hongyu Pei Breivold

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Abstract

The run-time context in industrial embedded systems varies from bare-metal microcontrollers, to multicore-processors running real-time operating systems. Due to the longevity of industrial systems, reusability and evolvability are often considered crucial quality attributes. This paper presents a new flexible task design that enables tasks to be agnostic to run-time context. Evaluations of the design were made by conducting experiments using a proof of concept implementation of the proposed design. The experiments were based on typical industrial constructs, such as periodic tasks, and event signaling from interrupts. Findings from the experiments show that tasks can be more agnostic to run-time context and still deliver functionality normally used within industry. The results indicate that it is feasible to improve reusability and evolvability between different run-time contexts, and in addition, support hybrid configurations that can reduce resource usage, since e.g. a thread can be easily shared among several tasks.

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工业嵌入式系统的柔性任务设计

工业嵌入式系统中的运行时环境各不相同，从裸机微控制器到运行实时操作系统的多核处理器。由于工业系统的寿命，可重用性和可演化性通常被认为是关键的质量属性。本文提出了一种新的灵活任务设计，使任务与运行时上下文无关。设计的评估是通过使用拟议设计的概念验证实施进行实验进行的。实验基于典型的工业结构，如周期性任务和中断的事件信号。实验结果表明，任务可以与运行时上下文更加不可知，并且仍然提供行业中通常使用的功能。结果表明，提高不同运行时上下文之间的可重用性和可演化性是可行的，此外，支持混合配置可以减少资源使用，因为例如一个线程可以很容易地在多个任务之间共享。

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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IECON 2020 The 46th Annual Conference of the IEEE Industrial Electronics Society

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