An experimental HIL study on the jitter sensitivity of an adaptive control system

Fathi Abugchem, M. Short, Donglai Xu
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引用次数: 6

Abstract

It has been widely accepted that real-time implementations of feedback control systems can be susceptible to timing jitters which may be caused by the underlying real-time and/or embedded implementation architecture. Previous experimental studies aimed at quantifying the levels of degradation that may be observed have mainly concentrated upon relatively simple fixed-gain feedback control schemes (e.g. PID) and time-invariant plant. Although some degradation has been observed, most systems have been shown to be surprisingly robust unless driven to extreme limits. In this paper, we study the jitter sensitivity of a real-time embedded implementation of a digital parameter-adaptive control system. The purpose of the study was two-fold; primarily, to obtain empirical data related to jitter sensitivity (as measured by a quadratic performance metric), and secondarily to explore the potential impact of the underlying scheduler choice on system behavior. The findings indicate that the adaptive controller was heavily influenced by sampling jitter, and that the choice of task scheduler had a role to play.
一种自适应控制系统抖动灵敏度的实验HIL研究
人们普遍认为,反馈控制系统的实时实现可能容易受到时序抖动的影响,这可能是由底层实时和/或嵌入式实现架构引起的。以往旨在量化可观察到的退化水平的实验研究主要集中在相对简单的固定增益反馈控制方案(例如PID)和定常植物上。尽管已经观察到一些退化,但大多数系统已显示出惊人的健壮性,除非被驱动到极端极限。本文研究了数字参数自适应控制系统的实时嵌入式实现的抖动灵敏度。这项研究的目的是双重的;首先,获得与抖动灵敏度相关的经验数据(通过二次性能度量来测量),其次,探索底层调度器选择对系统行为的潜在影响。研究结果表明,自适应控制器受采样抖动的影响较大,任务调度程序的选择也有一定的影响。
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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