Comparison of conventional closed-loop controller with an adaptive controller for a disturbed thermodynamic system

2017 Evolving and Adaptive Intelligent Systems (EAIS) Pub Date : 2017-05-01 DOI:10.1109/EAIS.2017.7954841
R. A. Alphinas, H. Hansen, Torben Tambo
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引用次数: 4

Abstract

Non-adaptive proportional controllers suffer from the ability to handle a system disturbance leading to a large steady-state error and undesired transient behavior. On the other hand, they are easy to implement and tune. This article examines whether an adaptive controller based on the MIT and Lyapunov principle leads to a more robust and accurate regulation. Both controllers have been tested on a thermodynamic system exposed to a disturbance. The experiment shows that the adaptive controller handles the disturbance faster and more accurate.
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扰动热力学系统常规闭环控制器与自适应控制器的比较
非自适应比例控制器具有处理系统扰动的能力,这些扰动会导致较大的稳态误差和不期望的暂态行为。另一方面,它们易于实现和调优。本文研究了基于MIT和Lyapunov原理的自适应控制器是否会导致更鲁棒和准确的调节。这两种控制器都在一个受到干扰的热力学系统上进行了测试。实验表明,自适应控制器对扰动的处理速度更快、精度更高。
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2017 Evolving and Adaptive Intelligent Systems (EAIS)
2017 Evolving and Adaptive Intelligent Systems (EAIS)
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