基于观测器的比例延缓控制器，用于减小包括负载升降在内的二维起重机系统的有效载荷摆动。

IF 6.3 2区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

ISA transactions Pub Date : 2024-12-01 DOI:10.1016/j.isatra.2024.09.022

Raúl Villafuerte-Segura , Roger Miranda-Colorado , Jesus A. Rodriguez-Arellano , Luis T. Aguilar

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引用次数: 0

摘要

起重机系统是用于工业和研究的重要系统。然而，它们总是受到内源性和外源性干扰的影响，这些干扰可能会产生不良的有效载荷振荡，从而危及人们的安全和系统本身。因此，为了解决这些问题并有效控制这些机电一体化系统，本手稿针对扰动二维起重机开发了一种基于鲁棒观测器的新型比例后退控制器，并考虑了绳索长度的变化。这种新型方案可使小车遵循所需的参考信号，同时减少有效载荷的变化。控制器结构允许补偿干扰，而新的控制方法引入了人工延迟，从而稳定了闭环系统并达到了预期的控制目标。正式的理论分析证明了新方案的有效性。然后，实验结果表明了所提出的控制方案的出色性能，以及与其他文献方法相比的优越性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Observer-based proportional-retarded controller for payload swing attenuation of 2D-crane systems including load hoisting-lowering

查看原文本刊更多论文

Observer-based proportional-retarded controller for payload swing attenuation of 2D-crane systems including load hoisting-lowering

Crane systems are essential systems utilized in industry and for research. Nevertheless, they are always affected by endogenous and exogenous disturbances, which may generate undesirable payload oscillations, compromising people’s security and the system itself. Thus, to deal with these issues and control these mechatronic systems efficiently, this manuscript develops a novel robust observer-based proportional-retarded controller for perturbed two-dimensional cranes, considering variation in the rope length. This novel scheme makes the trolley follow a desired reference signal while reducing the payload variations. The controller structure allows for compensating disturbances, while a new control approach introduces artificial delays that stabilize the closed-loop system and attain the desired control objective. A formal theoretical analysis demonstrates the validity of the new proposal. Then, experimental results show the outstanding performance of the proposed control scheme and its superior performance against other methodologies from the literature.

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来源期刊

ISA transactions 工程技术-工程：综合

CiteScore

11.70

自引率

12.30%

发文量

824

审稿时长

4.4 months

期刊介绍： ISA Transactions serves as a platform for showcasing advancements in measurement and automation, catering to both industrial practitioners and applied researchers. It covers a wide array of topics within measurement, including sensors, signal processing, data analysis, and fault detection, supported by techniques such as artificial intelligence and communication systems. Automation topics encompass control strategies, modelling, system reliability, and maintenance, alongside optimization and human-machine interaction. The journal targets research and development professionals in control systems, process instrumentation, and automation from academia and industry.