Modeling and Control of Interacting Irrigation Channels

2019 IEEE 4th Colombian Conference on Automatic Control (CCAC) Pub Date : 2019-10-01 DOI:10.1109/CCAC.2019.8920926

Gregory Conde, N. Quijano, Carlos Ocampo-Matinez

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引用次数: 2

Abstract

One of the most important activities in agriculture is irrigation, which has a high ecological impact and expends around 85% of the freshwater that humanity consumes. In the irrigation process, most of the water is transported by networks of open-channel irrigation systems (OCIS) to each farmer. Despite the importance of the process, in Colombia these systems are not automatized in order to reduce the waste of water. Additionally, several studies address the control problem in non-interactive channels, however in OCIS the water is usually transported by interactive channels. In this paper, a modeling and control strategy for interactive channels are proposed. The model is based on mass balance and considers interactions, delays, and potential energy difference along the channels. The control strategy used is backstepping. The model is compared with EPA-SWMM, and the control strategy is tested over the proposed model. The results show that the model is suitable for control systems design and the control strategy is able to overcome parameter variation, channel interaction, nonlinearities, and internal delays.

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相互作用灌溉渠道的建模与控制

农业中最重要的活动之一是灌溉，它具有很高的生态影响，消耗了人类消耗的约85%的淡水。在灌溉过程中，大部分水是通过明渠灌溉系统(OCIS)网络输送给每个农民的。尽管这一过程很重要，但在哥伦比亚，这些系统并没有实现自动化，以减少水的浪费。此外，一些研究解决了非交互通道中的控制问题，但在OCIS中，水通常是通过交互通道输送的。本文提出了一种交互式通道的建模和控制策略。该模型基于质量平衡，并考虑了通道上的相互作用、延迟和势能差。使用的控制策略是后退。将该模型与EPA-SWMM进行了比较，并在该模型上对控制策略进行了测试。结果表明，该模型适用于控制系统设计，控制策略能够克服参数变化、通道相互作用、非线性和内部延迟等问题。

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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2019 IEEE 4th Colombian Conference on Automatic Control (CCAC)

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