Richard S Hernandez-Mesa, F. Moreno-García, S. Castro-Casadiego, B. Medina-Delgado
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引用次数: 1
摘要
在本项目中,在工业过程培训模块中提出了一种模糊控制系统,该系统之间有两个独立的系统,一个是热力系统,另一个是气动系统。控制算法是用Python语言v3.6开发的,由Raspberry Pi B+执行,两个控制器都取决于误差和误差的变化,误差和变化分别在2 s和1 s的时间内更新,用于温度和压力,与工厂的通信使用a/D和D/a转换器,用三个温度参考[50100和150]°C分析热模糊,上升时间分别为191秒、360秒和505秒;稳态误差为5.5%,0.7%y 0.7%,在气动系统中,参考之间的变化速度从10psi到15psi进行评估,在实验开始时改变压缩机的激活,获得的沉降时间为111s和106s,在压缩机关闭的情况下,结果为116s和88s,除了最大超过13%,该类型系统的固有振荡在可接受的范围内。
Experimental Development of Fuzzy Controllers for Thermal and Pneumatic Processes
In this project, a Fuzzy control system is proposed in an industrial process training module with two independent systems between them, one thermal and the other pneumatic. The control algorithm is developed in Python language v3.6 executed by a Raspberry Pi B+, both controllers depend on the error and change in error that are updated in times of 2 s and 1 s, for temperature and pressure respectively, communication with the plants uses A/D and D/A converters, the thermal Fuzzy was analyzed with three temperature references [50,100 and 150]°C, with a rise time of 191 s, 360 s and 505 s; steady state error of 5.5%, 0.7% y 0.7%, in the pneumatic system the speed of change between references is evaluated from 10 psi to 15 psi varying the activation of the compressor at the beginning of the experiments, the settling times obtained are 111 s and 106 s, with the compressor off the result is 116 s and 88 s, besides a maximum excess of 13% with inherent oscillations to the type system that are in an acceptable range.
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