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Higher order fuzzy logic in controlling selective catalytic reduction systems

机译：控制选择性催化还原系统的高阶模糊逻辑

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This paper presents research on applications of fuzzy logic and higher-order fuzzy logic systems to control filters reducing air pollution [1]. The filters use Selective Catalytic Reduction (SCR) method and, as for now, this process is controlled manually by a human expert. The goal of the research is to control an SCR system responsible for emission of nitrogen oxide (NO) and nitrogen dioxide (NO2) to the air, using SCR with ammonia (NH3). There are two higher-order fuzzy logic systems presented, applying interval-valued fuzzy sets and type-2 fuzzy sets, respectively. Fuzzy sets and higher order fuzzy sets describe linguistically levels of nitrogen oxides as the input, and settings of ammonia valve in the air filter as the output. The obtained results are consistent with data provided by experts. Besides, we show that the type-2 fuzzy logic controllers allows us to obtain results much closer to desired parameters of the ammonia valve, than traditional FLS.

机译：本文介绍了模糊逻辑和高阶模糊逻辑系统在控制过滤器减少空气污染方面的应用研究[1]。过滤器使用选择性催化还原（SCR）方法，并且到目前为止，此过程是由人类专家手动控制的。该研究的目标是使用SCR和氨气（NH3）来控制负责向空气中排放氮氧化物（NO）和二氧化氮（NO2）的SCR系统。提出了两种高阶模糊逻辑系统，分别应用了区间值模糊集和类型2模糊集。模糊集和高阶模糊集将语言上的氮氧化物水平描述为输入，并将空气过滤器中氨气阀的设置描述为输出。所得结果与专家提供的数据一致。此外，我们表明，与传统的FLS相比，类型2模糊逻辑控制器使我们可以获得与氨气阀所需参数更接近的结果。

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Niewiadomski, Adam; Kacprowicz, Marcin;
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年度 2014
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1. Higher order fuzzy logic in controlling selective catalytic reduction systems [J] . Niewiadomski A., Kacprowicz M. Bulletin of the Polish Academy of Sciences. Technical Sciences . 2014,第4期

机译：控制选择性催化还原系统的高阶模糊逻辑
2. Higher order fuzzy logic in controlling selective catalytic reduction systems [J] . A. Niewiadomski, M. Kacprowicz Bulletin of the Polish Academy of Sciences. Technical Sciences . 2014,第4期

机译：控制选择性催化还原系统的高阶模糊逻辑
3. Higher order fuzzy logic in controlling selective catalytic reduction systems [J] . A. NiewiadomskiCorresponding authorInstitute of Information Technology Lodz University of Technology 215 Wólcza?ska St. 90-924 ?ód? PolandEmailOther articles by this author:De Gruyter OnlineGoogle Scholar, M. KacprowiczInstitute of Information Technology Lodz University of Technology 215 Wólcza?ska St. 90-924 ?ód? PolandInstitute of Social Sciences and Computer Science Higher Vocational State School in W?oc?awek 17 3-go Maja St. 87-800 W?oc?awek PolandOther articles by this author:De Gruyter OnlineGoogle Scholar Bulletin of the Polish Academy of Sciences. Technical Sciences . 2014,第4期

机译：控制选择性催化还原系统的高阶模糊逻辑
4. A multiple model-based controller for NOx reduction in a selective catalytic reduction system [C] . Zambrano Darine, Tayamon Soma European Control Conference . 2013

机译：基于多模型的选择性催化还原系统中NOx还原的控制器
5. A lean nitrogen oxides trap+selective catalytic reduction system for controlling the nitrogen oxides emissions from a diesel engine. [D] . Theis, Joseph R. 2006

机译：稀薄的氮氧化物捕集阱+选择性催化还原系统，用于控制柴油机排放的氮氧化物。
6. Modeling and Simulation of Control Actuation System with Fuzzy-PID Logic Controlled Brushless Motor Drives for Missiles Glider Applications [O] . Murali Muniraj, Ramaswamy Arulmozhiyal 2015

机译：模糊PID逻辑控制的无刷电机驱动控制系统的建模与仿真
7. Fuzzy Rule Reduction and Tuning of Fuzzy Logic Controllers for a HVAC System ∗ [O] . R. Alcalá, J. Alcalá-fdez, M. J. Gacto, 2014

机译：HVaC系统模糊控制器的模糊规则约简和调整*
8. Development of the integrated environmental control model: Cost models of selective catalytic reduction (SCR) NO(sub x) control systems. Quarterly progress report, October--December 1993 [R] . Frey, H C, Rubin, E S 1994

机译：开发综合环境控制模型：选择性催化还原（sCR）NO（sub x）控制系统的成本模型。 1993年10月至12月的季度进度报告

Higher order fuzzy logic in controlling selective catalytic reduction systems

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