饮用水中离子和有机物分析的一种新型自动决策过程

Q3 Environmental Science
T. Javanbakht
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引用次数: 1

摘要

本文应用一种新颖的TOPSIS自动化决策过程来分析饮用水中的离子和有机物质。假设具有Łukasiewicz模糊分离的改进TOPSIS算法适合于饮用水样品的优化。最大输出值设为1,以应用模糊分离。饮用水样品中离子和有机物质的浓度是根据对健康有重要意义的天然化学物质的值来考虑的。对人体有积极影响的材料被视为利润标准,而对人体健康有消极影响的材料被视为成本标准。对未修改TOPSIS样本的分析表明,高浓度的利润标准和低浓度的成本标准对候选企业的排名有主要影响。修正后的TOPSIS显示,候选人在第二个分析系列中的排名与第一个分析系列相同。然而,第4个候选城市的亚硝酸盐浓度值为1.0,是由于修正TOPSIS算法中的模糊脱节造成的,这是由于饮用水和不饮用水类别的混淆。饮用水样品中离子和有机物浓度的优化结果可用于科学和工程,并具有与非饮用水区分的自动决策过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Automated Decision-Making Process for Analysis of Ions and Organic Materials in Drinking Water
This paper applies a novel automated decision-making process with TOPSIS to analyze ions and organic materials in drinking water. The hypothesis was that the modified TOPSIS algorithm with the Łukasiewicz fuzzy disjunction would be appropriate to optimize the drinking water samples. The maximum output values were set to one to apply the fuzzy disjunction. The concentrations of ions and organic materials in the drinking water samples were considered from the values for naturally occurring chemicals that would be of health significance. Materials with positive effects on the body were considered profit criteria, whereas other ones with negative impacts on human health were considered cost criteria. The analysis of samples with unmodified TOPSIS showed that profit criteria having high concentrations and cost criteria having low concentrations had the dominant effects on the candidates’ ranking. The modified TOPSIS showed that the candidates’ ranking in the second analysis series was the same as in the first. However, the value of 1.0 for the fourth candidate’s concentration of nitrite, which resulted from the fuzzy disjunction in the algorithm of the modified TOPSIS, was attributed to the confusion of the drinking water and undrinkable water categories. The optimization results for drinking water samples could be applied in science and engineering based on the concentrations of their ions and organic materials with the automated decision-making process for their distinction from undrinkable water.
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来源期刊
CiteScore
1.50
自引率
0.00%
发文量
56
审稿时长
8 weeks
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