基于前馈神经网络的水质参数数据输入

Pub Date : 2023-05-22 DOI:10.1590/2318-0331.282320220118
L. Peixoto, Bárbara Alves de Lima, Camila de Carvalho Almeida, C. Fernandes, J. Centeno, J. C. D. Azevedo
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引用次数: 0

摘要

对水质的持续监测是了解水生环境的基础,但它需要大量的财政投资,并且容易出现不一致和缺失值。本研究利用伊瓜苏河流域(巴西南部)10个监测站12年来59次采样活动组成的数据库,提出了一个基于前馈神经网络的模型,该模型为11个传统水质参数以及3种新出现的污染物(咖啡因、雌二醇和乙炔雌二醇)估算了1370个值。传统参数模型验证误差分别为0.978 mg L-1和0.017 mg L-1,咖啡因模型验证误差分别为0.212µg L-1,激素模型验证误差分别为0.04µg L-1 (E1)和0.044µg L-1 (EE1)。模型采用了两种技术来理解模型内执行的操作(隔离和取消),这与自然过程解释的操作一致。研究结果表明,通过神经网络对水质参数(尤其是咖啡因的浓度)进行建模是有效的,这可能会导致环境监测中更好的资源分配,以及改进可用的数据集和评估以前的监测工作。
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Data imputation of water quality parameters through feed-forward neural networks
ABSTRACT The constant monitoring of water quality is fundamental for the understanding of the aquatic environment, yet it demands great financial investments and is susceptible to inconsistencies and missing values. Using a database composed of 59 sampling campaigns, performed for 12 years, on 10 monitoring stations along the Iguassu River Basin (Southern Brazil), this study presents a model, based on feed-forward neural networks, which imputed 1,370 values for 11 traditional water quality parameters, as well as 3 contaminants of emerging concern (caffeine, estradiol and ethinylestradiol). The model validation errors varied from 0.978 mg L-1 and 0.017 mg L-1 for the traditional parameters, for caffeine the validation error was of 0.212 µg L-1 and for the hormones, the errors were of 0.04 µg L-1 (E1) and 0.044 µg L-1 (EE1). The models underwent two techniques to understand the operations performed within the model (isolation and nullification), which were consistent to those explained by natural processes. The results point to the validity of modeling water quality parameters (especially the concentrations of caffeine) through neural networks, which could lead to better resource allocation in environmental monitoring, as well as improving available datasets and valuing previous monitoring efforts.
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