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基于MIC-BP神经网络溶解氧预测模型的构建和评价 被引量:1

Construction and evaluation of dissolved oxygen prediction model based on MIC-BP neural network
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摘要 溶解氧(DO)是影响水生生物生长和水环境健康的重要环境因子,对DO精准预测有利于水产养殖业的健康发展。本研究根据福建闽江水口库区水质在线浮标SK11、SK18站位2022年1月到6月的水质数据和气象数据,分别运用BP神经网络预测模型和MIC-BP神经网络预测模型进行机器学习,给出预测结果,同时对两种DO预测模型的预测结果进行比较验证。结果表明:经过最大信息系数(MIC)的识别和筛选,13项输入因子中与DO相关性较大的因子有pH、水温、叶绿素a、电导率、浊度、氨氮浓度和亚硝酸盐氮浓度等7项;混合MIC-BP神经网络模型的效果明显优于独立的BP神经网络模型,候选因子经过MIC的识别和筛选后可以明显增加模型的性能,表现为:在SK11站位,MIC-BP神经网络模型的性能相对于独立BP神经网络模型,MAE降低约29.29%,RMSE降低约60.09%,NSE增加27.63%;在SK18站位,MIC-BP神经网络模型的性能相对于独立BP神经网络模型,MAE降低约17.16%,RMSE降低约16.23%,NSE增加12.77%。 Dissolved oxygen is an important environmental factor that affects the growth of aquatic organisms and water environment.Accurate prediction of dissolved oxygen is beneficial to the healthy development of aquaculture.This study was based on the water quality data and meteorological data of online buoys SK11 and SK18 in Shuikou reservoir area of Minjiang River in Fujian from January to June,2022.Then,back propagation(BP)neural network prediction model and MIC-BP neural network measurement model were used for machine learning,and the prediction results are given.At the same time,the prediction results of the two dissolved oxygen prediction models were compared and verified.The results showed that after the identification and screening of MIC(Maximum information coefficient),among the 13 input factors,the factors that had great correlation with dissolved oxygen include pH,water temperature,chlorophyll,electrical conductivity,turbidity,ammonia nitrogen concentration and nitrite nitrogen concentration.The effect of the mixed MIC-BP neural network model was obviously better than that of the independent BP neural network model.After the candidate factors were identified and screened by MIC,the performance of the model could be obviously improved.Compared with the independent BP neural network model,the results showed that the performance of MIC-BP neural network model at SK11 station decreased by 29.29%,RMSE decreased by 60.09%,and NSE increased by 27.63%,respectively.At station SK18,MAE decreased by 17.16%,RMSE decreased by 16.23%,and NSE increased by 12.77%,respectively.
作者 陈梦云 CHEN Mengyun(Freshwater Fisheries Research Institute of Fujian,Fuzhou 350002,China)
出处 《渔业研究》 2023年第4期317-330,共14页 Journal of Fisheries Research
基金 2021年福建省海洋与渔业结构调整专项[(2021)MDS-YT001]。
关键词 溶解氧预测 最大信息系数(MIC) 机器学习 BP神经网络 dissolved oxygen prediction maximum information coefficient(MIC) machine learning back propagation(BP)neural network
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