Khairah Jaafar, N. Ismail, M. Tajjudin, R. Adnan, M. Rahiman
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引用次数: 2
摘要
作为正在进行的洪水模型研究的一部分,本文提出了识别吉兰丹河重要雨量站的z分数,用于多层感知器(MLP)模型的开发。本研究采集了2015年河流水位以小时为间隔的时间序列数据。利用吉兰丹河7个雨量站进行Z-Score分析。它们分别是Gunung Gagau 1, Kuala Koh, Tualang, Kuala Krai, Kusial, Dataran Air Mulih和Jeti Kastam,编码分别为S1至S7。结果表明:识别出雨量站S2、S3和S5,并将这些站点的河流水位输入多层感知器(MLP)进行模型开发,预测S5站点的河流水位。输入输出数据按70%:15%:15%的比例分为训练、验证和测试三个部分。隐层神经元个数从1到10不等,计算每个神经元的均方误差(Mean Square Error, MSE),并对训练网络进行回归。结果表明,在隐藏层有3个隐藏神经元时,训练网络的回归值为0.9999,接近于1,最小的MSE为0.00027。研究结果表明,Z-Score在识别重要雨站方面具有一定的能力,MLP开发的模型在预测S5站的河流水位方面取得了成功。
Identification of significant rainfall stations in Kelantan River using Z-score for Multi-Layer Perceptron (MLP) model development
As part of ongoing research for flood modeling, this paper proposes Z-score in identifying the significant rainfall stations in Kelantan River for Multi-Layer Perceptron (MLP) model development. In this work, time series data of river water level was collected with hourly time interval in year 2015. Seven rainfall stations in Kelantan River were used and applied to Z-Score. They are Gunung Gagau 1, Kuala Koh, Tualang, Kuala Krai, Kusial, Dataran Air Mulih and Jeti Kastam, and coded as S1 to S7, respectively. The result showed that rainfall station S2, S3 and S5 were identified and the river water level of these station are fed to Multi-Layer Perceptron (MLP) for model development to predict the river water level at station S5. The input and output data is splitted to training, validation and testing with the ratio of 70%:15%:15%. The neurons in hidden layer were varying from 1 to 10 and Mean Square Error (MSE) for each neuron is computed together with regression for training network. It showed that the regression for training network is 0.9999 which is closed to 1 accompanied by the smallest MSE is 0.00027 at 3 hidden neurons in hidden layer. The finding in this study revealed the capability of Z-Score in identifying significant rainfall stations and MLP developed model successful in predicting river water level at station S5.
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