基于人工神经网络的弹簧放电仿真模型的建立

M. M. Raju, R. Srivastava, D. Bisht, H. Sharma, Anil Kumar
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引用次数: 26

摘要

本研究展示了人工神经网络(ANNs)在春季周流量预测中的应用。这项研究是基于印度北阿坎德邦特赫里加尔瓦尔地区拉尼乔里附近一个泉水的每周流量。利用给定滞后时间的降雨量、蒸发量和温度,建立了以周为间隔预测春季流量的5个模型。所有的模型都有一个或两个隐藏层。通过选择不同的网络结构和不同数量的隐藏神经元,每个模型都经过多次试验;最后,针对各模型给出了最佳预测模型。采用快速传播算法、批量反向传播算法和Levenberg-Marquardt算法,采用1999 - 2005年的每周数据对模型进行训练。根据相关系数(R)、决定系数(determination coefficient)、纳什·萨特克利夫效率(nash Sutcliff’s efficiency, DC)等统计标准,从三种算法中选择最佳模型进行仿真。最后,考虑最优的神经元个数。训练和测试结果表明,该模型能较好地预测弹簧周流量。基于这些准则,基于人工神经网络的模型对弹簧流量的计算具有较好的一致性。研究中还开发了LMR模型,它们也给出了很好的结果,但与人工神经网络方法相比,人工神经网络方法得到了更好的优化值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of Artificial Neural-Network-Based Models for the Simulation of Spring Discharge
The present study demonstrates the application of artificial neural networks (ANNs) in predicting the weekly spring discharge. The study was based on the weekly spring discharge from a spring located near Ranichauri in Tehri Garhwal district of Uttarakhand, India. Five models were developed for predicting the spring discharge based on a weekly interval using rainfall, evaporation, temperature with a specified lag time. All models were developed both with one and two hidden layers. Each model was developed with many trials by selecting different network architectures and different number of hidden neurons; finally a best predicting model presented against each developed model. The models were trained with three different algorithms, that is, quick-propagation algorithm, batch backpropagation algorithm, and Levenberg-Marquardt algorithm using weekly data from 1999 to 2005. A best model for the simulation was selected from the three presented algorithms using the statistical criteria such as correlation coefficient (R), determination coefficient, orNash Sutcliff's efficiency (DC). Finally, optimized number of neurons were considered for the best model. Training and testing results revealed that the models were predicting the weekly spring discharge satisfactorily. Based on these criteria, ANN-based model results in better agreement for the computation of spring discharge. LMR models were also developed in the study, and they also gave good results, but, when compared with the ANN methodology, ANN resulted in better optimized values.
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