基于具有长链短期记忆元素的人工神经网络和离散小波变换的混合模型,用于预测北极地区的地表甲烷含量

A. Buevich, A. Sergeev, A. Shichkin, E. Baglaeva, I. Subbotina, A. Butorova
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引用次数: 0

摘要

对地球北极地区温室气体动态的研究正变得越来越重要。由于在该地区观测到的气候变化,此类研究尤为重要。本文提出了一种混合模型,将原始数据的小波变换与具有长链短期记忆(LSTM)元素的人工神经网络相结合,预测北极纬度地区地表甲烷浓度的变化。通过离散小波变换的甲烷浓度时间序列被分解为四个分量--一个近似分量和三个细节分量。这些分量用于训练 LSTM 网络。预测结果由每个分量的预测结果之和计算得出。我们建立了三个预测模型。第一个模型是以非线性自回归模式训练 LSTM 网络。第二个模型是离散小波变换与 LSTM 神经网络的结合。另外一个基于非线性自回归神经网络(NAR)的模型也用于比较。这项工作以俄罗斯亚马尔-涅涅茨自治区别利岛温室气体环境监测数据为基础。用于建立拟议模型的初始数据是在 2017 年 7 月至 8 月期间获得的。预测的准确性通过几项指标进行了评估。基于 LSTM 的混合模型显示出最佳精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A hybrid model based on an artificial neural network with a long chain of short-term memory elements and a discrete wavelet transform for predicting surface methane content in the Arctic area
The study of the dynamics of greenhouse gases in the Arctic regions of the planet is becoming increasingly important. Such studies are especially relevant due to the climate change observed in this region. The paper propose a hybrid model that combines wavelet transformation of the original data and an artificial neural network with a long chain of short-term memory (LSTM) elements to predict changes in the surface methane concentration in the Arctic latitudes. The methane concentration time series via a discrete wavelet transform was decomposed into four components — one approximating and three detailing ones. These components were used to train the LSTM network. The forecast was calculated as the sum of forecasts for each of the components. Three predictive models were built. In the first, the LSTM network was trained in a non-linear autoregressive mode. The second one was a combination of discrete wavelet transform with LSTM neural network. An additional model based on a non-linear autoregressive neural network (NAR) was also used for comparison. The work is based on data from environmental monitoring of greenhouse gases on Bely Island, Yamalo-Nenets Autonomous Area of Russia. The initial data for building the proposed model were obtained within July-August 2017. The accuracy of the forecast was assessed using several indicators. The hybrid model based on LSTM showed the best accuracy.
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