Temperature prediction and analysis based on improved GA-BP neural network

IF 1.6 Q4 ENVIRONMENTAL SCIENCES AIMS Environmental Science Pub Date : 2022-01-01 DOI:10.3934/environsci.2022042

Ling-Xiao Zhang, Xiaoqi Sun, Shan Gao

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引用次数: 1

Abstract

In order to predict the temperature change of Laoshan scenic area in Qingdao more accurately, a new back propagation neural network (BPNN) prediction model is proposed in this study. Temperature change affects our lives in various ways. The challenge that neural networks tend to fall into local optima needs to be addressed to increase the accuracy of temperature prediction. In this research, we used an improved genetic algorithm (GA) to optimize the weights and thresholds of BPNN to solve this problem. The prediction results of BPNN and GA-BPNN were compared, and the prediction results showed that the prediction performance of GA-BPNN was much better. Furthermore, a screening test experiment was conducted using GA-BPNN for multiple classes of meteorological parameters, and a smaller number of parameter sets were identified to simplify the prediction inputs. The values of running time, root mean square error, and mean absolute error of GA-BPNN are better than those of BPNN through the calculation and analysis of evaluation metrics. This study will contribute to a certain extent to improve the accuracy and efficiency of temperature prediction in the Laoshan landscape.

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基于改进GA-BP神经网络的温度预测与分析

为了更准确地预测青岛崂山景区的气温变化，提出了一种新的反向传播神经网络(BPNN)预测模型。气温变化以各种方式影响我们的生活。为了提高温度预测的准确性，需要解决神经网络容易陷入局部最优的问题。在本研究中，我们使用一种改进的遗传算法(GA)来优化bp神经网络的权值和阈值来解决这一问题。对比了BPNN和GA-BPNN的预测结果，结果表明GA-BPNN的预测性能要好得多。在此基础上，利用GA-BPNN对多类气象参数进行了筛选试验，识别了较少数量的参数集，简化了预测输入。通过对评价指标的计算和分析，GA-BPNN的运行时间、均方根误差和平均绝对误差均优于BPNN。本研究将在一定程度上有助于提高崂山景观温度预测的准确性和效率。

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